# how to use find algorithm for a vector

If the vector's element is a pair type, like `vector<pair<int, double>>`. I want to the find algorithm focus on the first element of my vector. How can I do this?

For example, the following is my data:

``````<1, 2>

<3, 5>

<3, 4>
...
``````

I want the find 1 in the first column.

Thanks,

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What language/platform? –  Ryan May 6 '11 at 23:06
you need to clear up your question. Do you want 1. the lowest value in the first column (i.e. the first member of the pair), 2. an arbitary value to look for as the value of the first member of the pair. The solutions are wildly different as you can see below. Also, if the vector is already in sorted order, what's wrong with the begin iterator? –  Nim May 6 '11 at 23:56

Going out of my way to make the answer generic:

``````template <typename K>
struct match_first
{
const K _k; match_first(const K& k) : _k(k) {}
template <typename V>
bool operator()(const std::pair<K, V>& el) const
{
return _k == el.first;
}
};
``````

use it like, e.g.

``````it = std::find_if(vec.begin(), vec.begin(), match_first<int>(1));

if (it!=vec.end())
{
// found
}
``````
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And if the first (lowest/smallest) key is 4... or 28... or -212... or totally unknown? (I'm making an assumption that the lowest key is the first.) –  Sani Huttunen May 6 '11 at 23:28
@Sani: The question doesn't mention lowest or minimum or whatnot. My code searches for a specific value, and I took `1` as the value from the question sample. But you can use `match_first<int>(4)`, `match_first<int>(28)`, `match_first<int>(-212)` or even `match_first<int>(totally_unknown)` just fine –  sehe May 6 '11 at 23:31
True for all but match_first<int>(totally_unknown). You cannot find something you don't know to look for. –  Sani Huttunen May 6 '11 at 23:34
Ok, I guess you're not joking. May you happily find all the lowest values you can find in peace. –  sehe May 6 '11 at 23:44
Actually, if you want to go out of your way to be generic… `template<class K> struct match_first_type { K k; match_first_type(K k) : k(k) {} template<class T> bool operator()(T const &x) { return x.first == k; } }; template<class K> match_first_type<K> match_first(K k) { return k; }` Use as match_first(1) without having to specify int as the template argument. –  Fred Nurk May 6 '11 at 23:51

If you're using newer C++ compiler you could write

``````int value_to_find = 1;
auto it = find_if( v.begin(), v.end(), [=]( const pair<int,double> &p ) { return p.first == value_to_find; } );
if ( it != v.end() ) {
// found!
}
``````
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And if the "value" of the first (lowest/smallest) key is unknown? You're assuming that the first key is always 1. It could be 4, 8, -212 or whatever... –  Sani Huttunen May 6 '11 at 23:30
@Sani Huttunen, nothing in C++ lambda syntax prevents using a variable. I only pointed out this example as a very concise way which doesn't require implementing an entire class (or rather lets the compiler do it). –  MerickOWA May 6 '11 at 23:33
True in most parts. But if you do not know the value of the key you are looking for this approach won't work. –  Sani Huttunen May 6 '11 at 23:35
@Sani Huttunen, I'm assuming that by "first element" he means pair<int,double>::first not v[0] –  MerickOWA May 6 '11 at 23:36
Actually, in 0x I'd write: `for (auto &x : v) { if (x.first == 1) { do_stuff_with(x); /*break if you only want to find the first instead of all*/ } }` –  Fred Nurk May 6 '11 at 23:47

why not use a `multimap<int, double>` instead of a `vector`? its `.find(1)` would yield an iterator that would give the pair `pair<int, double>(1,2)` as in your example; http://www.sgi.com/tech/stl/Multimap.html

-

Regardless of language/platform this is what you need to do (in pseudo code):

``````min = MAXIMUM_INTEGER_VALUE
minValue = 0
for each (element in vector)
if (element.key < min)
min = element.key
minValue = element.value
end if
loop for
``````

Now you should have the smallest key and it's value in min and minValue respectively.
However you COULD in the extreme case of when all keys are equal to MAXIMUM_INTEGER_VALUE end up with the wrong result. The solution would be to assign the first elements value to minValue instead of 0 during initialization.

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Where does the question mention finding a minimum value? Also, encouraging to implement a new sort/find algorithm is ... bad advise –  sehe May 6 '11 at 23:32
Nowhere... this is an assumption I made... Since the keys are 1, 3, 3 I assumed the example keys are not in anyway important to how the mentioned algorithm should work. The algorithm should find the smallest key value (assumption) according to the example. –  Sani Huttunen May 6 '11 at 23:37
Are you sure he wants to find a specific key? And why the downvote to a generic, working algorithm? –  Sani Huttunen May 6 '11 at 23:51
Acutally having looked at the OP's question, there is a case for this solution, intent is not clear. The OP does not specifically say he is looking for an arbitary value, just the first (whatever that means to the OP). So +1 for now... –  Nim May 6 '11 at 23:57