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I've been staring at this code for far too long, any help is greatly appreciated.

I have a vector of lists of pointers to a custom object (vector and list from STL) that I initialize and when I run this code it prints correctly and accesses all the data correctly

vector<list<centerPoint *> > centerPoint::cpoints;

for(int i=0;i<NUM_GROUPS; i++)
    for(list<centerPoint *>::iterator it=centerPoint::cpoints[i].begin();   it!=centerPoint::cpoints[i].end(); ++it)

(first line is just to show the declaration, then I have some code inserting elements then this, which works)

Then I try to do some processing on cpoints, but the element in i=1 and 14th position in the linked list (external counter) causes trouble. nowhere else is there a problem with the initialized object such that when I call print() to that object I get this error in gdb:

(gdb) print (*it1)->assoc_pts[2]->info
$6 = {static npos = 4294967295,
_M_dataplus = {&lt;allocator&lt;char>> = {&lt;new_allocator&lt;char>> = {&lt;No data    fields>}, &lt;No data fields>}, _M_p = 0x374ec52d &lt;Address 0x374ec52d out of bounds>}}

whereas for other datafields I get:

(gdb) print (*it1)->assoc_pts[3]->info
$5 = {static npos = 4294967295,

_M_dataplus = {<allocator<char>> = {<new_allocator<char>> = {<No data fields>}, <No data fields>}, _M_p = 0x2003cc04 "2\t1\t41700\t1.1287\t3.3266\t33.823\t1.7043"}}

(notice how that is the next element, no element other than this particular one has trouble and the strangest is that I was able to access it earlier) At no point between the two points in the code mentioned is centerPoint::cpoints overwritten.

Any help would be greatly appreciated

here is the full code:

#include <iostream>
#include <fstream>
#include <string>
#include <vector>
#include <cmath>
#include <list>
#define NUM_GROUPS 16
#define MAX_LARGEST 8
#define OFFSET 3 //location variables index
#define INFTY 999999999
//macro to handle indexing
#define ind(cp) (int)((cp)->attrs[0]*MAX_LARGEST + (cp)->attrs[1])

using namespace std;

class centerPoint
     * This contains only the relevant information
    vector<double> attrs;
    int id_num;
    string info; 
    vector<centerPoint *> assoc_pts; //References to centerPoints associated to this cluster
    centerPoint(int id, vector<double> ats, string dp);
    static vector<double> weights;      //Weighting the attributes
    static vector<list<centerPoint *> > cpoints;       //ordered according to their group, contains list of cpoints in that group
    void print();
vector<list<centerPoint *> > centerPoint::cpoints;
vector<double> centerPoint::weights;

inline centerPoint::centerPoint(int id, vector<double> ats, string dp) :
    id_num(id), attrs(ats), info(dp) {}

void centerPoint::print()
    for(int i=0; i<attrs.size();i++)
        cout<<i<<" "<<attrs[i]<<endl;

    int siz = assoc_pts.size();
    if(siz == 0)
        cout<<"No associated nodes"<<endl;
        cout<<"Assoc nodes are: "<<endl;
        for(int i=0; i <siz; i++)


struct kleinste{

    centerPoint *src;
    centerPoint *dest;
    double import;    

/* Parses each line from the spread sheet according to spaces
 * and saves that information to a dataPoint
 * Takes in a vector of indexes for columns that the program 
 * will consider to cluster and make a centerPoint.
void explode_double(string s, char delim, int el_num)
    int i =0,k=0;
    vector<double> dat;
        if( i == s.length() || s[i] == delim)
           (dat.push_back((double) atof(s.substr(k, i-k).c_str())), k=i+1);
    centerPoint *cp = new centerPoint(el_num, dat, s);

double inline dist(centerPoint *c1, centerPoint *c2)
    double dis=0;
    int siz = c1->attrs.size();
    for(int i=OFFSET; i<siz;i++)
        dis+=(c1->attrs[i] - c2->attrs[i])*(c1->attrs[i] - c2->attrs[i])*centerPoint::weights[i-2];

    return sqrt(dis);

int main() 
    ifstream infile;
    ofstream outfile;
    int num_clusts=20, tot_el=0, num_it=0;

    string title;


    for(int i=0; i<NUM_GROUPS;i++)
        list<centerPoint *> q;

    string line;
        explode_double(line, '\t',tot_el++);

    int amt_pars = (*centerPoint::cpoints[1].begin())->attrs.size();     //doesn't matter, all have the same amount of parameters
    for(int i =0; i<amt_pars; i++)      //nbd because it's once...
        centerPoint::weights[i] = ((double) 1)/(amt_pars-3);

