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Window functions, revisited #2723
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To me this seems like a more consistent change, but I am concerned about the conflict between a function that takes only one argument, such as from orders
sort day
# Collect
window rows:-3..3 {centered_weekly_average = average value} from orders
sort day
# Collect?
window rows:-3..0 {lag_value = lag value} from orders
sort day
# Error?
window rows:-3..3 {lag_value = lag value} |
I'm hesitant to weigh in here because I don't know the type system that well but since you asked for comments I will give it a go. Aren't the arguments to For example from artists
take 3
select {artist_id, name, lag 1 artist_id} produces the SQL WITH table_1 AS (
SELECT
artist_id,
name
FROM
artists
LIMIT
3
)
SELECT
artist_id,
name,
LAG(artist_id, 1) OVER ()
FROM
table_1 AS table_0
-- Generated by PRQL compiler version:0.8.1 (https://prql-lang.org) which in the playground evaluates to
Overall I really like the current behaviour of the window functions and would be sad to lose it because to me it's one of the great features of PRQL. Being able to do things like the following is a great selling point: from tbl
filter x > average x I understood less of the points below the line and will have another look at them in the light of day in the morning. |
@eitsupi I'm not sure if I understand your concern here. Are you taking about how @snth Well, the type of select arguments is "scalars", there is no such type as "scalar expression" (or rather, when talking about types, this would be the same thing). Type of Current implementation does not concern itself with types too much, and does what SQL does: on the surface it seems like you are operating with scalar values, but actually most of the time you are operating with whole columns at once. I do get that current behavior is convenient and I do hope we'll be able to tweak the type system to allow it. |
Similarly for |
This is the problem:
If Am I explaining myself well enough? |
Sorry for the incorrect explanation. I should have thought carefully about the meaning of your example. Am I correct in understanding that perhaps functions like window {foo = lag 1 bar} # Ok window rows:.. {foo = lag 1 bar} # Ok window -1..0 {foo = lag 1 bar} # Err |
Me and @snth had a call and we discussed this issue, because we figured it So let me try to state the problem again: Edit: this is getting really long, I hope this does not discourage the reader :D The problemThere are three types of functions in PRQL (and SQL): let floor = <scalar> -> <scalar> # select / derive
let sum = <[scalar]> -> <scalar> # window / aggregate
let lag_one = <[scalar]> -> <[scalar]> # window? ... and three transforms that we want to define dynamic semantics of: let select = <{scalar..}> <relation> -> <relation>
let aggregate = <{scalar..}> <relation> -> <relation>
let window = rows:0..0 <{scalar..}> <relation> -> <relation> With this I mean that we need to define a set of rules that can be used to take For example, here are semantics for our arithmetic:
So let's use this example relation: let my_rel = [
{ x = 1, y = 2 },
{ x = 2, y = 4 },
{ x = 6, y = 7 },
{ x = 3, y = 7 },
] And try to define what would be result of this: my_rel | window rows:-1..1 { a = sum x }
=> cols_to_rows {a = [
[1, 2] | sum,
[1, 2, 6] | sum,
[2, 6, 3] | sum,
[6, 3] | sum,
]}
=> cols_to_rows {a = [
3,
9,
11,
9,
]}
=> [
{a = 3},
{a = 9},
{a = 11},
{a = 9},
]
... here, I've inlined what window does: creates windows into input relation and There is a few questionable things happening here, but let's focus on what my_rel | window { a = lag_one x } rows:-1..0
=> {a = [
[1, 2] | lag_one,
[1, 2, 6] | lag_one,
[2, 6, 3] | lag_one,
[6, 3] | lag_one,
]}
=> {a = [
[null, 1],
[null, 1, 2],
[null, 2, 6],
[null, 6],
]} ... now what? The result should be Solution 1: broadcastingIdea is simple: if an array is expected, but a scalar is found, the scalar [1, 2, 4] == 4
=> [1, 2, 4] == [4, 4, 4]
