Here's what I would do:

```
public bool Equals(Entity a, Entity b)
{
if (a.Columns.Count != b.Columns.Count)
return false; // Different number of items
foreach(var kvp in a.Columns)
{
object bValue;
if (!b.Columns.TryGetValue(kvp.Key, out bValue))
return false; // key missing in b
if (!Equals(kvp.Value, bValue))
return false; // value is different
}
return true;
}
```

That way you don't need to order the entries (which is a *O(n log n)* operation) : you only need to enumerate the entries in the first dictionary (*O(n)*) and try to retrieve values by key in the second dictionary (*O(1)*), so the overall complexity is *O(n)*.

Also, note that your `GetHashCode`

method is incorrect: in most cases it will return different values for different dictionary instances, even if they have the same content. And if the hashcode is different, `Equals`

will never be called... You have several options to implement it correctly, none of them ideal:

- build the hashcode from the content of the dictionary: would be the best option, but it's slow, and
`GetHashCode`

needs to be fast
- always return the same value, that way
`Equals`

will always be called: *very* bad if you want to use this comparer in a hashtable/dictionary/hashset, because all instances will fall in the same bucket, resulting in *O(n)* access instead of *O(1)*
- return the
`Count`

of the dictionary (as suggested by digEmAll): it won't give a great distribution, but still better than always returning the same value, and it satisfies the constraint for `GetHashCode`

(i.e. objects that are considered equal should have the same hashcode; two "equal" dictionaries have the same number of items, so it works)