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This may take a little explaining, so please bare with me. I have a class "Class" which has a member std::list, I want to search that list/tree for an item, specifically an item with a specific name. A basic representation of my class is as follows.

#include <list>
#include <string>
class Class {
    std::string _name;
    std::list<Class*> _members;
    Class(const std::string& name) : _name(name) {}
    void addMember(Class* member) { _members.push_back(member); }
    const std::string& name() const { return _name; }
    const std::list members() const { return _members; }
    Class* findItem(const std::string& name) const { ... }

I could just do something like this in Class::findItem:

Class* Class::findItem(const std::string& n) const {
    std::list<Class>::const_iteratior i;
    for(i=_members.begin(); i!=_members.end(); ++i)
        if((*i)->name() == n) return *i;
    for(i=_members.begin(); i!=_members.end(); ++i) {
      Class* cls = (*i)->findItem(n);
      if(cls) return cls;
    return 0;

But, what I want to happen is for findItem() to return the "closest" item to the one searched from. For instance, if this is my tree, with each letter representing one level in the list hierarchy, and each number representing the items "value". I want findItem(3) to return B(3), rather than C(3).

        B(2)                           B(3)
         |                                |
---------------------                   -----
C(3)             C(4)                    C(4)
                 |                         |
            ----------------           ----------
            D(5)  D(6)  D(7)           D(5)  D(6)

If I'm not explining myself clearly, please let me know and I'll try harder.

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Is this is a homework assignment? –  lothar Apr 16 '09 at 21:16
nope, personal project. The class is actually an "object" class which has a "parent" and "children", just like the Qt QObject class. I'm using it an a small project for which Qt would be overkill. –  Terence Simpson Apr 16 '09 at 21:34

4 Answers 4

up vote 4 down vote accepted

Use a breadth-first search. As you access a node that isn't equal to the query value, you push that node onto the back of the queue. Process nodes from the front of the queue first. The first match you find will be the one closest to the root.

Class* Class::findItem(const std::string& n) const {
    std::list<Class>::const_iteratior i;
    std::queue<Class*> q;
    while (!q.empty()) {
        Class *c = q.front(); q.pop();
        if (c->name() == n) return c;
        for(i=c->_members.begin(); i!=c->_members.end(); ++i)
    return NULL;
share|improve this answer
Thanks, just want I'm looking for. And that code makes it simple to understand. –  Terence Simpson Apr 16 '09 at 21:43
Just to note, std::queue had .front() not .top() –  Terence Simpson Apr 16 '09 at 22:04
replaced top() with front() and added std:: to queue. –  aib Apr 17 '09 at 1:05

If you do it breadth-first-search style, i.e. first look at all the Bs, then all the Cs, etc., your match node will automatically be the closest.

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It seems as if you are interested in performing a BFS (Breadth Search First). The simplest way of implementing it is not by recursion but rather with a FIFO queue where you add the neighbor elements to the one you are testing at the end, and extract the first element from the queue to perform the next check.

The order of insertions would be [ A(1), B(2), B(3), C(3), ... ] and you will find B(3) before testing C(3).

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Sounds like you are asking for a Breadth-first search.

I think your question may be related to a homework assignment, so I won't divulge more details here.

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Heh, it's not a homework assignment, I'm a little too old for school. –  Terence Simpson Apr 16 '09 at 21:28
My apology, it just looked like one ;-) –  lothar Apr 16 '09 at 23:26

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