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as far as I can see, you can do:

  1. Find the node to remove.
  2. node.previous.next = node.next
  3. node.next.previous = node.previous
  4. node.previous = null
  5. node.next = null
  6. Dispose of node if you're in a non-GC environment

If your list is a double linked.

But how do you do it with a single linked list? I have tried a lot of things, with no avail :( I simply get it to remove a specific index instead or it does nothing at all

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11 Answers 11

up vote 10 down vote accepted

Start at the beginning of the list. Maintain a reference to the current item (currentItem) and the previous item (previousItem). Linearly search for the item that you want to remove always walking with previousItem = currentItem, currentItem = currentItem.Next. If the item that you want to remove is the head of the list, reassign the head of the list to currentItem.Next. Otherwise, set previousItem.Next = currentItem.Next. If necessary (as you say, in a non-GC environment) dispose of currentItem.

Basically you are using previousItem to mimic the behavior of a currentItem.Previous in the case of a doubly-linked list.

Edit: This is a correct implementation of Delete:

public void Delete(int rangeStart, int rangeEnd) {
    Node previousNode = null, currentNode = Head;
    while (currentNode != null) {
        if (currentNode.Data >= rangeStart && currentNode.Data <= rangeEnd) {
            if (previousNode == null) {
                Initial = currentNode.Next;
            else {
                previousNode.Next = currentNode.Next;
        else {
            previousNode = currentNode;
        currentNode = currentNode.Next;
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That is clever! I had not thought of mimicing! Although, I does not seem to work, if the item is the very first item in my list? –  CasperT Sep 16 '09 at 13:40
@CasperT: If the item is the very first in the list you merely reassign the head of the list to currentItem.Next and, if necessary, dispose of currentItem. In this case the previousItem reference is not needed. –  jason Sep 16 '09 at 13:46
I think I am a little off the track. I have updated my question :) –  CasperT Sep 16 '09 at 13:47
Oh and also if the item is in the end of my list - won't work either :) –  CasperT Sep 16 '09 at 13:59
There. Fixed it :) –  CasperT Sep 16 '09 at 14:14

You keep track of the last node while you try to find the "current node".

Then you can wire up the previouse.next to current.next and you are done

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It doesn't seem to work if the desired item(s) is either in the end or at the start of the list –  CasperT Sep 16 '09 at 14:05
You pseudocode didnt handle that case either ;) –  Heiko Hatzfeld Sep 16 '09 at 14:25
Touche :P and wow it takes a lot of code to handle the rest –  CasperT Sep 16 '09 at 18:49

The following code uses recursion to keep track of previous node: Source: http://www.cs.bu.edu/teaching/c/linked-list/delete/

nodeT *ListDelete(nodeT *currP, elementT value)
  /* See if we are at end of list. */
  if (currP == NULL)
    return NULL;

   * Check to see if current node is one
   * to be deleted.
  if (currP->element == value) {
    nodeT *tempNextP;

    /* Save the next pointer in the node. */
    tempNextP = currP->next;

    /* Deallocate the node. */

     * Return the NEW pointer to where we
     * were called from.  I.e., the pointer
     * the previous call will use to "skip
     * over" the removed node.
    return tempNextP;

   * Check the rest of the list, fixing the next
   * pointer in case the next node is the one
   * removed.
  currP->next = ListDelete(currP->next, value);

   * Return the pointer to where we were called
   * from.  Since we did not remove this node it
   * will be the same.
  return currP;
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Well, you could just use LinkedList<T> and Remove; but manually:

  • iterate forwards until you find the node you want to remove keeping the previous node available in a variable at each point
  • set prev.next = node.next
  • go home
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Should check prev for null!Isnt it? –  vpram86 Sep 16 '09 at 13:09
calling LinkedList<T> "language-agnostic" would be a bit of a stretch ;-) –  HerdplattenToni Sep 16 '09 at 13:15
@HerdplattenToni - check the edit history; it was C# at one point! –  Marc Gravell Sep 16 '09 at 13:36
@Marc Gravell: I made the edit because his first version of the post seemed to be looking for the idea and not code in a specific language (as indicated by his walkthrough on how to do it for a doubly-linked list). Now that he has added code, I have added the tag back. It does not appear that he is using LinkedList<T> however. –  jason Sep 16 '09 at 13:49

keep remebering the last node you been too.


Node prevnode = null;
foreach (node n in nodes)
    if (n.name.equals(name))
    	if (prevnode != null)
    		prevnode.next = n.next;
    	remove n;

    prevnode = n;
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I am not sure how you could implement a foreach :) –  CasperT Sep 16 '09 at 18:51
therefore a pseudo code tag. Just like the remove –  RvdK Sep 16 '09 at 18:55

You may find the comprehensive implementation of Singly Linked List with all the functions such Add, Remove, InsertAt etc., here. http://technicalypto.blogspot.com/2010/01/linked-lists.html Note: This has a working Java code + Test classes so that you would not miss out on anything that a singly linked list is made of,

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This is the primary weakness of the singly-linked list. You'll either need to have a reference to the previous node, or scan through the list from the beginning.

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Almost ironic you should just ask this. I'm trying to brush up on my singly linked lists too. I just wrote this function in C++ that seems to work:

void pop_back() {
    if(head == NULL) {

    if(head->next == NULL) {
        delete head;
        head = NULL;

    Node *iter = head;
    while(iter->next->next != NULL) {
        iter = iter->next;
    delete iter->next;
    iter->next = NULL;

For popping the last element, but you can modify it slightly to work in the middle, I'm sure. Idea is pretty much the same in C#.

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Hi. I wrote a pop() earlier today. pastebin.com/m7bd8ca12 It seems to work and is much shorter :) it does need a null validate though –  CasperT Sep 16 '09 at 18:32
Well, that pops the first element. Mine pops the last... not quite as easy. –  Mark Sep 16 '09 at 19:46
Oh, okay, I am treating my list as a stack :) I did not notice that –  CasperT Sep 16 '09 at 19:48
struct node_t {
    int data;
    struct node_t *next;

void delete_node( struct node_t *random) {
    struct node_t *temp;

    /* Save the ptr to the next node */
    temp = random->next;

    /* Copy stuff from the next node to this node */
    random->data = random->next->data;
    random->next = random->next->next;

    /* Delete the next node */
    free (temp);


This should work on most Operating Systems in my opinion.

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    static void Main(string[] args)
        LinkedList<string> ll = new LinkedList<string>();


        ll.Remove(ll.Find("uno")); // Remove

        foreach (string item in sl)

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In THEORY, you could do this to remove any random node from a single link list:

void RemoveNode(Node toRemove)
    toRemove.PointerToSomeValue = toRemove.NextNode.PointerToSomeValue ;
    toRemove.NextNode = toRemove.NextNode.NextNode ;


But, you need to be carefull about concurency issues. (ie. somebody else has a link to your node assuming it still caries the old value (an ABA problem) ), and you need to have a "marker" (empty) node at the end of the list, which you must never attempt to delete.(because of the toRemove.next.next)

Edit: obviously PointerToSomeValue is whatever data you want to keep in your list. And you're not actually deleting the node, you're basically removing the next node in the list, oh,well.. you get the ideea

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