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Considering :

preferred ={{1, 1, 63}, {2, 1, 44}, {3, 1, 27}, {4, 1, 33}, {5, 1, 33}}

frmWidth  =                 20.9067;
frmHeight =                   15.68;

I am displaying 5 types of stimuli 2 by 2. Subjects must choose the one they prefer. Each type of stimuli is displayed 80 times so :

{1,1,63} indicates that the stimuli Cond 1 was preferred 63 times out of the 80 times it was displayed. {3, 1, 27} indicates that the stimuli Cond 3 was preferred 27 times out of the 80 times it was displayed.

Cond1 refers to center of the screen

Cond2 refers to Top-Left Quadrant

Cond3 refers to Top-Right Quadrant

Cond4 refers to Bottom-Left Quadrant

Cond5 refers to Bottom-Right Quadrant

I would like to express this showing results.

This is what I have done :

Graphics[{
  Black, EdgeForm[{Thin, LightGray}], 
  Rectangle[{-1, -1}, {frmWidth + 1, frmHeight + 1}], 

  PointSize[0.03],
  Yellow,
  Point@Tuples[{Range[0, frmWidth/2, frmWidth/19], 
  Range[0, frmHeight/2, frmHeight/14]}][[;; preferred[[5, 3]]]],

  Red,
  Point@Tuples[{Range[frmWidth/2, frmWidth, frmWidth/19], 
  Range[0, frmHeight/2, frmHeight/14]}][[;; preferred[[4, 3]]]],

  Green,
  Point@Tuples[{Range[frmWidth/2, frmWidth, frmWidth/19], 
  Range[frmHeight/2, frmHeight, frmHeight/14]}][[;; preferred[[3, 3]]]],

  Orange,
  Point@Tuples[{Range[0, frmWidth/2, frmWidth/19], 
  Range[frmHeight/2, frmHeight, frmHeight/14]}][[;; 
  preferred[[2, 3]]]],

  Blue,
  Point@Tuples[{Range[frmWidth/4, 3/4 frmWidth, frmWidth/19], 
  Range[frmHeight/4, 3/4 frmHeight, frmHeight/14]}][[;; 
  preferred[[1, 3]]]]

  }]

enter image description here

Problem is the rectangles are gradually filled with points from left to right, instead of the points being uniformly located.

Consider the following :

Graphics[{

  White, EdgeForm[Thick], 
  Rectangle[{0, 0}, {frmWidth, frmHeight}],

  Orange, Opacity[.5],
  Rectangle[{0, frmHeight/2}, {frmWidth/2, frmHeight}, RoundingRadius -> 3],

  Green,
  Rectangle[{frmWidth/2, frmHeight/2}, {frmWidth, frmHeight},RoundingRadius -> 3],

  Red,
  Rectangle[{frmWidth/2, 0}, {frmWidth, frmHeight/2}, RoundingRadius -> 3],

  Yellow,
  Rectangle[{0, 0}, {frmWidth/2, frmHeight/2}, RoundingRadius -> 3],

  Blue,
  Rectangle[{frmWidth/4, frmHeight/4}, {3/4 frmWidth, 3/4 frmHeight}, RoundingRadius -> 3]
  }]

enter image description here

Now I would like to fill those edge rounded rectangles with the points but have the density changing rather than the part of the rectangles that are filled.

Below is something very ugly I draw in PPT :

enter image description here

Ideally, the shapes filled with Points could be of any kind. Points would not overlap.

Please let me know alternative ideas.

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2 Answers

up vote 3 down vote accepted

OK, try this:

Manipulate[ld = Floor[Sqrt[n]];
Graphics[
{{EdgeForm[Dashed], White, 
  Polygon[{{0, 0}, {0, h}, {w, h}, {w, 0}}]},
 Point[Flatten[#, 1] &@
 Table[{x, y}, {x, 0, w, w/ld}, {y, 0, h, h/ld}]] },
PlotRange \[Rule] {{-1, 20}, {-1, 20}}],
{{n, 25}, 10, 100, 1},
{{h, 10}, 5, 20},
{{w, 10}, 5, 20}]

typical configuration:

enter image description here

(the code I gave lets you control the total number and size of the box via sliders)

share|improve this answer
    
@acl, could the density be automatically adjusted given the size of the box and the number of dots to be present ? –  500 Jun 28 '11 at 16:52
    
@500 so, something like this? –  acl Jun 28 '11 at 17:10
    
@acl, yes it seems, ingredients are in there ! –  500 Jun 28 '11 at 17:18
    
@500 what's missing? should be easy enough to add (I haven't yet thought of how to do it efficiently for non-rectangular containers) –  acl Jun 28 '11 at 17:21
    
@acl, that`s it, if this could work for arbitrary shapes :) Principle is exctly what I was looking for –  500 Jun 28 '11 at 17:45
show 5 more comments

Given that your rectangles are rather small, the easiest solution is to use

RandomSample[ allPointsInAnObject ]

Kind of like so:

Graphics[{Circle[{0, 0}, 11], PointSize[0.02], 
  Point[RandomSample[
    Cases[Outer[List, Range[-11, 11], Range[-11, 11]], {x_, y_} /; 
      x^2 + y^2 <= 11^2, {2}], 50]]}]
share|improve this answer
    
but I thought he wanted a uniform density throughout the object, changing to accomodate a given total number? –  acl Jun 28 '11 at 16:18
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