求大佬看看我这个双向链表哪里不对（插入部门）

//不带表头结点的双向链表
#include <stdio.h>
#include <stdlib.h>
#include <malloc.h>
#include <time.h>
#include <locale.h>
struct NODE {
    int          data;
    struct NODE *next;
    struct NODE *prev;
} *head,*p,*q,*s,*p1,*p2,*q1,**ta;
int i,k,n,t,m,v,N=10;
int main() {
    setlocale(LC_ALL,"chs");
    srand(time(NULL));

    head=NULL;

    printf("创建%d个节点的双向链表:",N);//创建N个节点的双向链表
    p=head;
    for (i=0;i<N;i++) {
        q=(struct NODE *)malloc(sizeof(struct NODE));
        if (NULL==q) exit(1);
        q->data=rand()%100;//填写0..99的随机值
        q->next=NULL;
        q->prev=NULL;
        if (NULL==p) {
            head=q;
            p=head;
        } else {
            p->next=q;
            q->prev=p;
            p=q;
        }
    }

    //输出整个双向链表
    s=head;
    while (1) {
        if (NULL==s) {
            printf("\n");
            break;
        }
        printf("%02d<->",s->data);
        if (NULL!=s->next && s->next->prev!=s) {printf(" !\n");break;}
        s=s->next;
    }

    k=3;
    v=5;
    printf("将值为%d的结点插入到双向链表的第%d个结点前:",v,k);//将值为v的结点插入到双向链表的第k个结点前
    n=0;
    p=head;
    while (1) {
        if (NULL==p) {
            break;
        }
        n++;
        if (k==1) {
            q=(struct NODE *)malloc(sizeof(struct NODE));
            if (NULL==q) exit(1);
            q->data=v;
            q->next=head;
            q->prev=NULL;
            head->prev=q;
            head=q;
            break;
        } else {
            if (k-1==n) {
                q=(struct NODE *)malloc(sizeof(struct NODE));
                if (NULL==q) exit(1);
                q->data=v;
                q->next=p->next;
                q->prev=p;
                p->next->prev=q;
                p->next=q;
                break;
            }
        }
        p=p->next;
    }

    //输出整个双向链表
    s=head;
    while (1) {
        if (NULL==s) {
            printf("\n");
            break;
        }
        printf("%02d<->",s->data);
        if (NULL!=s->next && s->next->prev!=s) {printf(" !\n");break;}
        s=s->next;
    }

    k=5;
    printf("删除第%d个节点:",k);//删除第k个节点
    n=0;
    p=head;
    while (1) {
        if (NULL==p) {
            break;
        }
        n++;
        if (k==1) {
            q=head;
            head=head->next;
            head->prev=NULL;
            free(q);
            break;
        } else {
            if (k-1==n) {
                q=p->next;
                if (q) {
                    p->next=q->next;
                    if (q->next) q->next->prev=p;
                    free(q);
                }
                break;
            }
        }
        p=p->next;
    }

    //输出整个双向链表
    s=head;
    while (1) {
        if (NULL==s) {
            printf("\n");
            break;
        }
        printf("%02d<->",s->data);
        if (NULL!=s->next && s->next->prev!=s) {printf(" !\n");break;}
        s=s->next;
    }

    printf("从小到大排序:");//从小到大排序
    for (p=head,p1=NULL;p!=NULL;p1=p,p=p->next) {
        for (q=p->next,q1=p;q!=NULL;q1=q,q=q->next) {
            if (p->data > q->data) {

                //交换data
//              printf("swap %02d %02d\n",p->data,q->data);
//              t=p->data;p->data=q->data;q->data=t;

                //或者

                //交换prev和next
//              printf("swap %02d %02d\n",p->data,q->data);
                if (p==head) {//p是头
                    if (p->next==q) {//pq挨着
                        head=q;
                        head->prev=NULL;
                        p->next=q->next;
                        p->prev=q;
                        if (q->next) q->next->prev=p;
                        q->next=p;
                        q=p;
                        p=head;
                    } else {//pq不挨着
                        head=q;
                        head->prev=NULL;
                        p2=p->next;
                        p->next=q->next;
                        p->prev=q->prev;
                        if (q->next) q->next->prev=p;
                        q->next=p2;
                        p2->prev=q;
                        q1->next=p;
                        q=p;
                        p=head;
                    }
                } else {//p不是头
                    if (p->next==q) {//pq挨着
                        p1->next=q;
                        p->next=q->next;
                        p->prev=q;
                        if (q->next) q->next->prev=p;
                        q->next=p;
                        q->prev=p1;
                        q=p;
                        p=p1->next;
                    } else {//pq不挨着
                        p1->next=q;
                        p2=p->next;
                        p->next=q->next;
                        p->prev=q->prev;
                        if (q->next) q->next->prev=p;
                        q->next=p2;
                        p2->prev=q;
                        q->prev=p1;
                        q1->next=p;
                        q=p;
                        p=p1->next;
                    }
                }

                //输出整个双向链表
//              s=head;
//              while (1) {
//                  if (NULL==s) {
//                      printf("\n");
//                      break;
//                  }
//                  printf("%02d<->",s->data);
//                  if (NULL!=s->next && s->next->prev!=s) {printf(" !\n");break;}
//                  s=s->next;
//              }
//              getchar();
            }
        }
    }