    //clustering begins
    kleinste rec;
    double temp_dist;
    //since at each pass 1 element is removed, just let it run TOT_EL-numel times
    list<centerPoint *> *group; 
    list<centerPoint *>::iterator temp_it;
    short updated;
    while(num_it++ < tot_el - num_clusts)
        rec.import = INFTY;     //reinit per iter. no need to clear references; they'll be overwritten
        for(int i=0 ;i<NUM_GROUPS; i++)     //for each case
            group = &centerPoint::cpoints[i];
            if(group->size() < 2)       

            for(list<centerPoint *>::iterator it1= group->begin(); it1 != group->end(); ++it1)
                temp_it = it1;  //the pointers need some help
                for(list<centerPoint *>::iterator it2 = ++temp_it; it2 != group->end(); ++it2)
                    temp_dist = dist(*it1, *it2);

                    if((*it1)->attrs[2] > (*it2)->attrs[2])     //if k is the source
                        temp_dist*=(*it2)->attrs[2], updated = 1;
                    else        //if j is the source
                        temp_dist*=(*it1)->attrs[2], updated = 0;

                    if( temp_dist< rec.import)
                        rec.import = temp_dist;
                        updated? (rec.src=(*it2),rec.dest = (*it1)) : (rec.src=(*it1),rec.dest = (*it2));
        //minimum was found
        //map it to NN
        //need to move all its associated points to newest parent
        for(int i=rec.src->assoc_pts.size()-1; i>=0; i--)

        group = &centerPoint::cpoints[ind(rec.src)];

        for(list<centerPoint *>::iterator it1= group->begin(); it1 != group->end(); ++it1)
            if((*it1)->info.compare(rec.src->info) == 0){

    int index = 0;
    for(int i=0;i<NUM_GROUPS; i++)
        for(list<centerPoint *>::iterator it=centerPoint::cpoints[i].begin(); it!=centerPoint::cpoints[i].end(); ++it)
            cout<<"num: "<<index++<<endl;

    //all points were mapped to their most important nearest neighbour
    //for all remaining points, find the average of the cluster they represent
    vector<double> avg_dat,zeros;
    string str = "empty_string";
    for(int i=0; i<amt_pars; i++)      //nbd because it's once...
        zeros[i] = 0;
    avg_dat = zeros;
    centerPoint *avg = new centerPoint(-1,avg_dat,str);

    int amt;
    kleinste closest;
    double dist_from_avg;
    string closest_info;
    int count_it=0;
    for(int i=0;i<NUM_GROUPS; i++)
        //find avg
        for(list<centerPoint *>::iterator it1= centerPoint::cpoints[i].begin(); it1 != centerPoint::cpoints[i].end(); ++it1) //for each point left over
            cout<<"Iteration: "<<count_it++<<endl;
            closest.import = INFTY;
            closest_info = "";
            amt = (*it1)->assoc_pts.size();
            cout<<"Num chil: "<<amt<<endl;
            cout<<"Curr node"<<endl;

            for(int m=OFFSET; m<amt_pars; m++)
                avg->attrs[m] += (*it1)->attrs[m];

            for(int k=0; k<amt; k++)    //closest visavis location vars
                for(int m=OFFSET; m<amt_pars; m++)
                    avg->attrs[m] += (*it1)->assoc_pts[k]->attrs[m];

            for(int m=OFFSET; m<amt_pars; m++)   //fewer division ops
                avg->attrs[m] /= (amt + 1);//for parent point

            dist_from_avg = dist(*it1,avg);

            if(dist_from_avg < closest.import )
                closest.import = dist_from_avg;
                closest_info = (*it1)->info;

            for(int k=0; k<amt; k++)    //need to include the original point! (done above)
                dist_from_avg = dist((*it1)->assoc_pts[k],avg);
                if(dist_from_avg < closest.import )
                    closest.import = dist_from_avg;
                    closest_info = (*it1)->assoc_pts[k]->info;
          avg->attrs = zeros;
    return 0; 
share|improve this question
We need to see the complete code, not just a snippet. –  dcp Jun 11 '12 at 15:54
My (wild) guess is that your problem is in another piece of code, this at a first glance seems correct. Maybe you corrupt the heap or you have a dangling pointer inside the list –  Luca Martini Jun 11 '12 at 15:57
At a guess I'd say one of those pointers is invalid; it points to a ghost. But as dcp says, we need to see a (minimal) complete example to give you a more complete answer. –  Beta Jun 11 '12 at 15:59
Add a memory change watch point to the value that isn't as it's supposed to be. My guess is you'll get a hit from a piece of code that you aren't expecting... –  Michael Dorgan Jun 11 '12 at 16:16

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