I have a plotter like this one: PloterXY device.

The task which I have to implement is conversion of 24 bits BMP to set of instructions for this plotter. In the plotter I can change 16 common colors. The first complexity which I face is the colors reduction. The second complexity which I face is how to transform pixels into set of drawing instructions.

As drawing tool brush with oil paint will be used. It means that plotter drawing lines will not be so tiny and they will be relatively short.

Please suggest algorithms which can be used for solving this image data conversion problem?

Some initial results:

Flower 1 - colors reduction.

Flower 2 - colors reduction.

Flower 3 - colors reduction.

  • 2
    google would help you for sure. stackoverflow.com/questions/622573/… For the conversion to your plotter it will highly depend on what images you have. You would vectorize a character differently from a flower
    – Piglet
    Apr 17, 2016 at 10:50
  • 2
    you do not need to loose colors use dithering ...The vectorisation depends on what you want ... just outlines or full filing ... also it gretly depends on the image content rel life photo if different then cartoon sketch... if you are not limited to bitmap then you can also use directly 2D vector formats like svg,wmf,emf,dwg,... add image example
    – Spektre
    Apr 17, 2016 at 11:16
  • I will use real photo images. What I am thinking for is some way of better colors reduction than standard algorithms. For example GIMP has very well implemented colors reduction module, but it is general purpose colors reduction. I will need to do image vectorization and I am wondering is there are ways to achieve better reduced colors related with the specifics of my task. Apr 18, 2016 at 6:45
  • As a starter you should explain what are the available drawing instructions...
    – fjardon
    Apr 18, 2016 at 13:32
  • 1
    I guess the time/cost of changing colours relative to the time to move the plotter head is also a determining factor in how you should plot - so you would need to identify the plotter and its User Manual. Apr 22, 2016 at 11:31

1 Answer 1



Well I got some time for this today so here the result. You did not provide your plotter color palette so I extracted it from your resulting images but you can use any. The idea behind dithering is simple our perception integrates color on area not individual pixels so you have to use some accumulator of color difference of what is rendered and what should be rendered instead and add this to next pixel ...

This way the area have approximately the same color but only discrete number of colors are used in real. The form of how to update this info can differentiate the result branching dithering to many methods. The simple straightforward is this:

  1. reset color accumulator to zero
  2. process all pixels
    1. for each pixel add its color to accumulator
    2. find closest match of the result in your palette
    3. render selected palette color
    4. substract selected palette color from accumulator

Here your input image (I put them together):


Here result image for your source:


The color squares in upper left corner is just palette I used (extracted from your image).

Here code (C++) I do this with:

picture pic0,pic1,pic2;
    // pic0 - source img
    // pic1 - source pal
    // pic2 - output img
int x,y,i,j,d,d0,e;
int r,g,b,r0,g0,b0;
color c;
List<color> pal;
// resize output to source image size clear with black
pic2=pic0; pic2.clear(0);
// create distinct colors pal[] list from palette image
for (y=0;y<pic1.ys;y++)
 for (x=0;x<pic1.xs;x++)
    for (i=0;i<pal.num;i++) if (pal[i].dd==c.dd) { i=-1; break; }
    if (i>=0) pal.add(c);
// dithering
r0=0; g0=0; b0=0;   // no leftovers
for (y=0;y<pic0.ys;y++)
 for (x=0;x<pic0.xs;x++)
    // get source pixel color
    // add to leftovers
    // find closest color from pal[]
    for (i=0,j=-1;i<pal.num;i++)
        e=(r-r0); e*=e; d =e;
        e=(g-g0); e*=e; d+=e;
        e=(b-b0); e*=e; d+=e;
        if ((j<0)||(d0>d)) { d0=d; j=i; }
    // get selected palette color
    // sub from leftovers
    // copy to destination image
// render found palette pal[] (visual check/debug)
x=0; y=0; r=16; g=pic2.xs/r; if (g>pal.num) g=pal.num;
for (y=0;y<r;y++)
 for (i=0;i<g;i++)
  for (c=pal[i],x=0;x<r;x++)

where picture is my image class so here some members:

  • xs,ys resolution
  • color p[ys][xs] direct pixel access (32bit pixel format so 8 bit per channel)
  • clear(DWORD c) fills image with color c

The color is just union of DWORD dd and BYTE db[4] for simple channel access.

The List<> is my template (dynamic array/list>

  • List<int> a is the same as int a[].
  • add(b) add b to it at the end of list
  • num is number of items in list

Now to avoid too many dots (for the lifespan of your plotter sake) you can use instead different line patterns etc but that needs a lot of trial/error ... For example you can count how many times a color is used in some area and from that ratio use different filling patterns (based on lines). You need to choose between quality of image and speed of rendering/durability ...

Without more info about your plotter capabilities (speeds, method of tool change,color combination behavior) is hard to decide best method of forming control stream. My bet is you change the colors manually so you will render each colors at once. So extract all pixels with the color of first tool merge adjacent pixels to lines/curves and render ... then move to next tool color ...

  • @MarkSetchell If you liked this then also take a look at scalable dithering. Just uploaded new animated GIF there.
    – Spektre
    Apr 26, 2016 at 9:05
  • Spektre, thank you very much, amazingly good answer. I did not supply too much initila information with purpose. I had wanted to achieve something like brain storming session in order to collect new ideas. Here you can see more details about the way how I am solving the problem until now: github.com/TodorBalabanov/EllipsesImageApproximator Apr 27, 2016 at 11:25
  • 1
    Nice algo. I like it. It got some flaws (like producing waves), but it's realy simple and allows quite fast execution.
    – Raffzahn
    Jan 10, 2019 at 12:26
  • 1
    @Raffzahn :) ... I remember the Z80 days of coding and translating on paper and then poke into RAM and randomize usr :) ... and hours of searching for the bug in it
    – Spektre
    Jan 10, 2019 at 17:38
  • 1
    @TodorBalabanov take a look at similar QA Painting stroke generation algorithm for robot arm
    – Spektre
    Jul 8, 2022 at 11:23

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