40

I need to find an element position in an std::vector to use it for referencing an element in another vector:

int find( const vector<type>& where, int searchParameter )
{
    for( int i = 0; i < where.size(); i++ ) {
       if( conditionMet( where[i], searchParameter ) ) {
           return i;
       }
    }
    return -1;
}
// caller:
const int position = find( firstVector, parameter );
if( position != -1 ) {
    doAction( secondVector[position] );
}

however vector::size() returns size_t which corresponds to an unsigned integral type that can't directly store -1. How do I signal that the element is not found in a vector when using size_t instead of int as an index?

2
  • 9
    I think the title of the question should be changed. The problem is not how to find the element position, it is about referencing elements in two vectors.
    – Juan Besa
    Jan 24, 2013 at 21:12
  • Well if problem is about -1, take a look here, or you can use return (size_t)-1;
    – ST3
    Feb 6, 2014 at 13:04

10 Answers 10

68

Take a look at the answers provided for this question: Invalid value for size_t?. Also you can use std::find_if with std::distance to get the index.

std::vector<type>::iterator iter = std::find_if(vec.begin(), vec.end(), comparisonFunc);
size_t index = std::distance(vec.begin(), iter);
if(index == vec.size()) 
{
    //invalid
}
2
  • 7
    Or you could check the iterator against where.end(), and calculate/use the distance only if not equal. Doesn't affect performance, just keeps the success check immediately after the call to find. Sep 15, 2009 at 10:40
  • 1
    Beware... this answer mixes signed and unsigned types. std::distance returns ptrdiff_t which is signed, and this quantity is compared to vec.size() returns size_t which is unsigned. It is probably okay in this case, but I would try to avoid it in general. The accepted answer avoids this issue. Jun 23, 2019 at 13:46
19

First of all, do you really need to store indices like this? Have you looked into std::map, enabling you to store key => value pairs?

Secondly, if you used iterators instead, you would be able to return std::vector.end() to indicate an invalid result. To convert an iterator to an index you simply use

size_t i = it - myvector.begin();
1
  • 1
    Getting the difference between iterators gives you a signed type, so you'll get an implicit conversion warning if you then assign it to an unsigned type.
    – RyanCu
    Jul 9, 2021 at 6:42
16

You could use std::numeric_limits<size_t>::max() for elements that was not found. It is a valid value, but it is impossible to create container with such max index. If std::vector has size equal to std::numeric_limits<size_t>::max(), then maximum allowed index will be (std::numeric_limits<size_t>::max()-1), since elements counted from 0.

6

std::vector has random-access iterators. You can do pointer arithmetic with them. In particular, this my_vec.begin() + my_vec.size() == my_vec.end() always holds. So you could do

const vector<type>::const_iterator pos = std::find_if( firstVector.begin()
                                                     , firstVector.end()
                                                     , some_predicate(parameter) );
if( position != firstVector.end() ) {
    const vector<type>::size_type idx = pos-firstVector.begin();
    doAction( secondVector[idx] );
}

As an alternative, there's always std::numeric_limits<vector<type>::size_type>::max() to be used as an invalid value.

3

In this case, it is safe to cast away the unsigned portion unless your vector can get REALLY big.

I would pull out the where.size() to a local variable since it won't change during the call. Something like this:

int find( const vector<type>& where, int searchParameter ){
    int size = static_cast<int>(where.size());
    for( int i = 0; i < size; i++ ) {
       if( conditionMet( where[i], searchParameter ) ) {
           return i;
       }
    }
    return -1;
}
3

If a vector has N elements, there are N+1 possible answers for find. std::find and std::find_if return an iterator to the found element OR end() if no element is found. To change the code as little as possible, your find function should return the equivalent position:

size_t find( const vector<type>& where, int searchParameter )
{
   for( size_t i = 0; i < where.size(); i++ ) {
       if( conditionMet( where[i], searchParameter ) ) {
           return i;
       }
    }
    return where.size();
}
// caller:
const int position = find( firstVector, parameter );
if( position != secondVector.size() ) {
    doAction( secondVector[position] );
}

I would still use std::find_if, though.

