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When inserting text into MATLAB figures programmatically using text(x,y,'label'), I often find that the text blocks overlap, making them unreadable. I was wondering if there was any automated way to offset the text blocks so they wouldn't overlap. For instance, if I added 3 labels with top-left alignment at the points (0,0), (0.01,0), and (0.02,0), I'd want them to reposition themselves like:

. . .

whereas currently they look like:

. . .

where the squiggles are unreadable due to the overlap.

If there's not already a way to do this, I could roll my own algorithm/heuristic for the task, but is there a way to query a figure (or the gcf handle) for the bounding boxes of all existing text boxes on it? So then I can call this every time I want to place a label?


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2 Answers 2

up vote 5 down vote accepted

You don't have to do it yourself. A tool which handles text placement was discussed here http://blogs.mathworks.com/pick/2009/01/02/automatic-text-placement/

The direct link to the file exchange is http://www.mathworks.com/matlabcentral/fileexchange/11466

Even if you want to roll-your-own this would be a good place to start.

Hth Darren

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This looks great! I'm looking for a way to place the text nearby a given point, so it's not an out-of-the-box solution, but it is indeed a great place to start. I'll wait to see if someone else knows of a more versatile solution before accepting, but thanks! –  btown Dec 9 '10 at 15:40

Here's a solution I came up with... seems to work OK.

function h = textfit(x,y,txt,varargin)
% textfit(x,y,txt,varargin)
% Mike Lawrence 2011

ythresh = 0.4;  % maximal allowable overlap (includes cell padding accounted for in "extent" property)
xthresh = 0.1;

n = length(x);
if ~iscell(txt), txt={txt}; end
if length(y)~=n || length(txt)~=n, error('length mismatch between x,y,txt'); end

h = text(x,y,txt,varargin{:});

yl=ylim; ytot=diff(yl);
xl=xlim; xtot=diff(xl);

maxtries = 100;
for t=1:maxtries
  ext = nan(n,4);
  for i=1:n, ext(i,:) = get(h(i),'extent'); end
  xstart=ext(:,1); xsz=ext(:,3); xend=xstart+xsz;
  ystart=ext(:,2); ysz=ext(:,4); yend=ystart+ysz;
  overlapx = zeros(n,n);
  overlapy = zeros(n,n);
  for i1=1:n-1, for i2=i1+1:n
    if xstart(i1)<=xend(i2)&xstart(i2)<=xend(i1)
    if ystart(i1)<=yend(i2)&ystart(i2)<=yend(i1)
  overlapmax = max(overlapx,overlapy);
  ov = (overlapx>xthresh & overlapy>ythresh);
  [o1 o2] = find(ov);
  if isempty(o1), break; end
  [tmp ord] = sort(overlapmax(find(ov)));
  o1=o1(ord); o2=o2(ord);
  moved = false(n,1);
  for i=1:length(o1), i1=o1(i); i2=o2(i);
    if moved(i1) || moved(i2), continue; end
    pos1 = get(h(i1),'position');
    pos2 = get(h(i2),'position');
    oy = overlapy(i1,i2)*min(ysz(i1),ysz(i2));
    ox = overlapx(i1,i2)*min(xsz(i1),xsz(i2));
    if oy/ytot < ox/xtot   % overlapy is easier to fix
      shift = 0.5*(1-ythresh)*oy;
      if ystart(i1)<ystart(i2)  % i1 above i2
        pos1(2)=pos1(2)-shift; pos2(2)=pos2(2)+shift;
      else                      % i1 below i2
        pos1(2)=pos1(2)+shift; pos2(2)=pos2(2)-shift;
    else                                 % overlapx is easier to fix
      shift = 0.5*(1-xthresh)*ox;
      if xstart(i1)<xstart(i2)  % i1 left of i2
        pos1(1)=pos1(1)-shift; pos2(1)=pos2(1)+shift;
      else                      % i1 right of i2
        pos1(1)=pos1(1)+shift; pos2(1)=pos2(1)-shift;
    moved([i1 i2]) = true;

if nargout==0, clear h, end
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