I have written a code for solving the following problem: We have a `map<double,double>`

with (relatively) huge number of items. We want to merge the adjacent items in order to reduce the size of the map keeping a certain "loss factor" as low as possible.

To do so, I first populate a list containing adjacent iterators and the associated loss factor (let's say each list element has the following type:

```
struct myPair {
map<double,double>::iterator curr, next;
double loss;
myPair(map<double,double>::iterator c, map<double,double>::iterator n,
double l): curr(c), next(n), loss(l) {}
};
```

). This is done as follows:

```
for (map<double,double>::iterator it1 = myMap.begin(); it1 != --(myMap.end());
it1++) {
map<double,double>::iterator it2 = it1; it2++;
double l = computeLoss(it1,it2);
List.push(myPair(it1,it2,l));
}
```

Then, I find the list element corresponding to the lowest loss factor, `erase`

the corresponding elements from the `map`

and `insert`

a new element (result of merging `curr`

and `next`

) in the `map`

. Since this also changes the list elements corresponding to the element after `next`

or before `curr`

I update the corresponding entries and also the associated loss factor.

(I don't get into the details of how to implement the above efficiently but basically I am combining a double linked list and a heap).

While the `erase`

operations should not invalidate the remaining iterators for some specific input instances of the program I get the `double free or corruption`

error exactly at the point where I attempt to erase the elements from the `map`

.

I tried to track this and it seems this happens when both `first`

and `second`

entries of the two map elements are very close (more precisely when the `first`

s of `curr`

and `next`

are very close).

A strange thing is that I put an `assert`

while populating the list to ensure that in all entries `curr`

and `next`

are different and the same `assert`

in the loop of removing elements. The second one fails!

I would appreciate if anyone can help me.

P.S. I am sorry for not being very precise but I wanted to keep the details as low as possible.

UPDATE: This is (a very simplified version of) how I erase the elements from the map:

```
while (myMap.size() > MAX_SIZE) {
t = list.getMin();
/* compute the merged version ... let's call the result as (a,b) */
myMap.erase(t.curr);
myMap.erase(t.next);
myMap.insert(pair<double,double>(a,b));
/* update the adjacent entries */
}
```

`a >= t.curr->first`

and`a <= t.next->first`

, hence the new element would be replaced at the same place than the two erased elements. – PBM Sep 9 '13 at 13:09`double`

as a map key may produce rather surprising results. If you obtain the key values by a computation, you may get distnict keys where you'd expect indetity, simply due to precision errors. – Angew Sep 9 '13 at 13:46