    //输出整个双向链表并计算链表长度n
    n=0;
    s=head;
    while (1) {
        if (NULL==s) {
            printf("\n");
            break;
        }
        printf("%02d<->",s->data);
        if (NULL!=s->next && s->next->prev!=s) {printf(" !\n");break;}
        n++;
        s=s->next;
    }

    printf("将整个链表逆序:");//将整个链表逆序
    if (n>=2) {
        p=head;
        q=p->next;
        p->next=NULL;
        while (1) {
            q1=q->next;
            q->next=p;
            p->prev=q;
            p=q;
            q=q1;
            if (NULL==q) break;
        }
        head=p;
        head->prev=NULL;
    }

    //输出整个双向链表
    s=head;
    while (1) {
        if (NULL==s) {
            printf("\n");
            break;
        }
        printf("%02d<->",s->data);
        if (NULL!=s->next && s->next->prev!=s) {printf(" !\n");break;}
        s=s->next;
    }

    m=4;
    n=6;
    printf("将双向链表中前%d个结点和后%d个结点进行互换:",m,n);//将双向链表中前m个结点和后n个结点进行互换,m+n为链表总长
    k=0;
    p=head;
    while (1) {
        if (NULL==p) {
            break;
        }
        k++;
        if (m==k) {
            q=p;
        }
        s=p;
        p=p->next;
    }
    q1=head;
    head=q->next;
    head->prev=NULL;
    s->next=q1;
    q1->prev=s;
    q->next=NULL;

    //输出整个双向链表
    s=head;
    while (1) {
        if (NULL==s) {
            printf("\n");
            break;
        }
        printf("%02d<->",s->data);
        if (NULL!=s->next && s->next->prev!=s) {printf(" !\n");break;}
        s=s->next;
    }

    //释放所有节点
    p=head;
    while (1) {
        if (NULL==p) {
            break;
        }
        q=p->next;
        free(p);
        p=q;
    }

    return 0;
}
//创建10个节点的双向链表:93<->03<->60<->05<->57<->71<->02<->41<->26<->85<->
//将值为5的结点插入到双向链表的第3个结点前:93<->03<->05<->60<->05<->57<->71<->02<->41<->26<->85<->
//删除第5个节点:93<->03<->05<->60<->57<->71<->02<->41<->26<->85<->
//从小到大排序:02<->03<->05<->26<->41<->57<->60<->71<->85<->93<->
//将整个链表逆序:93<->85<->71<->60<->57<->41<->26<->05<->03<->02<->
//将双向链表中前4个结点和后6个结点进行互换:57<->41<->26<->05<->03<->02<->93<->85<->71<->60<->
//

#include<stdio.h>

#include<malloc.h>



struct node

{

    int num;

    struct node *next;

    struct node *prior;

};





struct node *ins(struct node *head,int k)

{

    struct node *p1,*p2;



    p2=(struct node*)malloc(sizeof(struct node));

    p2->num=k;

    p1 = head;

    while(p1->num < p2->num && p1->next!=NULL)

    {

        p1=p1->next;

    }

    if(p1->num >= p2->num)

    {

        if(p1==head)

        {

            p2->next = p1;

            p2->prior = NULL;

            p1->prior = p2;

            head = p2;

            /*

            head=p2;

            p2->next=p1;

            p1->prior=p2;

            */

        }

        else

        {

            p2->next = p1;

            p2->prior = p1->prior;



            p1->prior->next = p2;



            /*

            p1->prior->next=p2;

            p2->prior=p1->prior;

            p1->prior=p2;

            p2->next=p1;

            */

        }

    }

    else

    {

        p2->next = NULL;

        p2->prior = p1;

        p1->next = p2;

    }

    return head;

}

struct node *del(struct node *head,int n)

{

    struct node *p1;

    p1=head;

    while(p1->next!=NULL && p1->num!=n)

    {

        p1=p1->next;

    }

    if(p1->num==n)

    {

        if(p1==head)

        {

            head=p1->next;

            p1->next->prior=head;

            free(p1);

        }

        else

        {

            p1->prior->next=p1->next;

            p1->next->prior=p1->prior;

            free(p1);

        }

    }

    else if(p1->num!=n && p1->next==NULL)

    {

        printf("No Found!");

    }

    return head;

}

struct node *creat()

{

    struct node *p1,*p2,*head;

    head = NULL;

    //head->next==NULL;    //head已经是指向NULL了，所以不能访问next和prior成员

    //head->prior==NULL;

    p1=p2=(struct node*)malloc(sizeof(struct node));

    //head = p1;

    scanf("%d",&p1->num);

    while(p1->num != 0)

    {

        if (!head) {

            head = p1;

            p1->prior = NULL;

        } else {

            p2->next = p1;

            p1->prior = p2;

        }

        p2 = p1;

        p1=(struct node*)malloc(sizeof(struct node));

        scanf("%d",&p1->num);

    }

    free(p1);

    if (head)

        p2->next = NULL;



    return head;

}



void print(struct node *head)

{

    struct node *p1;

    p1=head;

    //int k=10;

    //while(p1->next!=NULL)

    while(p1)

    {

        printf("%d ",p1->num);

        p1 = p1->next;

    }

    putchar(10);

}

int main()

{

    struct node *head;

    int n,k;



    head=creat();

    print(head);

    //scanf("%d",&n);

    // head=del(head,n);

    scanf("%d",&k);

    head=ins(head,k);

    print(head);

    scanf("%d",&n);

    head=del(head,n);

    print(head);

    return 0;

}