How to expand a symbolic matrix expression?

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Lee Jong Hyun
Lee Jong Hyun on 3 Aug 2023
Commented: Dyuman Joshi on 4 Aug 2023
I want to expand all terms in a complex symbolic matrix expression by the distributive law of the expression.
tempa1 = symmatrix('A1',[2 2]);
tempb1 = symmatrix('B1',[2 2]);
tempc1 = symmatrix('C1',[2 2]);
tempd1 = symmatrix('D1',[2 2]);
for nn = 2:5
tempa2 = symmatrix(sprintf('A%d',nn),[2 2]);
tempb2 = symmatrix(sprintf('B%d',nn),[2 2]);
tempc2 = symmatrix(sprintf('C%d',nn),[2 2]);
tempd2 = symmatrix(sprintf('D%d',nn),[2 2]);
tempa = tempa1*tempb2+tempc1*tempd2+tempb1*tempa2+tempd1;
tempb = tempa2*tempb1+tempc2*tempd1+tempb2*tempa1+tempd2;
tempc = tempa1*tempb1+tempc1*tempd1+tempb1*tempa1+tempd2;
tempd = tempa2*tempb2+tempc2*tempd2+tempb2*tempa2+tempd1;
tempa1 = tempa;
tempb1 = tempb;
tempc1 = tempc;
tempd1 = tempd;
end
vec_1 = symmatrix('vec_1',[2 1]);
result = tempa*vec_1;
When the variable result is executed, it is output as a complex matrix expression.
The variable result is a 2 by 2 symbolic matrix, and each element is also returned as a symbolic expression.
However, the information I need is not an element expression, but a string of expressions output when the variable result is executed.
When the variable result is executed, looking at the output result, the variable vec_1 is expressed by multiplying the result of tempa outside the bracket.
I want all the brackets to be solved and each term to be multiplied by vec_1.
A bulti-in function called 'expand' is identified as the most similar function to what I want.
However, this function is not supported for symmatrix input.
To use this function, if you run symmatrix2sym on the variable result, it returns all element representations.
Please, let me know that.
Thank you.
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Lee Jong Hyun
Lee Jong Hyun on 4 Aug 2023
Thank you for your advise.
The reason for using symmatrix is to apply non-commutativity.
Paul
Paul on 4 Aug 2023
Ran in:
Hi Lee Jong Hyun,
I could be wrong, but I don't think you'll be able to easily get the result you're looking for.
But suppose you could, i.e., get an expression for tempa in the form (n = 2)
syms A1 A2 B1 B2 C1 D1 D2 [2 2] matrix
syms vec_1 [2 1] matrix
tempa = A1*B2*vec_1 + B1*A2*vec_1 + C1*D2*vec_1 + D1*vec_1
tempa = 
What whould be the next step in the process? Maybe there's a way to achieve the goal without forming tempa as shown?

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Accepted Answer

Star Strider
Star Strider on 3 Aug 2023
Ran in:
I am not certain what you intend by ‘expand’.
One option could be:
sympref('AbbreviateOutput',false);
that I added, and another the expand function (that does not work here). If you want to see the elements of the matrices, you would need to define their elements, as described in Convert Numeric Matrix to Symbolic Matrix Variable.
sympref('AbbreviateOutput',false);
tempa1 = symmatrix('A1',[2 2]);
tempb1 = symmatrix('B1',[2 2]);
tempc1 = symmatrix('C1',[2 2]);
tempd1 = symmatrix('D1',[2 2]);
for nn = 2:5
tempa2 = symmatrix(sprintf('A%d',nn),[2 2]);
tempb2 = symmatrix(sprintf('B%d',nn),[2 2]);
tempc2 = symmatrix(sprintf('C%d',nn),[2 2]);
tempd2 = symmatrix(sprintf('D%d',nn),[2 2]);
tempa = tempa1*tempb2+tempc1*tempd2+tempb1*tempa2+tempd1;
tempb = tempa2*tempb1+tempc2*tempd1+tempb2*tempa1+tempd2;
tempc = tempa1*tempb1+tempc1*tempd1+tempb1*tempa1+tempd2;
tempd = tempa2*tempb2+tempc2*tempd2+tempb2*tempa2+tempd1;
tempa1 = tempa;
tempb1 = tempb;
tempc1 = tempc;
tempd1 = tempd;
end
vec_1 = symmatrix('vec_1',[2 1]);
result = tempa*vec_1
result = 
.
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Star Strider
Star Strider on 4 Aug 2023
I am not certain how to get that result, since the functions I would normally use do not work on symmatrix expressions.
Dyuman Joshi
Dyuman Joshi on 4 Aug 2023
Ran in:
It might not be possible to get the result OP wants to obtain (as mentioned above) because one can not manipulate the result obtained from the code.
These are the all functions that accept symbolic matrix variables as input, the only functions that manipulates an expression are formula and displayFormula, both of which give the same output.
methods symmatrix
Methods for class symmatrix: adjoint csc disp exp isempty latex minus ne pretty size tan uplus cat ctranspose display formula isequal ldivide mldivide norm rdivide subs times vertcat conj curl divergence gradient isequaln length mpower numel rhs sym trace vpa cos det double horzcat kron lhs mrdivide plus sec symmatrix transpose cot diff eq inv laplacian log mtimes power sin symmatrix2sym uminus Static methods: empty

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