# Finding and deleting an element from a vector of pointers?

``````vector<unsigned int> x;
vector<unsigned int>::iterator itr;
unsigned int varF;
...
....

// find and delete an element from a vector.
itr = std::find(x.begin(), x.end(), varF);  // <algorithm>
if (itr != x.end())
x.erase(itr);
//or
x.erase(std::remove(x.begin(), x.end(), varF), x.end());
``````

I want to convert this vector to a vector of pointers

``````vector<unsigned int*> x;
``````

How I can convert the above functionality for a vector of pointers?

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Why do you think you need pointers? –  Cat Plus Plus Oct 9 '11 at 22:07
It should look absolutely the same. What exactly goes wrong for you? The only notice is that perhaps you need to free a pointer before/after removing it from the vector. –  dma_k Oct 9 '11 at 22:13

Use `find_if` instead of `find`, or `remove_if` instead of `remove`, to employ a custom predicate:

``````struct FindIntFromPointer
{
FindIntFromPointer(int i) : n(i) { }
bool operator()(int * p) const { return n == *p; }
private:
int n;
};

std::find_if(x.begin(), x.end(), FindIntFromPointer(varF));
x.erase(std::remove_if(x.begin(), x.end(), FindIntFromPointer(varF)), x.end());
``````

If you have C++11, you can use a lambda instead of the explicit predicate:

``````std::find_if(x.begin(), x.end(), [varF](int * p) -> bool { return varF == *p; });
``````

The predicate could be turned into a template if you want to reuse it for other similar situations where you need to dereference-and-compare. If this is the case, a template is more elegant than typing out the lambdas each time.

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You are missing `()` right after `operator`. –  K-ballo Oct 9 '11 at 22:26
@K-ballo: Thanks, fixed! –  Kerrek SB Oct 9 '11 at 22:27
@kerrek SB: Thank you for your help. –  user986789 Oct 9 '11 at 23:11
@user986789: No worries. Feel free to hit that "accept" button if you find the answer useful :-) –  Kerrek SB Oct 9 '11 at 23:12
+1 for providing the lambda alternative. –  Scott Marchant Jul 23 at 16:12