**Step debug into **`g++`

6.4 stdlibc++ source

Did you know that on Ubuntu's 16.04 default `g++-6`

package or a GCC 6.4 build from source you can step into the C++ library without any further setup?

By doing that we easily conclude that a Red-black tree used in this implementation.

This makes sense, since `std::set`

can be traversed in order, which would not be efficient in if a hash map were used.

main.cpp

```
#include <cassert>
#include <set>
int main() {
std::set<int> s;
s.insert(1);
s.insert(2);
assert(s.find(1) != s.end());
assert(s.find(2) != s.end());
assert(s.find(3) == s3.end());
}
```

Compile and debug:

```
g++ -g -std=c++11 -O0 -o main.out main.cpp
gdb -ex 'start' -q --args main.out
```

Now, if you step into `s.insert(1)`

you immediately reach `/usr/include/c++/6/bits/stl_set.h`

:

```
487 #if __cplusplus >= 201103L
488 std::pair<iterator, bool>
489 insert(value_type&& __x)
490 {
491 std::pair<typename _Rep_type::iterator, bool> __p =
492 _M_t._M_insert_unique(std::move(__x));
493 return std::pair<iterator, bool>(__p.first, __p.second);
494 }
495 #endif
```

which clearly just forwards to `_M_t._M_insert_unique`

.

So we open the source file in vim and find the definition of `_M_t`

:

```
typedef _Rb_tree<key_type, value_type, _Identity<value_type>,
key_compare, _Key_alloc_type> _Rep_type;
_Rep_type _M_t; // Red-black tree representing set.
```

So `_M_t`

is of type `_Rep_type`

and `_Rep_type`

is a `_Rb_tree`

.

OK, now that is enough evidence for me. If you don't believe that `_Rb_tree`

is a Black-red tree, step a bit further and read the algorithm.

`unordered_set`

uses hash table

Same procedure, but replace `set`

with `unordered_set`

on the code.

This makes sense, since `std::unordered_set`

cannot be traversed in order, so the standard library chose hash map instead of Red-black tree, since hash map has a better amortized insert time complexity.

Stepping into `insert`

leads to `/usr/include/c++/6/bits/unordered_set.h`

:

```
415 std::pair<iterator, bool>
416 insert(value_type&& __x)
417 { return _M_h.insert(std::move(__x)); }
```

So we open the source file in `vim`

and search for `_M_h`

:

```
typedef __uset_hashtable<_Value, _Hash, _Pred, _Alloc> _Hashtable;
_Hashtable _M_h;
```

So hash table it is.

`std::map`

and `std::unordered_map`

Analogous for `std::set`

vs `std:unordered_set`

: What data structure is inside std::map in C++?

**Performance characteristics**

You could also infer the data structure used by timing them:

Graph generation procedure and Heap vs BST analysis and at: Heap vs Binary Search Tree (BST)

We clearly see for: