Check if two vectors are equal

How can I check whether the first "n" elements of two vectors are equal or not?

I tried the following:

#include <iostream>
#include <vector>
#include <iterator>
using namespace std;

typedef vector<double> v_t;

int main(){
v_t v1,v2;
int n = 9;

for (int i = 1; i<10; i++){
v1.push_back(i);
v2.push_back(i);
}
v1.push_back(11);
v2.push_back(12);

if (v1.begin()+n == v2.begin()+n)
cout << "success" << endl;
else
cout << "failure" << endl;
}

Why does it print "failure" and not "success"?

Use the std::equal function from the <algorithm> header:

if (std::equal(v1.begin(), v1.begin() + n, v2.begin())
std::cout << "success" << std::endl;

Note that both vectors must have at least n elements in them. If either one is too short, behavior of your program will be undefined.

If you want to check whether the entire vector is equal to the other, just compare them like you'd compare anything else:

if (v1 == v2)

Your (failed) code was comparing an iterator of one vector with an iterator of the other. Iterators of equal vectors are not equal. Each iterator is tied to the sequence it's iterating, so an iterator from one vector will never be equal to the iterator of another.

• I didn't know you could compare vectors using ==, pretty cool I guess! +1 Mar 8 '11 at 4:26

The easiest (in terms of fewest non-everyday functions to look up) way to compare the two is to loop again:

bool are_equal = true;
for (int i = 0; i < first_how_many; i++)
if (v1[i] != v2[i])
{
are_equal = false;
break;
}

It'll do much the same thing, but if you prefer you can use the <algorithm> header's std::equal function: http://www.cplusplus.com/reference/algorithm/equal/

• And yet v1==v2 is easier. Sep 7 '19 at 16:33
• @stephanmg: that's a big topic - hard to answer well in a restricted-length comment or two, so best asked as a separate question (if you can't find existing Q&As covering what you want). Still - summarily: if two float/doubles are calculated in different ways from the same numbers, (e.g. a / b * c vs a * c / b, or a + b + c vs a + c + b) they may not be exactly equal; but once you have a float/double value, it can be copied around normally without mysteriously undergoing any alteration, and will compare equal to its earlier value. The details are much more nuanced though. Cheers Feb 21 '20 at 5:53
• @stephanmg: fabs(...) returns the absolute value of the argument (i.e. any negative number is made positive) - it's not something you'd typically want when comparing numbers, but there are plenty of problems where it might make sense. It doesn't help with subtle rounding errors, which is what i thought you were asking about - they're the big problem with floating point comparisons. Feb 23 '20 at 1:06
• @TonyDelroy: Oh yeah I misunderstood the question. Sorry. I agree to the problems with floating point comparisons. Feb 23 '20 at 14:07

First, there is no need to keep track the size of a vector, i.e. n is useless; begin(v) + n == end(v) or just n == size(v) (the size information is in the vector class).

Now, I just want to point out a C++20 feature, the ranges library. It simplifies a lot of standard algorithms' function signatures, for instance the current "best" way to solve your problem would be:

std::ranges::equals(v1, v2); // returns a bool

Instead of the previous std::equals(begin(v1), end(v1), begin(v2)). Also, if your ranges are more complex (i.e. vector of a class), you should consider the projection feature (if you want to apply a function before the comparaison, or compare a given member variable etc.).