How to add the recent value of a variable to the end of the name of another variable as a suffix?

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sara na
sara na on 20 Apr 2015
Edited: Stephen23 on 25 Jun 2019
I wrote a program in which there are 1000 rounds, and in some rounds under especial circumstances we need to generate a new variable. For example a zeros (2,2). But I need to generate each of these new variables like that:
If my especial circumstances satisfy the program for the first time, the program has to name my new variable: OMICRON_1
If my especial circumstances satisfy it for the second time the program has to name my new variable: OMICRON_2
And so on.
Thus in such way I can recognize how many times my especial circumstances have been satisfied and I can have all of that matrices in my work space. In other words I need to add the current value of a variable like “n” as a suffix to the end of the name of my new variable and for the next time if my especial circumstances satisfy we will have
n=n+1;

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Accepted Answer

Stephen23
Stephen23 on 20 Apr 2015
Edited: Stephen23 on 25 Jun 2019
  2 Comments
sara na
sara na on 20 Apr 2015
Thanks a lot !!!
Actually I solved my problem using a "structure". In this program I've used a structure and its fields many times. But about the recent problem I was completely confused whether to use one or not! Using this link: http://matlab.wikia.com/wiki/FAQ#How_can_I_create_variables_A1.2C_A2.2C....2CA10_in_a_loop.3F
I wrote these codes:
n=1;
>> omicron.(sprintf('omicron%d', n))=n*ones(2,2);
>> n=n+1;
>> omicron.(sprintf('omicron%d', n))=n*ones(2,2);
>> n=n+1;
>> omicron.(sprintf('omicron%d', n))=n*ones(2,2);
>> omicronn=[4 5 6 7];
>> omicron.(sprintf('omicron%d', n))=omicron.(sprintf('omicron%d', n))+omicronn;
It is basically what I needed , and now I can easily work on the results.
Thank you very much!
Stephen23
Stephen23 on 20 Apr 2015
Nice work! You might also be interested in using a non-scalar structure, which would be even simpler to use!. For each index n you simply do this:
omicron(n).data = ...
It is a very convenient way to store data, and lets you do neat things like putting all of the field-values into a cell array like this:
{omicron.data}
(read that link to know more, and also about <http://www.mathworks.com/help/matlab/matlab_prog/comma-separated-lists.html comma-separated lists).

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More Answers (1)

pfb
pfb on 20 Apr 2015
I think this can be done through the function "eval".
However, your strategy seems impractical. Why don't you add a dimension? That is, use a "tensor"?
OMICRON(:,:,j);
If you have an idea of the max number of matrices you can possibly generate (N), you can preallocate that
OMICRON=zeros(2,2,N);
and fill as above
  2 Comments
sara na
sara na on 20 Apr 2015
Edited: sara na on 20 Apr 2015
I work with random variables and I don't have any idea about how many "omicron"s I will finally have.
As a matter of fact I prefer to have all the resulted omicron from omicron_1 to omicron_n separately in my work space.
Actually it's a good idea to use a three dimension matrix but it's impossible because I don't have any idea about how many times my circumstances will be satisfy
If you have still any idea about how I can use "eval" function or any other one to write a code don't hesitate to say them to me. Thank you
pfb
pfb on 20 Apr 2015
if you do not know the dimension in advance you can keep adding new matrices at the "bottom" of the tensor.
Preallocating helps with memory management, and in general it is a good practice. But sometimes one simply has no idea, and does not preallocate.

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