=> [1 == 4, 2 == 4, 4 == 4] In the last derivation, I've also used a vectorization, i.e. converting an We can now define that our transforms work like this: select {...} my_rel
=> (x y -> {...}) { x = [1, 2, 6, 3], y = [2, 4, 7, 7] } ... in words, transforms convert the relation from row-wise format into a my_rel | select {
a = floor x,
b = sum x,
c = lag_one x,
d = 5,
}
=> cols_to_rows {
a = floor [1, 2, 6, 3],
b = sum [1, 2, 6, 3],
c = lag_one [1, 2, 6, 3],
d = 5,
}
=> cols_to_rows {
a = [floor 1, floor 2, floor 6, floor 3],
b = 12,
c = [null, 1, 2, 6],
d = 5,
}
=> cols_to_rows {
a = [1, 2, 6, 3],
b = [12, 12, 12, 12], # select expects an array -> broadcast
c = [null, 1, 2, 6],
d = [5, 5, 5, 5],
}
=> [
{ a = 1, b = 12, c = null, d = 5 },
{ a = 2, b = 12, c = 1, d = 5 },
{ a = 6, b = 12, c = 2, d = 5 },
{ a = 3, b = 12, c = 6, d = 5 },
] In Pythonic pseudocode, it would be expressed as: select { a = floor x, b = sum x, c = lag_one x, d = 5 }
=> {
a = [floor i for i in x],
b = [sum x for _ in x],
c = lag_one x
d = [5 for _ in x]
}
Pros:
Cons:
[
{x = 1, y = [5, 6]},
{x = 2, y = [2]},
{x = 6, y = [1, 2, 3]},
{x = 3, y = [3, 5]},
] | select { x == y }
=> cols_to_rows {
[1, 2, 6, 3] == [[5, 6], [2], [1, 2, 3], [3, 5]]
}
=> cols_to_rows {
[
1 == [5, 6],
2 == [2],
6 == [1, 2, 3],
3 == [3, 5]
]
}
=> cols_to_rows {
[
[1, 1] == [5, 6],
[2] == [2],
[6, 6, 6] == [1, 2, 3],
[3, 3] == [3, 5]
]
}
=> cols_to_rows {
[
[false, false],
[true],
[false, false, false],
[true, false]
]
} Solution 2: row-wise computationIdea here is that the argument to my_rel | select {a = floor x}
=> [
{ a = floor 1 },
{ a = floor 2 },
{ a = floor 6 },
{ a = floor 3 },
]
=> [
{ a = 1 },
{ a = 2 },
{ a = 6 },
{ a = 3 },
] This has obvious advantage of not having to deal with vectorized operations, select:
window:
aggregate:
columnar (this needs a better name):
my_rel | select {
a = floor x, # ok
b = sum x, # error: expected an array but got scalar
c = lag 1 x, # error: lag expected an array but got scalar, select expected a scalar but got array
d = 5 # ok
}
my_rel | window {
a = floor x, # error: window expected a scalar but got array
b = sum x, # ok
c = lag 1 x, # error: window expected a scalar but got array
d = 5 # ok
}
my_rel | aggregate {
a = floor x, # error: expected a scalar but got array
b = sum x, # ok
c = lag 1 x, # error: expected a scalar but got array
d = 5 # ok
}
my_rel | columnar {
a = floor x, # error: floor expected a scalar but got array, columnar expected an array but got scalar
b = sum x, # error: sum expected an array but got scalar
c = lag 1 x, # ok
d = 5 # error: columnar expected an array but got scalar
} |
@aljazerzen Thank you for your very detailed and clear explanation! R vector (a column of DataFrame) do exactly that broadcasting, which is why functions like df <- tibble::tibble(x = c(list(1:5), list(5:6)))
df |>
dplyr::mutate(y = length(x))
#> # A tibble: 2 × 2
#> x y
#> <list> <int>
#> 1 <int [5]> 2
#> 2 <int [2]> 2
# Make `mutate` to row-wise operation
df |>
dplyr::rowwise() |>
dplyr::mutate(y = length(x))
#> # A tibble: 2 × 2
#> # Rowwise:
#> x y
#> <list> <int>
#> 1 <int [5]> 5
#> 2 <int [2]> 2
# Or, use map function
df |>
dplyr::mutate(y = purrr::map_int(x, \(x) length(x)))
#> # A tibble: 2 × 2
#> x y
#> <list> <int>
#> 1 <int [5]> 5
#> 2 <int [2]> 2 Created on 2023-06-06 with reprex v2.0.2 Separating columnar operations seems like a worthwhile thing for me. However, I think that just as my_rel | columnar (select {
a = floor x, # error: floor expected a scalar but got array, columnar expected an array but got scalar
b = sum x, # error: sum expected an array but got scalar
c = lag 1 x, # ok
d = 5 # error: columnar expected an array but got scalar
})
my_rel | columnar (derive {
a = floor x, # error: floor expected a scalar but got array, columnar expected an array but got scalar
b = sum x, # error: sum expected an array but got scalar
c = lag 1 x, # ok
d = 5 # error: columnar expected an array but got scalar
}) This is exactly the inverse of how dplyr switches between vectorise and rowwise operations by One problem is that the order becomes even more complicated when my_rel | group {} (columnar (select {})) # Ok?
