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I need a function that takes a vector (assumed to be sorted), and a value, and returns the closest number that's [edit] greater than less than or equal to that number, preferably using an algorithm from the STL. I have come up with a solution using std::lower_bound(), but it seems kludgy and ugly:

struct ClosestCmp {
    bool operator()(const int & x, const int & y) { return x > y; }
};

// vec is assumed to be sorted
int closest(const std::vector<int> & vec, int value)
{
    std::vector<int>::const_reverse_iterator cri =
        std::lower_bound(vec.rbegin(), vec.rend(), value, ClosestCmp());
    if (cri != vec.rend()) {
        return *cri;
    }
    return -1;
}

// ...
vec.push_back(1);
vec.push_back(2);
vec.push_back(4);
vec.push_back(5);
std::cout << closest(vec, 2) << "\n"; // Should ouput "2"
std::cout << closest(vec, 3) << "\n"; // Should ouput "2"
std::cout << closest(vec, 4) << "\n"; // Should ouput "4"

Can anyone suggest a way that's more elegant, maybe using an STL algorithm without needing a comparison function or a reverse iterator? I have looked in the STL, but haven't been able to find a better solution than this.

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3  
2 is not greater than or equal to 3, I guess you wanted 4 to be printed ? –  Matthieu M. Dec 27 '11 at 17:53
    
Correction: I need the closest number that's less than or equal to the value, not greater. My bad. –  josmith42 Dec 27 '11 at 20:54

4 Answers 4

up vote 3 down vote accepted

You can only use std::lower_bound and std::upper_bound with binary predicates that match the order of the container. So, you can't sort by < and then use a different binary predicate (say <= or >). So your "kludge" is actually the correct thing to do. The sorted vector in reverse is the ordering criteria you want to use to find the element less than or equal to the value. (Otherwise, if you were actually searching for the value greater than or equal to, you could just use std::lower_bound.)

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Yes, I guess you're right. The STL is mostly designed to use the < operator only, and nothing else. –  josmith42 Dec 27 '11 at 20:58
    
STL algorithms deal with sorted ranges based on a binary predicate. The default predicate is <. As long as the predicate defines an ordering, the algorithms work. –  MSN Dec 27 '11 at 21:10

For reminder:

  • std::lower_bound: returns the first value that does not compare less
  • std::upper_bound: returns the first value that compares strictly greater

From your description, std::lower_bound already looks like the perfect fit, what is wrong with:

int closest(std::vector<int> const& vec, int value) {
 auto const it = std::lower_bound(vec.begin(), vec.end(), value);
 if (it == vec.end()) { return -1; }

 return *it;
}

See at Ideone:

int main() {
 std::vector<int> vec;
 vec.push_back(2);
 vec.push_back(4);

 std::cout << closest(vec, 2) << "\n";
 std::cout << closest(vec, 3) << "\n";
 std::cout << closest(vec, 4) << "\n";
}

Output:

2
4
4
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+1 I agree with this answer however OP's question is contradictory. –  Park Young-Bae Dec 27 '11 at 18:03
    
You are correct. I meant to say less than, not greater than, the value. Thank you. The output, therefore, needs to be: 2 2 4 –  josmith42 Dec 27 '11 at 20:55

For the largest which is less or equal one can use this function

int closest(std::vector<int> const& vec, int value) {
    auto const it = std::lower_bound(vec.begin(), vec.end(), value);
    if (it == vec.begin()) { return -1; }
    else return *(it - 1);
}
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I considered this solution. However, it fails if the first element of vec equals value. –  josmith42 Dec 31 '11 at 0:56

Something like this would work.... Takes the smallest closest value:

Could prolly be made as a template or something instead for those who understand template programming. http://ideone.com/ff46ax

#include <iostream>
#include <vector>
#include <map>
#include <stdlib.h>

int main()
{
    int comparevalue = 3;
    typedef std::vector<int> intvec;
    intvec myvec;

    myvec.push_back(1);
    myvec.push_back(2);
    myvec.push_back(4);
    myvec.push_back(5);
    myvec.push_back(6);
    myvec.push_back(7);

    typedef std::map<int, int> intmap;
    intmap mymap;

    for (intvec::const_iterator itr = myvec.begin(); itr != myvec.end(); ++itr)
        mymap.insert(std::make_pair(abs(*itr-comparevalue), *itr));

    std::cout << "difference:" << mymap.begin()->first << "\n";
    std::cout << "value:" << mymap.begin()->second;
    return 0;
}
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