插入节点但第一个输入的节点从列表中删除

Nodes are inserted but first node entered deleted from the list

您好,我正在尝试创建一个通用列表迭代器来存储整数或 string.when 我将节点添加到列表并将其打印为列表,输入的第一个节点位于列表的最后并且输入的最后一个节点位于列表的开头(就像在列表前面)(代码在下面的测试用例 2 中进行了测试)。但是,我面临的问题是它只是 "forgets" 第一个节点 entered.I 甚至尝试从列表的第一个元素移动并逐个打印,但似乎输入的第一个节点不存在

这是添加函数:

int  add(IteratorG it, void *vp){

  Node *temp;
  if ((temp = malloc(sizeof(Node))) == NULL) { 
    return 0; 
  }

  temp->value = it->newElm(vp);


  if(it->curr!=NULL)
  {    

  temp->next=it->curr;
  it->curr->prev=temp;
  it->curr=temp;
  }

  if(it->curr==NULL){

  it->curr=temp;
  it->curr->next=NULL;
  }  

    return 1;
}

我正在使用 Linux 环境,错误是从结果中看出的。这是整个程序的代码:

#include <stdlib.h>
#include <stdio.h>
#include <assert.h>
#include "iteratorG.h"

typedef struct Node {

  void *value;  // value of thee list item
  struct Node *prev;
  // pointer previous node in list
  struct Node *next;
  // pointer to next node in list

  // implemented struct here .. 
} Node;

typedef struct IteratorGRep {

  int  numofit;      // count of items in list
  Node *head;         // first node in list
  Node *curr;       // current node in list
  Node *tail;       // last node in list

  ElmCompareFp  cmpElm;
  ElmNewFp  newElm;
  ElmFreeFp freeElm;

  // implemented struct here .. 

} IteratorGRep;


/*


  //Your  functions below .... 
 */


IteratorG newIterator(ElmCompareFp cmpFp, ElmNewFp newFp, ElmFreeFp freeFp){

    IteratorG newit;


  if ((newit = malloc(sizeof (struct IteratorGRep)))==NULL)
  {
    printf("Error...! \n");

  }

  //assert (newit != NULL);
  newit->numofit = 0;
  newit->head = NULL;
  newit->tail = NULL;
  newit->curr = NULL;
  newit->cmpElm=cmpFp;
  newit->newElm=newFp;
  newit->freeElm=freeFp;
  return newit;

    // implemented function here and changed return value 
}



int  add(IteratorG it, void *vp){

  Node *temp;
  if ((temp = malloc(sizeof(Node))) == NULL) { 
    return 0; 
  }

  temp->value = it->newElm(vp);
  temp->next=NULL;

  if(it->curr==NULL)
  {
    //temp->next=it->curr;
    it->curr=temp;
    it->tail=it->head=it->curr;
  }  

  temp->next=it->curr;
  it->curr->prev=temp;
  it->curr=temp;
  it->head=it->curr;
  //it->curr->prev=temp;
  /*temp->next = it->curr;
  it->curr = temp;
  */
    // add node to list from front 
    return 1;
}
int  hasNext(IteratorG it){

  if(it->curr->next==NULL)
   {
     return 0;
   }


    // check if theres next element/node
    return 1;
}
int  hasPrevious(IteratorG it){

    if(it->curr->prev!=NULL)
    {
      return 1;
    }
    // check if theres previous element/node 
    return 0;
}
void *next(IteratorG it){

  Node *tempo;

  if(it->curr->next==NULL)
  {
    return NULL;
  }
  tempo=it->curr;
  it->curr=it->curr->next;

  // implemented function here  
  return tempo->value;
}
void *previous(IteratorG it){

    Node *tempor;

  tempor=it->curr;
  if(tempor->prev==NULL)
  {
    return NULL;
  }
  tempor=it->curr->prev;

  it->curr=it->curr->prev;
  //tempor=it->curr;

  // move to next node in list  
  return tempor->value;
}
int  del(IteratorG it){
  if(it->curr->prev!=NULL)
  {
    Node *temp_curr=it->curr;
    Node *temp_prev=it->curr->prev->prev;
    temp_curr->prev=temp_prev;
    temp_prev->next=temp_curr;
    return 1;

