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I'm new to WPF 3D, so I may just be missing something obvious, but how do I convert from 3D to 2D and (for a given z location) from 2D to 3D?

Specifically, I need two conversion methods:

  • Point3DToPoint - If I have an (x, y, z) coordinate in the 3D world, how do I determine the (x, y) coordinate on the projected 2D surface. Method signature: public Point Point3DToPoint(Point3D point3D)

  • PointAndZToPoint3D - If I have an (x, y) coordinate on the projected 2D surface and a z location in the 3D world, how do I determine the (x, y, z) coordinate in the 3D world? Method signature: public Point3D PointAndZToPoint3D(Point point, double z)

I'd like the 2D coordinate to be the location measured from the upper-left corner of Viewport3D and the 3D coordinate to be the location relative to the origin (0, 0, 0) of the 3D world.

Note 1: I found this related question, but it only addresses conversion from 3D to 2D (not the reverse), and I'm not sure if the answers are up-to-date.

Note 2: I'm currently using .NET 3.5, but if there are improvements in .NET 4.0 that would help me, please let me know.

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If the plane is perpendicular, then 3D point keeps the same x, y, but gain a constant z. –  Hamish Grubijan Apr 29 '10 at 19:33

2 Answers 2

up vote 3 down vote accepted

Charles Petzold's 3D Library, which can be downloaded here under "The Petzold.Media3D library", contains a class ViewportInfo with these two static methods:

  • public static Point Point3DToPoint2D(Viewport3D viewport, Point3d point)

  • public static bool Point2DToPoint3D(Viewport3D viewport, Point, ptIn, out LineRange range)

Point2DToPoint3D isn't an exact match for PointAndZToPoint3D() because it returns (via an out parameter) a LineRange rather than a specific point, but it just so happens that LineRange has a method PointFromZ(double zValue), which provides the point where the ray intersects the plane defined by z = zValue.

Code Sample:

using System.Windows;
using System.Windows.Input;
using Petzold.Media3D;

namespace _3DTester
    public partial class Window1 : Window
        public Window1()

        /* This MouseDown event handler prints:
          (1) the current position of the mouse
          (2) the 3D mouse location on the ground plane (z = 0)
          (3) the 2D mouse location converted from the 3D location */

        private void Window_MouseDown(object sender, MouseEventArgs e)
            var range = new LineRange();
            var isValid = ViewportInfo.Point2DtoPoint3D(Viewport, e.GetPosition(Viewport), out range);
            if (!isValid)
                MouseLabel.Content = "(no data)";
                var point3D = range.PointFromZ(0);
                var point = ViewportInfo.Point3DtoPoint2D(Viewport, point3D);
                MouseLabel.Content = e.GetPosition(Viewport) + "\n" + point3D + "\n" + point;


        <Viewport3D Name="Viewport">
                    UpDirection="0,1,0" />
                        <DirectionalLight Color="White" Direction="1,-1,-1" />
                                    Positions="0,0,10 -5,-5,0 -5,5,0 5,5,0 5,-5,0"
                                    TriangleIndices="2 1 0  2 0 3  4 3 0  1 4 0" />
                                <DiffuseMaterial Brush="Red" />
        <Label Name="MouseLabel" Content="(no data)" />
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You can't directly convert from a 2d point to a 3d point.

Imagine the case where you have a point on the ground.

If you know the direction you want to project the line in (say straight up) you will get a line through the point perpendicular to the ground.

If you know the distance you want to travel you will get a hemisphere (assuming you can't go underground) who's centre is the point.

If you know both you can get a point "in space".

In your case you probably want the direction to be the view direction, but as you don't specify the distance you want the solution is a line. To get the point you'll have to chose a plane in space and then calculate the intersection of the line and plane.

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Chris, I'm aware of the problem you're describing...please see the specifications I provided in my question. You can convert from a 2D point to a 3D point if you provide a worldZ coordinate. Providing a worldZ eliminates all the ambiguity and allows the method to find the exact point. Now if I just knew how to write the method :) –  devuxer Apr 29 '10 at 22:41

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