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Hi i would like to make an external single linked list. I have a problem with "Non-Ivalue in assignment" and its occuring on line "this = currP->next" i tried making it currP.next but its also producing an error

#include <cstdlib>
using namespace std;


struct node{
       int data;
       node *next;

       node(int i){
                data = i;
                next = NULL;
                }

       void insert(int position, node &n){
            node *currP = this;
            node *prevP= NULL;      
            for(int counter = 0; counter>=position;counter++, prevP = currP, currP = currP->next){
                    if(counter==position)
                    {
                    n.next  = currP->next;
                    currP->next = &n; 
                                         }                     
                    }

            }

       void add(node &n){
       next = &n;          
                 }
       void deleteNode(int i){
            node *currP = this;
            node *prevP = NULL;

            while(currP!= NULL){
               if(currP->data == i){
                  if(prevP == NULL) 
                      this = currP->next;
                  else{   
                      prevP->next = currP->next;
                  }                      
               }                                                  
               prevP = currP;
               currP = currP->next;
            }
        }
 };
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  • 3
    this is not a variable. It is a keyword representing the current object. You can not change the current object by trying to set it. Nov 7, 2011 at 9:37

2 Answers 2

5

An lvalue is a variable that can reside at the left side of the equal operator. This means its value can be changed. You can't change the value of this, it's just not permitted, therefore the error.

You could re-write your function as follows:

    node* deleteNode(int i){
        if (  this->data == i )
           return this->next;
        else
        {
           if ( this->next )
              this->next = this->next->deleteNode(i);
           else
              return this;
        }
    }

deleteNode() will now return a pointer to the start of the rest of the list and the recursive algorithm will concatenate the first part with the last part. It's not tested so a few adjustments may be necessary but I hope you get the point.

5
  • 1
    To elaborate a little on this answer, instead of assigning to this, you could copy the data which for a simple class like this you can do with *this = *currP->next. If you don't know what the difference is, read more about pointer dereferencing. Nov 7, 2011 at 9:42
  • You might get a more detailed answer on codereview, but in general, I'd question why removing an item from a list was a method of a node at all.
    – Useless
    Nov 7, 2011 at 9:43
  • im trying to make node and list as one struct instead of list and node separated XD..
    – jko
    Nov 7, 2011 at 9:48
  • @Useless Removing the node might make sense (in which case, the best name for the function isn't deleteNode, but ~Node---the destructor), but his function apparently deletes an arbitrary node further down in the list. Such a function should be a member of the list class itself, and not of the node. Nov 7, 2011 at 9:48
  • 2
    @jko - I see that, but I'm suggesting it's a poor seperation of concerns, as @JamesKanze also points out. It could be reasonable to have a list class with just one member: node head; and move the list-management operations into there. Also: consider how you represent an empty list: is it going to be a NULL node pointer, or a magic sentinel node? ... Anyway, this is rapidly getting too big for a comment.
    – Useless
    Nov 7, 2011 at 9:55
4

A lvalue is a semantic rule. It means "left-value".

Examples of lvalues are:

  • A variable. ie "a"
  • A memory address. ie "a[4]" or "*(a+8)"

this is not a lvalue. You just can't assign anything to it. It's the reference to the method caller.

2
  • how could i make the method caller variable "next" point to where "currP->next" points?
    – jko
    Nov 7, 2011 at 9:42
  • this->next = currP->next; You can access this like a normal variable, you just can't assign anything to it.
    – Victor
    Nov 7, 2011 at 9:48

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