[Numpy-discussion] Moving forward with value based casting

Wed Jun 12 13:55:15 EDT 2019

On Wed, 2019-06-05 at 15:41 -0500, Sebastian Berg wrote:
> Hi all,
> 
> TL;DR:
> 
> Value based promotion seems complex both for users and ufunc-
> dispatching/promotion logic. Is there any way we can move forward
> here,
> and if we do, could we just risk some possible (maybe not-existing)
> corner cases to break early to get on the way?
> 

Hi all,

just to note. I think I will go forward trying to fill the hole in the
hierarchy with a non-existing uint7 dtype. That seemed like it may be
ugly, but if it does not escalate too much, it is probably fairly
straight forward. And it would allow to simplify dispatching without
any logic change at all. After that we could still decide to change the
logic.

Best,

Sebastian

> -----------
> 
> Currently when you write code such as:
> 
> arr = np.array([1, 43, 23], dtype=np.uint16)
> res = arr + 1
> 
> Numpy uses fairly sophisticated logic to decide that `1` can be
> represented as a uint16, and thus for all unary functions (and most
> others as well), the output will have a `res.dtype` of uint16.
> 
> Similar logic also exists for floating point types, where a lower
> precision floating point can be used:
> 
> arr = np.array([1, 43, 23], dtype=np.float32)
> (arr + np.float64(2.)).dtype  # will be float32
> 
> Currently, this value based logic is enforced by checking whether the
> cast is possible: "4" can be cast to int8, uint8. So the first call
> above will at some point check if "uint16 + uint16 -> uint16" is a
> valid operation, find that it is, and thus stop searching. (There is
> the additional logic, that when both/all operands are scalars, it is
> not applied).
> 
> Note that while it is defined in terms of casting "1" to uint8 safely
> being possible even though 1 may be typed as int64. This logic thus
> affects all promotion rules as well (i.e. what should the output
> dtype
> be).
> 
> 
> There 2 main discussion points/issues about it:
> 
> 1. Should value based casting/promotion logic exist at all?
> 
> Arguably an `np.int32(3)` has type information attached to it, so why
> should we ignore it. It can also be tricky for users, because a small
> change in values can change the result data type.
> Because 0-D arrays and scalars are too close inside numpy (you will
> often not know which one you get). There is not much option but to
> handle them identically. However, it seems pretty odd that:
>  * `np.array(3, dtype=np.int32)` + np.arange(10, dtype=int8)
>  * `np.array([3], dtype=np.int32)` + np.arange(10, dtype=int8)
> 
> give a different result.
> 
> This is a bit different for python scalars, which do not have a type
> attached already.
> 
> 
> 2. Promotion and type resolution in Ufuncs:
> 
> What is currently bothering me is that the decision what the output
> dtypes should be currently depends on the values in complicated ways.
> It would be nice if we can decide which type signature to use without
> actually looking at values (or at least only very early on).
> 
> One reason here is caching and simplicity. I would like to be able to
> cache which loop should be used for what input. Having value based
> casting in there bloats up the problem.
> Of course it currently works OK, but especially when user dtypes come
> into play, caching would seem like a nice optimization option.
> 
> Because `uint8(127)` can also be a `int8`, but uint8(128) it is not
> as
> simple as finding the "minimal" dtype once and working with that." 
> Of course Eric and I discussed this a bit before, and you could
> create
> an internal "uint7" dtype which has the only purpose of flagging that
> a
> cast to int8 is safe.
> 
> I suppose it is possible I am barking up the wrong tree here, and
> this
> caching/predictability is not vital (or can be solved with such an
> internal dtype easily, although I am not sure it seems elegant).
> 
> 
> Possible options to move forward
> --------------------------------
> 
> I have to still see a bit how trick things are. But there are a few
> possible options. I would like to move the scalar logic to the
> beginning of ufunc calls:
>   * The uint7 idea would be one solution
>   * Simply implement something that works for numpy and all except
>     strange external ufuncs (I can only think of numba as a plausible
>     candidate for creating such).
> 
> My current plan is to see where the second thing leaves me.
> 
> We also should see if we cannot move the whole thing forward, in
> which
> case the main decision would have to be forward to where. My opinion
> is
> currently that when a type has a dtype associated with it clearly, we
> should always use that dtype in the future. This mostly means that
> numpy dtypes such as `np.int64` will always be treated like an int64,
> and never like a `uint8` because they happen to be castable to that.
> 
> For values without a dtype attached (read python integers, floats), I
> see three options, from more complex to simpler:
> 
> 1. Keep the current logic in place as much as possible
> 2. Only support value based promotion for operators, e.g.:
>    `arr + scalar` may do it, but `np.add(arr, scalar)` will not.
>    The upside is that it limits the complexity to a much simpler
>    problem, the downside is that the ufunc call and operator match
>    less clearly.
> 3. Just associate python float with float64 and python integers with
>    long/int64 and force users to always type them explicitly if they
>    need to.
> 
> The downside of 1. is that it doesn't help with simplifying the
> current
> situation all that much, because we still have the special casting
> around...
> 
> 
> I have realized that this got much too long, so I hope it makes
> sense.
> I will continue to dabble along on these things a bit, so if nothing
> else maybe writing it helps me to get a bit clearer on things...
> 
> Best,
> 
> Sebastian
> 
> 
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