What I am looking to do sounds really simple, but no where on the Internet so far have I found a way to do this in DotNet nor found a 3rd party component that does this either (without spending thousands on completely unnecessary features). Here goes:

I have a jpeg of a floor tile (actual photo) that I create a checkerboard pattern with. In dotnet, it is easy to rotate and stitch photos together and save the final image as a jpeg.

Next, I want to take that final picture and make it appear as if the "tiles" are laying on a floor for a generic "room scene". Basically adding a 3D perspective to make it appear as if it is actually in the room scene.

Heres a website that is doing something similar with carpeting, however I need to do this in a WinForms application: Flor Website

Basically, I need to create a 3D perspective of a jpeg, then save it as a new jpeg (then I can put an overlay of the generic room scene).

Anyone have any idea on where to get a 3rd party DotNet image processing module that can do this seemingly simple task?


It is not so simple because you need a 3D transformation, which is more complicated and computationally expensive than a simple 2D transformation such as rotation, scaling or shearing. For you to have an idea of the difference in the math, 2D transformations require 2 by 2 matrices, whereas a projection transformation (which is more complicated than other 3D transforms) requires a 4 by 4 matrix...

What you need is some 3D rendering engine in which you can draw polygons (in a perspective view) and them cover them with a texture (like a carpet). For .Net 2.0, I'd recommend using SlimDX which is a port of DirectX that would allow you to render polygons, but there is some learning curve. If you are using WPF (.Net 3.0 and up), there is a built in 3D canvas that allows you to draw textured polygons in perspective. That might be easier/better to learn than SlimDX for your purposes. I'm sure that there is a way to redirect the output of the 3D canvas towards a jpeg...

You might simplify the problem a lot if you don't require great performance and if you restrict the orientation of the texture (eg. always a horizontal floor or always a vertical wall). If so, you could probably render it yourself with a simple drawing loop in .Net 2.0.

  • +1, Using Direct3D or OpenGL is almost certainly going to be easier (and give better results) than attempting to manually write your own textured rendering of a perspective projection. This also gives you the option of later adding things like lighting and bump mapping (to give a sense of texture). – Dan Bryant Sep 7 '11 at 18:53

If you just want a plain floor, your code would look like this. WARNING: Obtaining your desired results will take some significant time and refinement, specially if you don't know the math very well. But on the other hand, it is always fun to play with code of this type... (:

Find some sample images below.

using System;
using System.Collections.Generic;
using System.Drawing;
using System.Windows.Forms;

namespace floorDrawer
public partial class Form1 : Form
    public Form1()

        ResizeRedraw = DoubleBuffered = true;

        Width = 800;
        Height = 600;

        Paint += new PaintEventHandler(Form1_Paint);


    void Form1_Paint(object sender, PaintEventArgs e)

        // a few parameters that control the projection transform
        // these are the parameters that you can modify to change 
        // the output

        double cz = 10; // distortion
        double m = 1000; // magnification, usually around 1000 (the pixel width of the monitor)

        double y0 = -100; // floor height

        string texturePath = @"c:\pj\Hydrangeas.jpg";//@"c:\pj\Chrysanthemum.jpg";

        // screen size
        int height = ClientSize.Height;
        int width = ClientSize.Width;

        // center of screen
        double cx = width / 2;
        double cy = height / 2;

        // render destination
        var dst = new Bitmap(width, height);

        // source texture

        var src = Bitmap.FromFile(texturePath) as Bitmap;

        // texture dimensions
        int tw = src.Width;
        int th = src.Height;

        for (int y = 0; y < height; y++)
            for (int x = 0; x < width; x++)
                double v = m * y0 / (y - cy) - cz;
                double u = (x - cx) * (v + cz) / m;

                int uu = ((int)u % tw + tw) % tw;
                int vv = ((int)v % th + th) % th;
                // The following .SetPixel() and .GetPixel() are painfully slow
                // You can replace this whole loop with an equivalent implementation
                // using pointers inside unsafe{} code to make it much faster.
                // Note that by casting u and v into integers, we are performing
                // a nearest pixel interpolation...  It's sloppy but effective.

                dst.SetPixel(x, y, src.GetPixel(uu, vv));

        // draw result on the form
        e.Graphics.DrawImage(dst, 0, 0);


This is a sample output using one of Windows 7 sample images.

Another example using another Windows 7 sample picture.

  • Rather than doing this pixel by pixel, you just need to calculate the corners, then calculate the appropriate 2D matrix and set 'Graphics.transform' to do it and do a DrawImage(). There may even be a DrawImage() call to draw into a skewed rectangle. Sorry my 3D math is 20 years old and my Windows programming 10. – NPAssoc Sep 14 '16 at 6:21
  • @NPAssoc I wrote this solution years ago, and I think I was just showing off my "pixel by pixel 3d skills". In order to render a 3d projection, you need a 4-by-4 affine matrix as far as I know. I agree that setting a render matrix is the way to go in general, but I don't think that System.Drawing.Graphics supports 4x4 transform matrices. The newer WPF frameworks can do this out-of-the-box for sure. – Eugenio De Hoyos Sep 15 '16 at 22:42
  • @NPAssoc I just noticed the "skewed rectangle" remark. For a skewed rectangle you'd use a "shear" transform. A shear operation can be done with a 2x2 matrix, and it can be handled by System.Drawing.Graphics easily. Note that a shear operation is not the same as a perspective affine projection, which requires the 4x4 transform that my comment above as well as the other solution mention. – Eugenio De Hoyos Sep 15 '16 at 22:52
  • Yes, System.Drawing.Graphics does have a 2x2 transform matrix, i.e. "public Matrix Transform { get; set; }" and whole pile of functions to manipulate it. I'm rewriting a 'legacy' application, for a customer that needs it to run on old systems, so I've been researching this. :-) – NPAssoc Sep 18 '16 at 21:09
  • Actually it is a 3x3 matrix. – NPAssoc Sep 18 '16 at 22:19

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