nested cell array into single cell array

26 Dec 2021
1 Answer
Answer Accepted
Updated 5 Jan 2022
7 Views (30 days)

0 votes

A={<1x1 cell> <1x3 cell> 4 <1x4 cell> }
<1x1>= A{1, 1}{1, 1}{1, 1} <1x3 double> =[2 3 4]
<1x3>= A{1, 2}{1, 1} <0x0 double> = [ ]
A{1, 2}{1, 2} <1x2 double> = [ 3 4]
A{1, 2}{1, 3}{1, 1} <0x0 double> =[ ] A{1, 2}{1, 3}{1, 2} <1x3 double> =[3 8 13]
4= A{1, 3} <1x1 double> = [4]
<1x4>= A{1, 4}{1, 1} <1x2 double> = [9 4]
A{1, 7}{1, 2}{1, 1} <0x0 double> =[ ]
A{1, 7}{1, 2}{1, 2} <1x3 double> =[ 9 8 13 ]
A{1, 7}{1, 3} <0x0 cell> = [ ]
A{1, 7}{1, 4}{1, 1} <1x3 double> = [ 9 14 13 ] A{1, 7}{1, 4}{1, 2} <1x3 double> =[ 9 14 19 ]
and based on the output given above, i want my final answer to look like this:
B={ [2 3 4] [3 4; 3 8 13] [4] [9 4 ; 9 8 13 ; 9 14 13 ; 9 14 19] }
I hope my question is understandable
Thanks in advance

4 Comments
Show 2 older comments Hide 2 older comments

Voss
Voss on 26 Dec 2021
Try to create this matrix and see what happens:
[3 4; 3 8 13]
Mausmi Verma
Mausmi Verma on 27 Dec 2021
Thank you Benjamin for reply, and i got your point.
can i still get the desired output by the help of zero padding for matching the dimension
Mausmi Verma
Mausmi Verma on 27 Dec 2021
@Image Analyst thank you for pointing out that but its exactly not the same because the pattern of the desired output is a bit different

Sign in to comment.

Sign in to answer this question.

 Accepted Answer

Voss
Voss on 27 Dec 2021
Edited: Voss on 30 Dec 2021
Ran in:

1 vote

Ran in:
As far as I can tell, the variable A has this structure (I'm going to assume those 7's in the question should actually be 4's):
A = { ...
{{[2 3 4]}} ...
{[] [3 4] {[] [3 8 13]}} ...
4 ...
{[9 4] {[] [9 8 13]} [] {[9 14 13] [9 14 19]}} ...
};
To verify each entry (and leaving in redundant row index "1," throughout, for consistency with the notation in the question):
format('compact');
A{1,1}
ans = 1×1 cell array {1×1 cell}
A{1,1}{1,1}
ans = 1×1 cell array {[2 3 4]}
A{1,1}{1,1}{1,1}
ans = 1×3
2 3 4
A{1,2}
ans = 1×3 cell array {0×0 double} {[3 4]} {1×2 cell}
A{1,2}{1,1}
ans = []
A{1,2}{1,2}
ans = 1×2
3 4
A{1,2}{1,3}
ans = 1×2 cell array {0×0 double} {[3 8 13]}
A{1,2}{1,3}{1,1}
ans = []
A{1,2}{1,3}{1,2}
ans = 1×3
3 8 13
A{1,3}
ans = 4
A{1,4}
ans = 1×4 cell array {[9 4]} {1×2 cell} {0×0 double} {1×2 cell}
A{1,4}{1,1}
ans = 1×2
9 4
A{1,4}{1,2}
ans = 1×2 cell array {0×0 double} {[9 8 13]}
A{1,4}{1,2}{1,1}
ans = []
A{1,4}{1,2}{1,2}
ans = 1×3
9 8 13
A{1,4}{1,3}
ans = []
A{1,4}{1,4}
ans = 1×2 cell array {[9 14 13]} {[9 14 19]}
A{1,4}{1,4}{1,1}
ans = 1×3
9 14 13
A{1,4}{1,4}{1,2}
ans = 1×3
9 14 19
Below is a function you can use to do what you want. You can call it like this to get the B you want from the A you have:
B = cell(size(A));
for i = 1:numel(A)
B{i} = build_matrix(A{i});
end
display(B)
B = 1×4 cell array {[2 3 4]} {2×3 double} {[4]} {4×3 double}
B{:}
ans = 1×3
2 3 4
ans = 2×3
3 4 0 3 8 13
ans = 4
ans = 4×3
9 4 0 9 8 13 9 14 13 9 14 19
function M = build_matrix(C,M)
if nargin < 2
M = [];
end
if iscell(C)
for i = 1:numel(C)
M = build_matrix(C{i},M);
end
elseif ~isempty(C)
if ~isempty(M)
sC = size(C,2);
sM = size(M,2);
if sM < sC
M(:,end+1:sC) = 0;
elseif sM > sC
C(:,end+1:sM) = 0;
end
end
M = [M; C];
end
end
% function M = build_matrix(C,M)
% if nargin < 2
% M = [];
% end
% if iscell(C)
% for i = 1:numel(C)
% M = build_matrix(C{i},M);
% end
% else
% if ~isempty(M) && size(M,2) ~= size(C,2)
% M(:,end+1:size(C,2)) = 0;
% end
% M = [M; C];
% end
% end