  }// delete previous node  from list 
  else
    return 0;
}
int  set(IteratorG it, void *vp){
  if(it->curr->prev!=NULL)
  {

  it->curr->prev->value=vp;


  /*  

  Node *wep;
  if ((wep = malloc(sizeof(Node))) == NULL) { 
      return 0; 
  }  


  wep->value=it->newElm(vp);  


  store_next=it->curr;
  store_prev=it->curr->prev->prev;
  store_next->prev=wep;
   wep->next=store_next;

  store_prev->next=wep;
  wep->prev=store_prev;
  */


  return 1;
  }
    // change previous node value with new 
    return 0;
}
IteratorG advance(IteratorG it, int n){



    //To be implemented
    //move forward by n times
    return NULL;
}
void reverse(IteratorG it){
  Node *curr = it->head;
  Node *temp = NULL;
  while(curr != NULL) {
    temp = curr->next;
    curr->next = curr->prev;
    curr->prev = temp;
    curr = temp;
  }
  temp = it->head;
  it->head = it->tail;
  it->tail = temp;// reverse elements of whole list
}
IteratorG find(IteratorG it, int (*fp) (void *vp) ){
    // To be implemented 
    // Find elements of vp in list after current position and put in new list.return the list.
      return NULL;
 }
int distanceFromStart(IteratorG it){

  Node *c=it->curr;
  int count=0;


  while(c->prev!=NULL)
  {
    c=c->prev;
    count++;
  }
  return count;
    // count number of elements from start of list to current position 

}
int distanceToEnd(IteratorG it){

  Node *cu=it->curr;
  int count=0;

  while(cu->next!=NULL)
  {
    cu=cu->next;
    count++;
  }
  return count;
    // count number of elements from end of list to current position
}
void reset(IteratorG it){



  while(it->curr->prev!=NULL)
  {

    it->curr=it->curr->prev;

  }
  return;
    // move current position to start of list

}
 void freeIt(IteratorG it){
  assert(it != NULL);
  Node *curr, *prev;
  curr = it->head;
  while (curr != NULL) {
    prev = curr;
    curr = curr->next;
    free(prev->value);
    free(prev);
  }
  free(it); // free items  

}

这是代码的头文件:

#ifndef LISTITERATORG_H
#define LISTITERATORG_H

#include <stdio.h>

typedef struct IteratorGRep *IteratorG;

typedef int   (*ElmCompareFp)(void const *e1, void const *e2);
typedef void *(*ElmNewFp)(void const *e1);
typedef void  (*ElmFreeFp)(void *e1);


IteratorG newIterator(ElmCompareFp cmpFp, ElmNewFp newFp, ElmFreeFp freeFp);
int  add(IteratorG it, void *vp);
int  hasNext(IteratorG it);
int  hasPrevious(IteratorG it);
void *next(IteratorG it);
void *previous(IteratorG it);
int  del(IteratorG it);
int  set(IteratorG it, void *vp);
IteratorG advance(IteratorG it, int n);
void reverse(IteratorG it);
IteratorG find(IteratorG it, int (*fp) (void *vp) );
int distanceFromStart(IteratorG it);
int distanceToEnd(IteratorG it);
void reset(IteratorG it);
void freeIt(IteratorG it);

#endif

其中一个功能尚未实现,代码本身已指明。但我想这可能不是问题的根源。我发现这里没有正确使用添加功能。

编辑: 这是测试用例代码。只有上面程序中的测试用例代码没有错误:

#include <stdlib.h>
#include <stdio.h>
#include <assert.h>
#include <string.h>
#include "iteratorG.h"
#include "positiveIntType.h"
#include "stringType.h" 

#define MAXARRAY 5

/* Helper Functions Below */

/* Returns 1 if marks >= 50, 0 otherwise  */
int passMarks(void *marks){
  return (*((int *) marks) >= 50); 

  /* Easy to understand below .. 
     int *ip = (int *) marks;
     if(*ip >= 50) { return 1; }
     else { return 0; } 
  */
}

