Scilab symbolic matrix multiplication

I have 3 matrix:

``````T_01 = ['cosd*t1', '-sind*t1', '0', 'd1*cosd*t1'; 'sind*t1', 'cosd*t1', '0', 'd1*sind*t1'; '0', '1', '1', '0'; '0', '0', '0', '1']

T_12 = ['cosd*t2', '-sind*t2', '0', 'd2*cosd*t2'; 'sind*t2', 'cosd*t2', '0', 'd2*sind*t2'; '0', '1', '1', '0'; '0', '0', '0', '1']

T_23 = ['cosd*t3', '-sind*t3', '0', 'd3*cosd*t3'; 'sind*t3', 'cosd*t3', '0', 'd3*sind*t3'; '0', '1', '1', '0'; '0', '0', '0', '1']
``````

I need to make a symbolic multiplication, so I'm trying:

``````mulf(T_01,T_12,T_23)
``````

But I get this error:

``````                     !--error 39
``````

What is happening?

Obs.: Sorry for my english.

• The `mulf` function only takes 2 arguments. Since multiplications is associative, i.e. abc = a*(b*c), you could try `mulf(T_01, mulf(T_12, T_23))`. Then again, you'll get another error, because a matrix cannot be an input of this function. What exactly do you want to do? Can you clarify? Maybe you can tell us what is the result you expected to get. – luispauloml Oct 21 '17 at 23:49

If what you want is to get the symbolic multiplication of two matrix, you'll have to implement such function. Here I've implemented three functions that together can perform what you want:

``````function s = scaProd(a,b)
//escalar product of two vectors
//using recursion

if (a == [] | b == []) then
s = ""

elseif (max(size(a)) ~= max(size(b))) | ...
(min(size(a)) ~= min(size(b))) | ...
(min(size(a)) ~= 1) then
error("vectorMulf: Wrong dimensions")

else
s = addf( mulf(a(1), b(1)) , scaProd(a(2:\$), b(2:\$)) )

end
endfunction

function s = matrixMulf(a,b)
//matrix multiplication

acols = size(a,'c');
brows = size(b,'r');
if acols ~= brows then
error("matrixMulf: Wrong dimensions")
end

arows = size(a,'r');
bcols = size(b,'c');
s = string(zeros(arows,bcols));

for i = 1 : arows
for j = 1 : bcols
s(i,j) = scaProd(a(i,:),b(:,j)');
end
end
endfunction

//encolses each element of a in a pair of parenthesis
s = string(zeros(a));

for i = 1 : size(a,'r')
for j = 1 : size(a,'c')
s(i,j) = "(" + a(i,j) + ")"
end
end
endfunction
``````

Here is an example of it's output. Test code:

``````A = [1 2; 3 4];
B = [5 6; 7 8];
C = [9 0; 1 2];
disp(A*B*C)
As = string(A);
Bs = string(B);
Cs = string(C);
``````

Console output:

``````   193.   44.
437.   100.

!1*(5*9+6*1)+2*(7*9+8*1)  1*(5*0+6*2)+2*(7*0+8*2)  !
!                                                  !
!3*(5*9+6*1)+4*(7*9+8*1)  3*(5*0+6*2)+4*(7*0+8*2)  !
``````

For the result you want, you should do:

1. Enclose every term of each of your matrices with parenthesis using `addP()`
2. Perform the symbolic multiplication like `matrixMulf(t1,addP(matrixMulf(t2,t3)))`, where `t1`, `t2`, `t3` are the enclosed versions of your matrices.

And two final notes:

• It is important to use `addP` at each multiplication step to get the correct result. You can check that by removing the `(` and `)` in the example I gave: the result won't be correct.
• The functions `mulf` and `addf` are not available on Scilab 6.0.0. So remember you won't be able to use them if you upgrade your Scilab to the current stable version.