I have been confused by this as well for quite a while and I don’t believe that the reason for this has got much to do with the often-pronounced *explicit is better than implicit* but that it is just following a simple analogy there.

Let’s take a simple vector class:

```
class Vector(object):
def __init__(self, x, y):
self.x = x
self.y = y
```

Now, we want to have a method which calculates the length. What would it look like if we wanted to define it inside the class?

```
def length(self):
return math.sqrt(self.x ** 2 + self.y ** 2)
```

And, what should it look like when we were to define it as a global method/function?

```
def length_global(vector):
return math.sqrt(vector.x ** 2 + vector.y ** 2)
```

So, the whole structure stays the same. Now, how can me make use of this? If we assume for a moment that we hadn’t written a `length`

method for our `Vector`

class, we could do this:

```
Vector.length_new = length_global
v = Vector(3, 4)
print v.length_new() # 5.0
```

This works, because the first parameter of `length_global`

, can be re-used as the `self`

parameter in `length_new`

. This would not be possible without an explicit `self`

.

Another way of understanding the need for the explicit `self`

is to see where Python adds some syntactical sugar. When you keep in mind, that basically, a call like

```
v_instance.length()
```

is internally transformed to

```
Vector.length(v_instance)
```

it is easy to see where the `self`

fits in. You don't actually write instance methods in Python; what you write is class methods which (must) take an instance as a first parameter. And therefore, you’ll have to place the instance parameter somewhere explicitly.

`@name`

more intuitive than`self.name`

? The latter, IMO, is more intuitive. – Santa Apr 28 '10 at 0:12