vector index of consecutive gap (NaN) lengths?

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tom
tom on 27 Jun 2012
Hi
For a vector A with random, sometime consecutive gaps of NaN, I want to develop a vector B of same length A that will indicate the length of local consecutive gaps for every value in A. B would have zeros for non-NaN locations in A.
so for
A = [2 4 NaN 7 9 NaN NaN NaN 32 NaN NaN 8];
I'd get
B = [0 0 1 0 0 3 3 3 0 2 2 0];
Ideas? Speed is always a virtue.
Thanks!
Tom

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Accepted Answer

Sean de Wolski
Sean de Wolski on 27 Jun 2012
And if you like Ryan's idea but don't like bwlabel because it's evil:
A = [2 4 NaN 7 9 NaN NaN NaN 32 NaN NaN 8];
CC= bwconncomp(isnan(A));
n = cellfun('prodofsize',CC.PixelIdxList);
b = zeros(size(A));
for ii = 1:CC.NumObjects
b(CC.PixelIdxList{ii}) = n(ii);
end
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Sean de Wolski
Sean de Wolski on 27 Jun 2012
BWCONNCOMP makes BWLABEL irrelevant for everything except LABEL2RGB! For that you have LABELMATRIX to convert from the output of BWCONNCOMP.
Anyway, yes, CC.PixelIdxList contains the indices you need to do most matrix manipulations easily and can be fed directly to REGIONPROPS, all while being faster!
tom
tom on 28 Jun 2012
Thanks Sean, this works great, even with NaNs at edges. -Tom

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More Answers (3)

Ryan
Ryan on 27 Jun 2012
Thomas' answer is faster, but here is my go:
A = [2 4 NaN 7 9 NaN NaN NaN 32 NaN NaN 8];
idx = isnan(A);
[B n]= bwlabel(idx);
C = B;
prop = regionprops(idx,'Area');
area = cat(1,prop.Area);
for ii = 1:n
B(C == ii) = area(ii);
end
B
Andrei Bobrov
Andrei Bobrov on 28 Jun 2012
Edited: Andrei Bobrov on 30 Jun 2012
A = [2 4 NaN 7 9 NaN NaN NaN 32 NaN NaN 8];
a = isnan(A);
t1 = find([true, diff(a)~=0]);
N = diff(t1);
out = zeros(size(A));
V = regionprops(a,'PixelIdxList');
out(cat(1,V.PixelIdxList)) = cell2mat(arrayfun(@(x)x*ones(x,1),N(a(t1))','un',0));
OR
A = [2 4 NaN 7 9 NaN NaN NaN 32 NaN NaN 8];
a = isnan(A);
n1 = regionprops(a,'Area');
out = a + 0;
out(a) = cell2mat(arrayfun(@(x)x*ones(1,x),[n1.Area],'un',0));
ADD variant
a = isnan(A);
t = [true,diff(a)~=0];
k = diff(find([t,true]));
k2 = k.*a(t);
out = k2(cumsum(t));
Thomas
Thomas on 27 Jun 2012
A very crude way.. pretty sure can be done better...
A = [2 4 NaN 7 9 NaN NaN NaN 32 NaN NaN 8];
A(~isnan(A))=0;
A(isnan(A))=1;
c=diff(A);
start=find(c==1)+1;
stop=find(c==-1)+1;
out=stop-start;
for ii=1:length(out)
A(start(ii):(stop(ii)-1))=out(ii);
end
A
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tom
tom on 29 Jun 2012
This still doesn't work if A(1)=NaN; Thanks for continuing to work on it!
Thomas
Thomas on 29 Jun 2012
another iteration here NaN can be first,last or anywhere in the middle.. 'hopefully'
A = [NaN 4 NaN 7 9 NaN NaN NaN 32 NaN NaN 8];
A(~isnan(A))=0;
A(isnan(A))=1;
c=diff(A);
start=find(c==1)+1;
stop=find(c==-1)+1;
if length(stop)<length(start)
stop=[stop start(end)+1];
end
if length(start)<length(stop)
start=[start(1)-1 start];
end
out=stop-start;
for ii=1:length(out)
A(start(ii):(stop(ii)-1))=out(ii);
end
A

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