# semantics of generating symmetric matrices in numpy

I tried to make a random symmetric matrix to test my program. I don't care about the data at all as long as it is symmetric (sufficient randomness is no concern at all).

``````x=np.random.random((100,100))
x+=x.T
``````

However, `np.all(x==x.T)` returns False. `print x==x.T` yields

``````array([[ True,  True,  True, ..., False, False, False],
[ True,  True,  True, ..., False, False, False],
[ True,  True,  True, ..., False, False, False],
...,
[False, False, False, ...,  True,  True,  True],
[False, False, False, ...,  True,  True,  True],
[False, False, False, ...,  True,  True,  True]], dtype=bool)
``````

I tried to run a small test example with n=10 to see what was going on, but that example works just as you would expect it to.

If I do it like this instead:

``````x=np.random.random((100,100))
x=x+x.T
``````

then it works just fine.

What's going on here? Aren't these statements semantically equivalent? What's the difference?

-

Those statements aren't semantically equivalent. `x.T` returns a view of the original array. in the `+=` case, you're actually changing the values of `x` as you iterate over it (which changes the values of `x.T`).

Think of it this way ... When your algorithm gets to index `(3,4)`, it looks something like this in pseudocode:

``````x[3,4] = x[3,4] + x[4,3]
``````

now, when your iteration gets to `(4,3)`, you do

``````x[4,3] = x[4,3] + x[3,4]
``````

but, `x[3,4]` is not what it was when you started iterating.

In the second case, you actually create a new (empty) array and change the elements in the empty array (never writing to `x`). So the pseudocode looks something like:

``````y[3,4] = x[3,4] + x[4,3]
``````

and

``````y[4,3] = x[4,3] + x[3,4]
``````

which obviously will give you a symmetric matrix (`y`.

-
That makes sense. But it seems like a poor choice of semantics that `x+=<exp>` would ever be different than `x=x+<exp>`. –  aestrivex Jun 13 '13 at 15:55
@aestrivex, `x += <exp>` would work as long as `exp` did not read the memory location that was being written to by `x +=` part. It is the same reason why `memmove()` exists in C (and `memcpy()` has undefined behavior when memory regions overlap). If you still want to use `+=`, you can do `x += x.T.copy()`. –  Alok Singhal Jun 13 '13 at 16:19
@aestrivex -- Actually, my highest upvoted question of all time is explaining the difference between `x += something` and `x = x + something`. –  mgilson Jun 13 '13 at 17:12
Huh, interesting. I had never heard of `__iadd__` before. Thanks! –  aestrivex Jun 13 '13 at 19:11