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diff --git a/src/vector.h b/src/vector.h
index c7f2771..5ef0a92 100644
--- a/src/vector.h
+++ b/src/vector.h
@@ -3,37 +3,42 @@
 //
 // Various structures used for 3 dimensional imaging
 //
-// by James L. Hammons
-// (C) 2001 Underground Software
+// by James Hammons
+// (C) 2001, 2018 Underground Software
 //
 
 #ifndef __VECTOR_H__
 #define __VECTOR_H__
 
-// What we'll do here is create the vector type and use typedef to alias Point to it. Yeah, that's it.
+// What we'll do here is create the vector type and use typedef to alias Point
+// to it. Yeah, that's it.
+
+class Vector;
+typedef Vector Point;
 
 class Vector
 {
 	public:
 		Vector(double xx = 0, double yy = 0, double zz = 0);
 		Vector(Vector tail, Vector head);		// Create vector from two points
+		void SetAngleAndLength(double angle, double length);
 		Vector operator=(Vector const v);
 		Vector operator+(Vector const v);
 		Vector operator-(Vector const v);
-		Vector operator-(void);					// Unary negation
-		Vector operator*(double const v);		// Vector times constant (double)
-		Vector operator*(float const v);		// Vector times constant (float)
-		Vector operator/(double const v);		// Vector divided by constant (double)
-		Vector operator/(float const v);		// Vector divided by constant (float)
-		Vector operator*(Vector const v);		// Vector product
-		double Dot(Vector const v);				// Dot product
-
-		Vector& operator*=(double const v);		// Vector times constant self-assignment
-		Vector& operator/=(double const v);		// Vector divided by constant self-assignment
-		Vector& operator+=(Vector const v);		// Vector plus Vector self-assignment
-		Vector& operator+=(double const v);		// Vector plus constant self-assignment
-		Vector& operator-=(Vector const v);		// Vector minus Vector self-assignment
-		Vector& operator-=(double const v);		// Vector minus constant self-assignment
+		Vector operator-(void);				// Unary negation
+		Vector operator*(double const v);	// Vector times constant (double)
+		Vector operator*(float const v);	// Vector times constant (float)
+		Vector operator/(double const v);	// Vector divided by constant (double)
+		Vector operator/(float const v);	// Vector divided by constant (float)
+		Vector operator*(Vector const v);	// Vector product
+		double Dot(Vector const v);			// Dot product
+
+		Vector& operator*=(double const v);	// Vector times constant self-assignment
+		Vector& operator/=(double const v);	// Vector divided by constant self-assignment
+		Vector& operator+=(Vector const v);	// Vector plus Vector self-assignment
+		Vector& operator+=(double const v);	// Vector plus constant self-assignment
+		Vector& operator-=(Vector const v);	// Vector minus Vector self-assignment
+		Vector& operator-=(double const v);	// Vector minus constant self-assignment
 
 		bool operator==(Vector const v);		// Check for equality
 		bool operator!=(Vector const v);		// Check for inequality
@@ -47,13 +52,13 @@ class Vector
 
 		static double Dot(Vector v1, Vector v2);
 		static double Magnitude(Vector v1, Vector v2);
+		static double Angle(Point p1, Point p2);
 		static double Parameter(Vector v1, Vector v2, Vector p);
 		static Vector Normal(Vector v1, Vector v2);
+		static double AngleBetween(Vector a, Vector b);
 
 	public:
 		double x, y, z;
 };
 
-typedef Vector Point;
-
 #endif	// __VECTOR_H__