Behind the default hashing of an `unordered_map`

there is a `std::hash`

struct which provides the `operator()`

to compute the hash of a given value.

A set of default specializations of this templates is available, including `std::hash<float>`

and `std::hash<double>`

.

On my machine (LLVM+clang) these are defined as

```
template <>
struct hash<float> : public __scalar_hash<float>
{
size_t operator()(float __v) const _NOEXCEPT
{
// -0.0 and 0.0 should return same hash
if (__v == 0)
return 0;
return __scalar_hash<float>::operator()(__v);
}
};
```

where `__scalar_hash`

is defined as:

```
template <class _Tp>
struct __scalar_hash<_Tp, 0> : public unary_function<_Tp, size_t>
{
size_t operator()(_Tp __v) const _NOEXCEPT
{
union
{
_Tp __t;
size_t __a;
} __u;
__u.__a = 0;
__u.__t = __v;
return __u.__a;
}
};
```

Where basically the hash is built by setting a value of an union to the source value and then getting just a piece which is large as a `size_t`

.

So you get some padding or you get your value truncated, but that doesn't really matter because as you can see the raw bits of the number are used to compute the hash, this means that it works exactly as the `==`

operator. Two floating numbers, to have the same hash (excluding collision given by truncation), must be the same value.

differenthashes, otherwise the hashing is broken. – David Schwartz Feb 18 '13 at 19:27samevalue produce the same hash value. A good hash function producesdifferenthash values for different values to the extent possible. And, no, 1./sqrt(5.)/sqrt(5.) is not necessarily equal to 0.2, and if it's not, hashing it is not required to produce the same value as hashing 0.2. – Pete Becker Feb 18 '13 at 19:38