## Introduction

I had a requirement to plot a list of 3D points on a graphics display. The list of points is generated by some other software. I had to do this using .NET. I am not using DirectX or any other library. I have created a 3D geometry library with just the basic classes like Vector, Matrix, and Point. A test application also has been developed to test this library. The test application reads a point data file and draws lines connecting the read points. It also has options to view the 3D object along different axes. I have done these using VB.NET 2.0.

## Geometry Library (Basic Classes)

This geometry library contains only some basic classes like Vector, Matrix, and Point. I have created 2D and 3D classes for each of these (`Vector2D`

, `Vector3D`

, `Matrix2D`

, `Matrix3D`

, `Point2D`

and `Point3D`

). The 2D classes are used for two-dimensional geometry, and 3D classes for three-dimensional geometry. You can get more detailed explanations about Geometry, Vector and Matrix functionalities by searching on the web.

### Point

A Point represents a two dimensional or three dimensional point in space. A Point is represented by its X and Y (also Z in the case of a 3D point) coordinates.

### Vector

A geometrical Vector specifies the direction in space. The Vector has two properties: Length and Direction. The Vector does not have a fixed location in space.

Our Vector classes have standard vector operations like Addition, Subtraction, Transformation, Negation, Dot Product, Cross Product, finding the angle between two Vectors etc.

### Matrix

Matrices allow arbitrary linear transformations to be represented in a consistent format, suitable for computation. This also allows transformations to be concatenated easily by multiplying their matrices - from Wikipedia. We use a 3x3 matrix for 2D and 4x4 matrix for 3D. You can find more information by searching on the web.

I have created specific Matrix classes for 2D and 3D for convenience. Alternatively, a generic Matrix class can be created and 2D and 3D Matrix classes can be derived from the generic class.

Our Matrix classes have standard matrix operations like Multiplication, Inverse, Rotation, Scaling, and Transformation etc.

Using the 3D matrix class:

Dim Mat As New Matrix3D
Mat.SetToRotation(90 * Math.PI / 180.0, New Vector3D(1, 0, 0))
TransformPoints(Mat)
Dim Pt As New Point3D(50.0, 50.0, 0.0)
Pt.TransformBy(Mat)

## Test Application

The test application reads a point data file and draws lines connecting the list of points. The file contains a list of 3D points. The X, Y, and Z coordinates are separated by spaces, and each point is stored in new lines.

0.0 0.0 0.0
0.0 0.0 50.0
50.0 0.0 50.0

The functions `PointReader`

and `ReadPointFromString`

parse the data file and fill the points array. In this example data file, the points are manipulated to get the desired result. But the original requirement was to plot the points on the screen. But for demonstrating the geometry library, I have considered drawing lines, to show a 3D shape object.

### Looking at Various Views

Functionalities of the test application include viewing the 3D object from X-axis, Y-axis, Z-axis, and 3D view.

3D View

View from X

View from Y

View from Z

For example, to get the view from the X direction, first we transform the points to the original position, then create the required Matrix object and transform the points to the required position.

Dim Mat As New Matrix3D
TransformPoints(Mat)
TransMat.PostMultiplyBY(Mat)
Mat.SetToIdentity()
Mat.SetToRotation(90 * Math.PI / 180.0, New Vector3D(0, 1, 0))
TransMat.PostMultiplyBY(Mat)
PanelDraw.Invalidate()

I am using the `Panel`

control for drawing the graphics, using the double buffer concept to avoid flickering, when the graphics refreshes (http://www.thescripts.com/forum/thread267635.html).

Hope this article is of some use. There may be better ways to achieve the requirement. Please let me know your views and clarifications if any.