// DrawCircle draws a circle centered at v with a radius of r, with n number of points in color c. func DrawCircle(c color.Color, r float32, n int, v geometry.Vector2) { vectors := make([]geometry.Vector2, n) for i := 0; i < n; i++ { degInRad := (360 / float32(i)) * math.Pi / 180 vectors[i] = v.Add(geometry.Vector2{math.Cos(degInRad) * r, math.Sin(degInRad) * r}) } DrawLineLoop(c, vectors...) }
// YRotationMatrix returns the y-axis rotation matrix based on angle y. func YRotationMatrix(y float32) Matrix4 { cos := math.Cos(y) sin := math.Sin(y) return Matrix4{ cos, 0, sin, 0, 0, 1, 0, 0, -sin, 0, cos, 0, 0, 0, 0, 1} }
// XRotationMatrix returns the x-axis rotation matrix based on angle x. func XRotationMatrix(x float32) Matrix4 { cos := math.Cos(x) sin := math.Sin(x) return Matrix4{ 1, 0, 0, 0, 0, cos, -sin, 0, 0, sin, cos, 0, 0, 0, 0, 1} }
// RotationMatrix returns the rotation matrix based on vec with a amount. func RotationMatrix(a float32, vec geometry.Vector3) Matrix4 { c := math.Cos(a) s := math.Sin(a) return Matrix4{ vec.X*vec.X*(1-c) + c, vec.X*vec.Y*(1-c) - vec.Z*s, vec.X*vec.Z*(1-c) + vec.Y*s, 0, vec.X*vec.Y*(1-c) + vec.Z*s, vec.Y*vec.Y*(1-c) + c, vec.Y*vec.Z*(1-c) - vec.X*s, 0, vec.X*vec.Z*(1-c) - vec.Y*s, vec.Y*vec.Z*(1-c) + vec.X*s, vec.Z*vec.Z*(1-c) + c, 0, 0, 0, 0, 1, } }
// Vec returns a's vector representation aligned to the x-axis. func (a Angle) Vec() Vector2 { return Vec2(math.Cos(a.Radians()), math.Sin(a.Radians())) }