Test | Status | Code Input and Output |
---|---|---|
1 | Pass |
%%
a = [1 2 1 15];
b = 1;
assert(isequal(most_change(a),b))
a =
0.6000
b =
1
|
2 | Pass |
%%
a = [ 1 2 1 15;
0 8 5 9];
b = 2;
assert(isequal(most_change(a),b))
a =
0.6000 0.9900
b =
2
|
3 | Pass |
%%
a = [ 1 22 1 15;
12 3 13 7;
10 8 23 99];
b = 3;
assert(isequal(most_change(a),b))
a =
1.6000 4.5200 6.1900
b =
3
|
4 | Pass |
%%
a = [ 1 0 0 0; 0 0 0 24];
b = 1;
assert(isequal(most_change(a),b))
a =
0.2500 0.2400
b =
1
|
5 | Pass |
%%
a = [ 0 1 2 1; 0 2 1 1];
c = 1;
assert(isequal(most_change(a),c))
a =
0.2600 0.2100
b =
1
|
6 | Pass |
%%
% There is a lot of confusion about this problem. Watch this.
a = [0 1 0 0; 0 0 1 0];
c = 2;
assert(isequal(most_change(a),c))
% Now go back and read the problem description carefully.
a =
0.0500 0.1000
b =
2
|
7 | Pass |
%%
a = [ 2 1 1 1;
1 2 1 1;
1 1 2 1;
1 1 1 2;
4 0 0 0];
c = 5;
assert(isequal(most_change(a),c))
a =
0.6600 0.4600 0.5100 0.4200 1.0000
b =
5
|
404 Solvers
Sum of diagonal of a square matrix
1327 Solvers
Return elements unique to either input
550 Solvers
725 Solvers
260 Solvers
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