A designer in 3D graphics company wants to design a matrix as a two-dimensional array. The size of 2D array is 44 . Initially he creates a class matrix that provides the member function to check that no array index is out of bounds. Make the member data in the matrix class a 10-by-10 array. A constructor should allow the programmer to specify the actual dimensions of the matrix (provided they’re less than 10 by 10). The member functions that access data in the matrix will now need two index numbers: one for each dimension of the array. Here’s what a fragment of a main() program that operates on such a class might look like: If my Arid Number is 20-Arid-744 then: // in case of zero consider next digit matrix m1(4, 4); // define a matrix object int temp = 12345; // define an int value m1.putel(7, 4, temp); // insert value of temp into matrix at 7,4 temp = m1.getel(7, 4); // obtain value from matrix at 7,4
A designer in 3D graphics company wants to design a matrix as a two-dimensional array. The size of 2D array is 44 . Initially he creates a class matrix that provides the member function to check that no array index is out of bounds. Make the member data in the matrix class a 10-by-10 array. A constructor should allow the programmer to specify the actual dimensions of the matrix (provided they’re less than 10 by 10). The member functions that access data in the matrix will now need two index numbers: one for each dimension of the array. Here’s what a fragment of a main()
If my Arid Number is 20-Arid-744 then: // in case of zero consider next digit
matrix m1(4, 4); // define a matrix object
int temp = 12345; // define an int value
m1.putel(7, 4, temp); // insert value of temp into matrix at 7,4
temp = m1.getel(7, 4); // obtain value from matrix at 7,4
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