Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

Can somebody explain this to me:


pointers to pointers are really confusing to me. This is the expression I got from the watch in debug mode. I am trying to access to the string zone_id inside the last element of tree (with 10 elements, each element for different number 0-9).

EDIT: this is the whole search function, hope it is enough to understand:

string Tree::search(string str, node** parent, int num) {

    int value;

    if (num < str.length()) {

        value = boost::lexical_cast<int> (str.substr(num, 1));

        if ((*parent)->leaves[value] != NULL  &&  num != str.length() -1) {

            search (str, &((*parent)->leaves[value]), num+1);

        } else if (num == str.length() -1) {

            if ( (*(parent)->leaves)[value]->zone_id.empty() )
                return (string) "No_results.";




and structure:

struct node {

    string zone_id;
    node* leaves [10];

share|improve this question
what's confusing you about it? Do you not understand why its working ? or how it should work? – cjds Dec 28 '12 at 13:53
Your use of double pointers for the parameter looks unnecessary to me. Why not const node*? Also, you only return anything when you dont't find an empty zone_id, which is certain to cause major problems (like segmentation faults) when you use the non-existant return value later. – molbdnilo Dec 28 '12 at 14:37

3 Answers 3

Well let's get rid of some brackets to simplify it a bit:


Now it's much easier to understand. We are dereferencing parent (*parent) which gives us a pointer to some object that has an array member called leaves. So we access the element of that array with index 7, which gives us another pointer, this time pointing to an object that has a member called zone_id. We then access that zone_id member.

This is all assuming there's no operator overloading involved.

Diagrammatically (an arrow is "points to"):

 ________     _________     ___________         ___________
| parent |-->| *parent |-->|  struct:  |   ,-->|  struct:  |
|________|   |_________|   | leaves[0] |   |   | zone_id   |
                           | leaves[1] |   |   | ...       |
                           | leaves[2] |   |
                           | leaves[3] |   |
                           | leaves[4] |   |
                           | leaves[5] |   |
                           | leaves[6] |   |
                           | leaves[7] | --'
                           | leaves[8] |
                           | ...       |
share|improve this answer
Beautiful diagram! Especially helpful, I imagine, for those who don't quite understand pointers intuitively yet. – Brandon Dec 28 '12 at 14:06
Yes, that is true. I have implemented search function for tree, and finally at the end of search I have to access to the zone_id but compiler keeps getting me the error: Run failed. My expression is: if ( !(*(parent)->leaves)[value]->zone_id.empty() ) – user1657039 Dec 28 '12 at 14:08
The compiler gives you that error? Or is this when you execute your program? Does it not say anything like "segementation fault" or another error? – Joseph Mansfield Dec 28 '12 at 14:10
yes, it says segmentation fault when I enter debug mode – user1657039 Dec 28 '12 at 14:12
Hey, @sftrabbit just added search function to original question, can you take a look? – user1657039 Dec 28 '12 at 14:17

Removing the parenthesis makes it actually easier to read, in my mind: (*parent)->leaves[7]->zone_id

So, we have a pointer to a pointer of leaves. (*parent) makes a dereference to that pointer (so fetches what it the pointer points at). So now we have a pointer to leaves, which is an array of 10, so we use element 7, and the pointer here is used to fetch the zone_id.

It does get a bit complicated, but this is far from the most complicated structure I have seen. If it helps you, you could break it down:

Parent *this_parent = *parent;

Leave *leaf = this_parent->leaves[7];

... use leaf->zone_id;
share|improve this answer
  • dereference parent
  • access the leaves member
  • index the 7th element
  • access the zone_id member.
share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.