Given a positive, scalar integer n, create a (2^n)-by-n double-precision matrix containing the binary numbers from 0 through 2^n-1. Each row of the matrix represents one binary number. For example, if n = 3, then your code could return
>> binary_numbers(3)
ans =
1 1 1
0 0 0
0 1 1
0 1 0
0 0 1
1 0 0
1 1 0
1 0 1The order of the rows does not matter.
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matlab functions should not be allowed. Let people think of the solution from scratch.
I actually use a function to do this in my project, but my original code scored 47.
I had all the test cases working properly except for n=10!
This is very weird!!
what's meaning?
when n = 3;
A = binary_numbers(n);
assert(all(A(:) == 0 | A(:) == 1))
fun!
Very fun problem!
More difficult than I expected!
There was a guy who solved this problem with around 11k code size. Absolute madlad.
Fun exercise!
difficult that I intended it to be.
Wait until you see the guy who solved it with a +41k code size.