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# scala self-type: value is not a member error

This is a followup to this question.

I'm trying to implement vectors in scala with a generic super class using self-types:

``````trait Vec[V] { self:V =>
def /(d:Double):Vec[V]
def dot(v:V):Double

def norm:Double = math.sqrt(this dot this)
def normalize = self / norm
}
``````

Here's an implementation of a 3D vector:

``````class Vec3(val x:Double, val y:Double, val z:Double) extends Vec[Vec3]
{
def /(d:Double) = new Vec3(x / d, y / d, z / d)
def dot(v:Vec3) = x * v.x + y * v.y + z * v.z
def cross(v:Vec3):Vec3 =
{
val (a, b, c) = (v.x, v.y, v.z)
new Vec3(c * y - b * z, a * z - c * x, b * x - a * y)
}

def perpTo(v:Vec3) = (this.normalize).cross(v.normalize)
}
``````

Unfortunately this doesn't compile:

``````Vec3.scala:10: error: value cross is not a member of Vec[Vec3]
def perpTo(v:Vec3) = (this.normalize).cross(v.normalize)
^
``````

What's going wrong, and how do I fix it?

Additionally, any references on self-types would be appreciated because I think these errors are cropping up from my lack of understanding.

-

To get rid of all the nastiness, you have to specify that the type parameter `V` is a subclass of `Vec`. Now you can just use `V` everywhere, because your trait knows that `V` inherits all `Vec[V]` methods.

``````trait Vec[V <: Vec[V]] { self: V =>
def -(v:V): V
def /(d:Double): V
def dot(v:V): Double

def norm:Double = math.sqrt(this dot this)
def normalize: V = self / norm
def dist(v: V) = (self - v).norm
def nasty(v: V) = (self / norm).norm
}
``````

Note the method `nasty` which won’t compile with Easy Angel’s approach.

-
Thank you. I believe this is the proper answer to my original question: stackoverflow.com/questions/4773611/… . Would you mind posting there so I can give you points? – dsg Jan 24 '11 at 0:26

I think, that method `/` in `Vec` should return `V` instead of `Vec[V]`:

``````trait Vec[V] { self:V =>
def /(d:Double): V
def dot(v:V):Double

def norm:Double = math.sqrt(this dot this)
def normalize = self / norm
}
``````

method cross exists in `Vec3` (or in other words in `V`) but not in `Vec[V]`

-
What's the rule of thumb for when to use `Vec[V]` vs. `V`? The answer to the referenced question ( stackoverflow.com/questions/4774743/… ) was exactly the opposite, change return type `V` to `Vec[V]`. – dsg Jan 23 '11 at 22:34
I think this current issue has nothing to do with sef-types. `normalize` will just return `Vec[V]` and method `cross` is not defined there, but in your previous issue `(this - v)` returns `V` and in this context `V` is not considered to be `Vec[V]` by compiller because self-type declaration is unidirectional (as mentioned in comments). – tenshi Jan 23 '11 at 22:52