This SO answers says that STL Map with a Vector for the Key the vector can be used as a key. So when we use a vector as a key. How does that actually work since the key needs to be unique so when we insert another vector with the same elements will the map check for duplicate element by element or the name of the vector does specify something? Like the name of the array represents the base address. So an array can be used as a key since the base address can be used as a key in this case but what is the key in case of a vector. How does it work internally.

Because when I print the name of the vector, I do get an error

vector<int> v;
cout<<v; //error
  • What do you mean by printing the vector name? – Bart Feb 17 at 10:34
  • has operators == and < how does that help? my question was to check duplicate elements will map compare the vector key element by element – Pulkit Bhatnagar Feb 17 at 10:34
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    @PulkitBhatnagar But... No one will ever force you to use std::vector as key for std::map. You pay for what you use. It can be done, and maybe there are some use-cases for that, but most certainly you can change your data structure of choice. STL containers are designed to be maximally versatile and usable in any way user could ever want to use them. – Yksisarvinen Feb 17 at 10:41
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    @PulkitBhatnagar See, for example, Why is std::map implemented as a red-black tree?. – Daniel Langr Feb 17 at 10:46
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    @PulkitBhatnagar Stores directly. std::map will copy both key and value into itself. std::unordered_map can store hash of the key. – Yksisarvinen Feb 17 at 10:46

There is an overloaded operator < for the class template std::vector.

template <class T, 
class Allocator>
bool operator< (const vector<T, Allocator>& x, const vector<T, Allocator>& y);

that is based on the standard algorithm std::lexicographical_compare.

Here is a demonstrative program.

#include <iostream>
#include <iomanip>
#include <vector>
#include <iterator>
#include <algorithm>

int main() 
    std::vector<int> v1 = { 1, 2 };
    std::vector<int> v2 = { 1, 2, 3 };
    std::vector<int> v3 = { 2 };

    std::cout << std::boolalpha << ( v1 < v2 ) << '\n';
    std::cout << std::lexicographical_compare( std::begin( v1 ), std::end( v1 ),
                                               std::begin( v2 ), std::end( v2 ) )
             << '\n';                                              

    std::cout << std::boolalpha << ( v1 < v3 ) << '\n';
    std::cout << std::lexicographical_compare( std::begin( v1 ), std::end( v1 ),
                                               std::begin( v3 ), std::end( v3 ) )
             << '\n';                                              

    std::cout << std::boolalpha << ( v2 < v3 ) << '\n';
    std::cout << std::lexicographical_compare( std::begin( v2 ), std::end( v2 ),
                                               std::begin( v3 ), std::end( v3 ) )
             << '\n';                                              

    return 0;

Its output is


So the class can be used as a key in map.

By default the class template map uses the function object std::less that in turn uses the operator <

template <class Key, class T, class Compare = less<Key>,
class Allocator = allocator<pair<const Key, T>>>
class map 

However there is no overloaded operator << for the class template std::vector.

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    I see your answers recently in almost all C++ question on SO, I don't know whether in my whole life I ll ever be able to achieve what you have but I ll try my best. Thanks for the answer – Pulkit Bhatnagar Feb 17 at 10:54

Name of an object and content of that object are always unrelated things.

operator == for std::vector will first compare length of vectors and then each of it's elements using operator == as well.

operator < compares elements in vector lexicographically, i.e. it returns x[i] < y[i] for the first non-equal element in vectors x and y.

These are the requirements std::map has for a type used as Key. Since std::vector satisfies both, it can be used by as Key. Note that type managed by vector must also has these operators overloaded for this to work (because std::vector relies on those operators to implement it's own operators).

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