colobot/test/unit/math/gendata.m

% Script in Octave for generating test data

1;

% Returns the minor matrix
function m = minor(A, r, c)

  m = A;
  m(r,:) = [];
  m(:,c) = [];

end;

% Returns the cofactor matrix
function m = cofactors(A)

  m = zeros(rows(A), columns(A));

  for r = [1 : rows(A)]
    for c = [1 : columns(A)]
      m(r, c) = det(minor(A, r, c));
      if (mod(r + c, 2) == 1)
        m(r, c) = -m(r, c);
      end;
    end;
  end;

end;

% Prints the matrix as C++ code
function printout(A, name)

  printf('const float %s[16] = \n', name);
  printf('{\n');

  for c = [1 : columns(A)]
    for r = [1 : rows(A)]
      printf('  %f', A(r,c));
      if (! ( (r == 4) && (c == 4) ) )
        printf(',');
      end;
      printf('\n');
    end;
  end;

  printf('};\n');

end;

printf('// Cofactors\n');
A = randn(4,4);
printout(A, 'COF_MAT');
printf('\n');
printout(cofactors(A), 'COF_RESULT');
printf('\n');

printf('\n');

printf('// Det\n');
A = randn(4,4);
printout(A, 'DET_MAT');
printf('\n');
printf('const float DET_RESULT = %f;', det(A));
printf('\n');

printf('\n');

printf('// Invert\n');
A = randn(4,4);
printout(A, 'INV_MAT');
printf('\n');
printout(inv(A), 'COF_RESULT');
printf('\n');

printf('\n');

printf('// Multiplication\n');
A = randn(4,4);
printout(A, 'MUL_A');
printf('\n');
B = randn(4,4);
printout(B, 'MUL_B');
printf('\n');
C = A * B;
printout(C, 'MUL_RESULT');
printf('\n');
Structs continued 2012-04-29 21:21:35 +00:00			`% Script in Octave for generating test data`

			`1;`

			`% Returns the minor matrix`
			`function m = minor(A, r, c)`

			`m = A;`
			`m(r,:) = [];`
			`m(:,c) = [];`

			`end;`

			`% Returns the cofactor matrix`
			`function m = cofactors(A)`

			`m = zeros(rows(A), columns(A));`

			`for r = [1 : rows(A)]`
			`for c = [1 : columns(A)]`
			`m(r, c) = det(minor(A, r, c));`
			`if (mod(r + c, 2) == 1)`
			`m(r, c) = -m(r, c);`
			`end;`
			`end;`
			`end;`

			`end;`

			`% Prints the matrix as C++ code`
			`function printout(A, name)`

			`printf('const float %s[16] = \n', name);`
			`printf('{\n');`

			`for c = [1 : columns(A)]`
			`for r = [1 : rows(A)]`
			`printf(' %f', A(r,c));`
			`if (! ( (r == 4) && (c == 4) ) )`
			`printf(',');`
			`end;`
			`printf('\n');`
			`end;`
			`end;`

			`printf('};\n');`

			`end;`

			`printf('// Cofactors\n');`
			`A = randn(4,4);`
			`printout(A, 'COF_MAT');`
			`printf('\n');`
			`printout(cofactors(A), 'COF_RESULT');`
			`printf('\n');`

			`printf('\n');`

			`printf('// Det\n');`
			`A = randn(4,4);`
			`printout(A, 'DET_MAT');`
			`printf('\n');`
			`printf('const float DET_RESULT = %f;', det(A));`
			`printf('\n');`

			`printf('\n');`

			`printf('// Invert\n');`
			`A = randn(4,4);`
			`printout(A, 'INV_MAT');`
			`printf('\n');`
			`printout(inv(A), 'COF_RESULT');`
			`printf('\n');`

			`printf('\n');`

			`printf('// Multiplication\n');`
			`A = randn(4,4);`
			`printout(A, 'MUL_A');`
			`printf('\n');`
			`B = randn(4,4);`
			`printout(B, 'MUL_B');`
			`printf('\n');`
			`C = A * B;`
			`printout(C, 'MUL_RESULT');`
			`printf('\n');`