package gg import ( //"github.com/hajimehoshi/ebiten/v2" "math" ) var ( ZV = V2(0) ) type Vector struct { X, Y Float } type Point = Vector //type Vertex = Vector type Vectors []Vector type Points []Point func V(x, y Float) Vector { return Vector{x, y} } func V2(v Float) Vector { return V(v, v) } func (v Vector) Div(o Vector) Vector { return V( v.X / o.X, v.Y / o.Y, ) } func (v Vector) Scale(o Vector) Vector { return V( v.X * o.X, v.Y * o.Y, ) } func (v Vector) Eq(o Vector) bool { return v.X == o.X && v.Y == o.Y } // Returns the vector with the matrix applied func (v Vector) Apply(m *Matrix) Vector { x, y := m.Apply(v.X, v.Y) return V(x, y) } // Adds the vector to other one returning the result. func (v Vector) Add(a ...Vector) Vector { for _, r := range a { v.X += r.X v.Y += r.Y } return v } // Returns the subtraction of all the vectors from the current one. func (v Vector) Sub(s ...Vector) Vector { for _, r := range s { v.X -= r.X v.Y -= r.Y } return v } // Returns the negative version of the vector. func (v Vector) Neg() Vector { return Vector{ -v.X, -v.Y, } } // Returns the vector rotated by "a" angle in radians. func (v Vector) Rotate(a Float) Vector { m := &Matrix{} m.Rotate(a) return v.Apply(m) } // Returns the normalized vector. func (v Vector) Norm() Vector { l := math.Sqrt(v.X*v.X + v.Y*v.Y) return V(v.X / l, v.Y / l) } func (pts Points) Contained(c PointContainer) Points { ret := Points{} for _, pt := range pts { if c.ContainsPoint(pt) { ret = append(ret, pt) } } return ret } func (pts Points) Len() int { return len(pts) }