4 Comments
Show 2 older comments Hide 2 older comments

Mausmi Verma
Mausmi Verma on 30 Dec 2021
Thanks a lot for ur help
Voss
Voss on 30 Dec 2021
No problem. By the way, I edited my answer to make an update to the function, which is to handle the situation where a shorter numeric array comes later in the 'parent' cell array than a longer numeric array, e.g., if A was like this:
A = { ...
{{[2 3 4]}} ...
{[] [3 8 13] {[] [3 4]}} ...
4 ...
{[9 8 13] {[] [9 4]} [] {[9 14 13] [9 14 19]}} ...
};
The old version worked for the original A you posted, but it would've had an error with this A. The new version handles this A and the original A properly. (The old version is still there commented-out, for reference.)
Mausmi Verma
Mausmi Verma on 5 Jan 2022
Thanks benjamin for ur support,
after applying the way mentioned above in my work i am getting my answer as:
[1,2] 2 [3,2,0;3,8,13] [4,3,2] [5,10,15] [6,1,2;6,7,2] [7,2,0;7,8,13;7,12,13] [8,3,2;8,7,2;8,13,0] <4x3 double>
[10,15] [11,12,13] [12,7,2;12,13,0;12,17,22] 13 [14,13;14,15] 15 [16,17,22;16,21,22] [17,12,13;17,18,13;17,22,0] [18,13,0;18,17,22;18,23,22] <4x3 double>
[20,15] [21,22] 22 [23,18,13;23,22,0] [24,23,22] [25,20,15]
where, <4x3 double> =
9 8 13
9 10 15
9 14 13
9 14 15
now here i have stuck with my further work as i want my answer to be like,
in place of <4x3> i want answer to be seen as [9,8,13;9,10,15;9,14,13;9,14,15]
and same goes for other <4x3 double> as [19,14,13; 19,14,15;19,18,13;19,20,15]
so finally i want my answer to look like this,
[1,2] 2 [3,2,0;3,8,13] [4,3,2] [5,10,15] [6,1,2;6,7,2] [7,2,0;7,8,13;7,12,13] [8,3,2;8,7,2;8,13,0] [9,8,13;9,10,15;9,14,13;9,14,15] [10,15] [11,12,13] [12,7,2;12,13,0;12,17,22] 13 [14,13;14,15] 15 [16,17,22;16,21,22] [17,12,13;17,18,13;17,22,0] [18,13,0;18,17,22;18,23,22] [19,14,13; 19,14,15;19,18,13;19,20,15] [20,15] [21,22] 22 [23,18,13;23,22,0] [24,23,22] [25,20,15]
Voss
Voss on 5 Jan 2022
Looks like that's just how MATLAB prints it to the command line, not a difference between the answer you get and the answer you want.

Sign in to comment.

More Answers (0)

Categories

Find more on Matrix Indexing in Help Center and File Exchange

Tags

Asked:

Mausmi Verma
Mausmi Verma
on 26 Dec 2021

Commented:

Voss
Voss
on 5 Jan 2022

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!