1
  • +1 for returning where.size(). It makes perfect sense to return it. It is consistent with the philosophy of returning where.end() if the function were to return iterator instead. Feb 2, 2013 at 9:00
2

Something like this, I think. find_if_counted.hpp:

#ifndef FIND_IF_COUNTED_HPP
#define FIND_IF_COUNTED_HPP

#include <algorithm>

namespace find_if_counted_impl
{
    template <typename Func>
    struct func_counter
    {
        explicit func_counter(Func& func, unsigned &count) :
        _func(func),
        _count(count)
        {
        }

        template <typename T>
        bool operator()(const T& t)
        {
            ++_count;

            return _func(t);
        }

    private:
        Func& _func;
        unsigned& _count;
    };
}

// generic find_if_counted,
// returns the index of the found element, otherwise returns find_if_not_found
const size_t find_if_not_found = static_cast<size_t>(-1);

template <typename InputIterator, typename Func>
size_t find_if_counted(InputIterator start, InputIterator finish, Func func)
{
    unsigned count = 0;
    find_if_counted_impl::func_counter<Func> f(func, count);

    InputIterator result = find_if(start, finish, f);

    if (result == finish)
    {
        return find_if_not_found;
    }
    else
    {
        return count - 1;
    }
}

#endif

Example:

#include "find_if_counted.hpp"
#include <cstdlib>
#include <iostream>
#include <vector>

typedef std::vector<int> container;

int rand_number(void)
{
    return rand()  % 20;
}

bool is_even(int i)
{
    return i % 2 == 0;
}

int main(void)
{
    container vec1(10);
    container vec2(10);

    std::generate(vec1.begin(), vec1.end(), rand_number);
    std::generate(vec2.begin(), vec2.end(), rand_number);

    unsigned index = find_if_counted(vec1.begin(), vec1.end(), is_even);

    if (index == find_if_not_found)
    {
        std::cout << "vec1 has no even numbers." << std::endl;
    }
    else
    {
        std::cout << "vec1 had an even number at index: " << index <<
            " vec2's corresponding number is: " << vec2[index] << std::endl;
    }
}

Though I feel like I'm doing something silly... :X Any corrections are welcome, of course.

1
  • The somewhat silly thing is the find_if_counted_impl thing. :) If you don't have a random access iterator, the index is pretty much useless to begin with. If you do have a random access iterator, you can just subtract found_it - begin(). It also seems to me that returning size() as the "not found" value might be more useful, e.g you can be sure that begin() + size() yields an iterator that can be useful for some purposes, whereas begin() + unsigned(-1) never does any good and must always be checked specifically..
    – UncleBens
    Sep 15, 2009 at 14:16
1

You probably should not use your own function here. Use find() from STL.

Example:

list L;
L.push_back(3);
L.push_back(1);
L.push_back(7);

list::iterator result = find(L.begin(), L.end(), 7); assert(result == L.end() || *result == 7);

2
  • 1
    He needs to transfer the iterator to another vector.
    – GManNickG
    Sep 15, 2009 at 6:00
  • Yeap, that's exactly my problem. Iterator would be okay, but I can't directly use it with another vector.
    – sharptooth
    Sep 15, 2009 at 6:27
1

Take a vector of integer and a key (that we find in vector )....Now we are traversing the vector until found the key value or last index(otherwise).....If we found key then print the position , otherwise print "-1".

     #include <bits/stdc++.h>  
     using namespace std;  

     int main()  
      {  
          vector<int>str;  
          int flag,temp key, ,len,num;

           flag=0;
           cin>>len;

           for(int i=1; i<=len; i++)  
           {
               cin>>key;
               v.push_back(key);
           }

           cin>>num;

           for(int i=1; i<=len; i++)  
           {  
             if(str[i]==num)  
             {  
                flag++;  
                temp=i-1;
                break;
             }  
           }

         if(flag!=0)    cout<<temp<<endl;
         else           cout<<"-1"<<endl;   
         str.clear();   

         return 0;  
      }
3
  • 1
    Take array of integers and a key (that we find in array )....Now we are traversing the array index until found the key value or last index.....If we found key then print the index , otherwise print "-1".
    – rashedcs
    Oct 31, 2016 at 17:53
  • @rashedcs please edit your answer to include what you've written as a comment! Oct 31, 2016 at 19:20
  • @ Marcus Müller please check my answer.
    – rashedcs
    Nov 1, 2016 at 1:56
0

Get rid of the notion of vector entirely

template< typename IT, typename VT>
int index_of(IT begin, IT end, const VT& val)
{
    int index = 0;
    for (; begin != end; ++begin)
    {
        if (*begin == val) return index;
    }
    return -1;
}

This will allow you more flexibility and let you use constructs like

int squid[] = {5,2,7,4,1,6,3,0};
int sponge[] = {4,2,4,2,4,6,2,6};
int squidlen = sizeof(squid)/sizeof(squid[0]);
int position = index_of(&squid[0], &squid[squidlen], 3);
if (position >= 0) { std::cout << sponge[position] << std::endl; }

You could also search any other container sequentially as well.

1
  • Your function will always return 0 (if found) and -1 (when not found). Oct 17, 2021 at 2:51

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