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Continuing with my matrix multiplication question, I want to show the following expression in explicit viewable form in mma:

the form I want to show in mma

Even if in the case I give a11, ..., b11, ... explicit numbers, I still want it to be (0&&1)||(1&&1) in unevaluated form. Can anyone please help?

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up vote 2 down vote accepted

I don't think this is a really good idea (overloading internal functions and all; and && is And not BitAnd, which you wanted to use in the previous question), but you asked for it and you get it:

CircleTimes[a_?MatrixQ, b_?MatrixQ] := 
 Inner[HoldForm[BitAnd[##]] &, a, b, HoldForm[BitOr[##]] &]

BitAnd /: Format[BitAnd[a_, b_]] := a && b;
BitOr /: Format[BitOr[a_, b_]] := a || b;

mat1 = Array[Subscript[a, #1, #2] &, {2, 2}];
mat2 = Array[Subscript[b, #1, #2] &, {2, 2}];

output of newly defined CircleTimes

The advantage of defining the operation as CircleTimes is that you get the CircleTimes symbol and operator for free.

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One way to achieve this is to define your own matrix wrapper. The wrapper approach has the advantage that you can overload as many built-in functions as you like without impacting any other functionality.

Let's start by defining a wrapper called myMatrix that displays itself using MatrixForm:

Format[myMatrix[m_]] ^:= MatrixForm[m]

Next, we'll overload the Times operator when it acts on myMatrix:

myMatrix[m1_] myMatrix[m2_] ^:= myMatrix[Inner[And, m1, m2, Or]]

Note that both definitions use ^:= to attach the rules to myMatrix as up-values. This is crucial to ensure that the regular built-in definitions are otherwise unaffected.

Armed with these definitions, we can now achieve the desired goal. To demonstrate, let's define two matrices:

m1 = myMatrix[Array[Subscript[a, Row[{##}]]&, {2, 2}]]

mathematica output

m2 = myMatrix[Array[Subscript[b, Row[{##}]]&, {2, 2}]]

mathematica output

The requested "explicitly viewable form" can now be generated thus:

Row[{m1, m2}] == m1 m2

mathematica output

... or, if you prefer to reference Times explicitly on the left-hand side of the equation:

With[{m1 = m1, m2 = m2}, HoldForm[m1 m2] == m1 m2]

mathematica output

Next, we'll assign random boolean values to each of the matrix elements:

Evaluate[First /@ {m1, m2}] = RandomInteger[1, {2, 2, 2}];

... and then generate the explicitly viewable form once again with the assignments in place:

With[{m1 = m1, m2 = m2}, HoldForm[m1 m2] == m1 m2]

mathematica output

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Inner[And, Array[Subscript[a, ##] &, {2, 2}], 
  Array[Subscript[b, ##] &, {2, 2}], Or] // MatrixForm

enter image description here

Edit. Having followed up on your previous question, I think you might consider

Inner[HoldForm[And[##]] &, amat, 
  bmat, HoldForm[Or[##]] &] // MatrixForm

enter image description here

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(0&&1)||(1&&1) does not evaluate, so I do not see the problem. For True and False have you tried using HoldForm?

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