Adding uneven matrices

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Hey guys,

is there a method(aka function) by which I can add two matrices that aren't the same size and make it so that the matrices become of equivalent size by being filled with zeros in the remaining space?

Thanks

[Merged information from Answer]

It would be like ..

a=ones(150,91)*2

b=ones(141,100)*3

a+b

So, is there a way to make the matrices even but filling them with zeros? (adding 0 more rows to b, and 9 more columns to a of value=0) ...

Thanks!

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Andrei Bobrov le 6 Mar 2012

please get the your example

Walter Roberson le 6 Mar 2012

There are over 100,000 different possible results for that calculation. You need to be very specific about which elements are to be added to which elements.

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Answer 1

Jan le 6 Mar 2012

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a = ones(150,91)*2
b = ones(141,100)*3
c = AddFill(a, b);
function c = AddFill(a, b);
sa = size(a);
sb = size(b);
c = zeros(max(sa, sb));   % Pre-allocate
c(1:sa(1), 1:sa(2)) = a;  % Assign a
c(1:sb(1), 1:sb(2)) = c(1:sb(1), 1:sb(2)) + b;  % Add b

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Ismail Qeshta le 14 Fév 2018

Hi Jan. Can you please let me know how to modify your code for three unequal matrices instead of two? Thank you.

Walter Roberson le 14 Fév 2018

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function d = AddFill(a, b, c);
sa = size(a);
sb = size(b);
sc = size(c);
d = zeros(max([sa; sb; sc]));   % Pre-allocate
d(1:sa(1), 1:sa(2)) = a;  % Assign a
d(1:sb(1), 1:sb(2)) = d(1:sb(1), 1:sb(2)) + b;  % Add b
d(1:sc(1), 1:sc(2)) = d(1:sc(1), 1:sc(2)) + c;  % Add c

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Answer 2

Andrei Bobrov le 6 Mar 2012

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variant (one of 100000) :)

function out = addiffmatrix(varargin)
n = cellfun('ndims',varargin);
N = max(n);
sz = cell2mat(cellfun(@(x)[size(x) ones(1,N - numel(size(x)))],varargin(:),'un',0));
mm = arrayfun(@(i1)1:i1,sz,'un',0);
m1 = zeros(max(sz));
out = m1;
M = m1;
for j1 = 1:numel(varargin)
  M(mm{j1,:}) = varargin{j1};
  out = out + M;
  M = m1;
end

using

a = ones(3,4)
b = 2*ones(5,3)
out = addiffmatrix(a,b)
out =
     3     3     3     1
     3     3     3     1
     3     3     3     1
     2     2     2     0
     2     2     2     0

ADD

variant with "general point"

function out = addiffmatrix(cp,varargin)
% cp - coordinates of the  general point in every matrix
% varargin - matrices
n = cellfun('ndims',varargin);
N = max(n);
sz = cell2mat(cellfun(@(x)[size(x) ones(1,N - numel(size(x)))],...
                                                           varargin(:),'un',0));
C = max(cp);
ij1 = bsxfun(@minus,C,cp);
mm = arrayfun(@(i1,j1)(1:i1)+j1,sz,ij1,'un',0);
out = zeros(C+max(sz-cp));
for j1 = 1:numel(varargin)
    out(mm{j1,:}) = out(mm{j1,:}) + varargin{j1};
end

using

>> a
a =
     1     1     1     1
     1     1     1     1
>> b
b =
          1.5          1.5          1.5
          1.5          1.5          1.5
          1.5          1.5          1.5
>> c
c =
     2     2
     2     2
     2     2
     2     2
     2     2
>> cp
cp =
     1     1
     1     3
     5     2
>> out = addiffmatrix(cp,a,b,c)
out =
            0            2            2            0            0            0
            0            2            2            0            0            0
            0            2            2            0            0            0
            0            2            2            0            0            0
          1.5          3.5          4.5            1            1            1
          1.5          1.5          2.5            1            1            1
          1.5          1.5          1.5            0            0            0
>>

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