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My goal is to take a picture using the camera on a Windows Mobile device and convert that image to a monochrome bitmap so it can print on a bluetooth printer using the .NET Compact Framework. I found the answer I was looking for here:

Convert image to 1 bpp bitmap in .net compact framework

When I added this code and tested with an image I took with the camera (.jpg file about 300K in size), I passed that image into the code from the code in the above stackoverflow solution and it completed with no errors. When viewing the bitmap, it is a solid black image.

Does the original bitmap passed into the code need to be a certain resolution or are there any other restrictions? The original image taken with the camera was black and white to begin with.

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Was the original image actually black and white, or was it grayscale? Because it might be treating anything with a hint of color in it as black and only pure white as white. –  lc. Jul 12 '12 at 18:24
    
Yeah that was my guess, it is actually a "color" image and probably doesn't contain a single white pixel but I thought it was supposed to convert any image to monochrome. –  Chris Marando Jul 12 '12 at 18:39
    
If this is true, I think you'll have to manually scrub the image first based on a threshold value before you do a DrawImage on the 1BPP DeviceContext. Bitmap.LockBits and then looping through each pixel and setting it to White or Black first will probably be the only way. You'll have to decide at which point a pixel has enough color to call it black. –  lc. Jul 12 '12 at 18:50
    
I'm thinking you probably want 256-color greyscale as the result, not 1bpp. 1bpp means a pixel is either black or white, no in between, and is great for text documents. For a photo it will look pretty bad. –  ctacke Jul 13 '12 at 14:44

1 Answer 1

This is a tricky problem. What you really need to do to get reasonable results is implement a dithering algorithm that allows the printer to space white and black dots proportionally according to how "black" the original pixel was. If you limit your algorithm to converting each pixel to just white or black the output will not be a very good representation of the original photograph you took. With dithering, you analyse each pixel from the input and adjust the surrounding pixels on the output based on how dark the input pixel is.

A common dithering implementation is the Floyd-Steinberg algorithm, is described in it's basic form here:

Floyd-Steinberg Dithering

Lots more information is out there if you google for it.

As it's not exactly a trivial algorithm to implement, be prepared to spend a more than an afternoon to get it just right though.

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