/* Returns 1 if str starts with "jo" */
int prefixJo(void *str){
  return (strncmp("jo", (char *) str, 2) == 0) ; 
}

/* A function to print a string from a void pointer */
void prnStr(void *vp){
  assert(vp != NULL);
  printf(" %s", (char *) vp );      
}

/* A function to print an integer from a void pointer */
void prnInt(void *vp){
  assert(vp != NULL);
  printf(" %d", *((int *) vp) );    
}

/* Prints previous element using the given function 'fp'
   examples: prnPrev(it1, prnInt); prnPrev(it2, prnStr);
*/
void prnPrev(IteratorG it, void (*fp) (void *p) ){
  void *prevP = previous(it);
  assert(prevP != NULL);
  printf("> Previous value is: "); 
  fp(prevP);
  printf("\n"); 
}

/* Prints next element using the given function 'fp'
   examples:   prnNext(it1, prnInt); prnNext(it2, prnStr);
*/
void prnNext(IteratorG it, void (*fp) (void *p) ){
  void *nextP = next(it);
  assert(nextP != NULL);
  printf("> Next value is: "); 
  fp(nextP);
  printf("\n"); 
}

/* Prints elements of 'it' from current to last position 
   using the given function 'fp'. The current position 
   of 'it' will change to the end of the list.
   examples: prnIt(it1, prnInt); prnIt(it2, prnStr);
*/
void prnIt(IteratorG it, void (*fp) (void *p) ){
  int count = 0;
  while(hasNext(it)){
    void *nextP = next(it); 
    count++;
    if(count > 1) { printf(", "); }
    fp(nextP);      
  }
  printf("\n"); 
}


/* Few Tests Below  */

void test1(){
  printf("\n--====  Test-01       ====------\n");
  IteratorG it1 = newIterator(positiveIntCompare, positiveIntNew,  positiveIntFree);
  int a[MAXARRAY] = { 25, 78, 6, 82 , 11};
  for(int i=0; i<MAXARRAY; i++){
    int result = add(it1 , &a[i]); 
    printf("> Inserting %d: %s \n", a[i], (result==1 ? "Success" : "Failed") );
  }
  freeIt(it1);
  printf("--====  End of Test-01 ====------\n");
}

void test2(){
  printf("\n--====  Test-02       ====------\n");
  IteratorG it1 = newIterator(positiveIntCompare, positiveIntNew, positiveIntFree);
  int a[MAXARRAY] = { 72, 14, 62, 8, 93};
  for(int i=0; i<MAXARRAY; i++){
    int result = add(it1 , &a[i]); 
    printf("> Inserting %d: %s \n", a[i], (result==1 ? "Success" : "Failed") );
  }

  prnNext(it1, prnInt);
  prnNext(it1, prnInt);
  prnPrev(it1, prnInt);

  int newVal1 = 55;
  int result1 = set(it1, &newVal1);
  printf("> Set value: %d ; return val: %d \n", newVal1,  result1 );  

  prnPrev(it1, prnInt);

  freeIt(it1);
  printf("--====  End of Test-02 ====------\n");
}



int main(int argc, char *argv[])
{


  test1();
  test2();

  return EXIT_SUCCESS;

}

名为 it->head 的节点应使用第一个值进行初始化,因为 it->curr 被假定为第一个 node.Furthermore,以防止与其他节点失去连接,一个新的节点应使用节点 stored.So 进行初始化,添加函数应如下所示:

int  add(IteratorG it, void *vp){

  Node *temp;
  if ((temp = malloc(sizeof(Node))) == NULL) { 
    return 0; 
  }
  Node *tempe;
  if ((temp = malloc(sizeof(Node))) == NULL) { 
    return 0; 
  }

  temp->value = it->newElm(vp);
  //temp->next=NULL;

  if(it->curr==NULL)
  {
    //temp->next=it->curr;
    it->head=it->tail=temp;
    it->curr=temp;
  }
  else
  {
   tempe=it->curr;
   tempe->prev=temp;
    temp->next=tempe;
    it->curr=tempe;
    it->curr=temp;
    it->head=temp;


  } 

    //it->tail=it->head=it->curr;
    return 1;
  }