my_rel | columnar (group {} (select {})) # ? Given the reduction in complexity, would something like Edit: I realized after I wrote it that this should be not done because it ruins the separation of SQL's |
Some of this (less well-developed) was in this comment back in the ancient days of 2022: #1069 (comment). I think it's worth considering the different types of window functions, which IIRC lead to the difference in results between
So I do think those are different types, and we could handle them differently. How would this look in terms of the SQL produced? Is the proposal (at least with Row-wise), to tighten up what PRQL processes, but otherwise produce similar SQL? I'm trying to describe to myself with Is it that the typing is too dynamic / flimsy, and stops us from making it helpful? (+ thank you @aljazerzen for the excellent and thorough issue!) |
Yes, just on the PRQL side. Emitted SQL should be the same.
That depends on which proposed solution you adhere to. Solution 1 would say "everything is alright", solution 2 would say:
That's the solution 1. PS: I'm still working on adaptation what @eitsupi proposed |
I believe the semantics of SQL are largely "row-wise operation". I think for PRQL the broadcasting model is slightly more general and nicer. For scalars (e.g.
Now to LAG. I don't think it works as in the examples above. Exactly how it works I have been trying to figure out over the past two days and I still don't understand it properly. However it's not just that the whole column vector is lagged by 1 (or n) places. When an ORDER BY clause is provided in the OVER clause then the windows are selected over logical ranges rather than physical rows and if a RANGE argument is given then the number of elements in each window can differ by row. I tried to read the Postgres docs on Window Function Calls closely but what I understood from that doesn't actually pan out in practice like I thought it would. Another thing is that Postgresql and DuckDB don't produce the same results. I haven't tried other RDBMs yet. Let's look at the following example: from_text format:json """
[
{"i":1, "x":3},
{"i":2, "x":1},
{"i":3, "x":2},
{"i":4, "x":3},
{"i":5, "x":1}
]
"""
derive [a=lag 2 x]
window (
sort x
derive [b = lag 2 x]
)
window rows:-1..0 (
derive [c = lag 2 x]
)
window range:-1..0 (
derive [d = lag 2 x]
)
sort i
select [x, a, b, c, d] in the playground this produces the following SQL: WITH table_0 AS (
SELECT
1 AS i,
3 AS x
UNION
ALL
SELECT
2 AS i,
1 AS x
UNION
ALL
SELECT
3 AS i,
2 AS x
UNION
ALL
SELECT
4 AS i,
3 AS x
UNION
ALL
SELECT
5 AS i,
1 AS x
),
table_3 AS (
SELECT
x,
LAG(x, 2) OVER () AS a,
LAG(x, 2) OVER (
ORDER BY
x ROWS BETWEEN UNBOUNDED PRECEDING AND UNBOUNDED FOLLOWING
) AS b,
LAG(x, 2) OVER (
ORDER BY
x ROWS BETWEEN 1 PRECEDING AND CURRENT ROW
) AS c,
LAG(x, 2) OVER (
ORDER BY
x RANGE BETWEEN 1 PRECEDING AND CURRENT ROW
) AS d,
i
FROM
table_0 AS table_1
ORDER BY
i
)
SELECT
x,
a,
b,
c,
d
FROM
table_3 AS table_2
-- Generated by PRQL compiler version:0.8.1 (https://prql-lang.org) and the following output (DuckDB):
In Postgres I get the following output:
I would have thought that column For column |
That's the best description of the semantics. Window functions in SQL are "tunnels" to other rows - they can pull scalar values from other rows! Quite magic :D The nuances of ROW vs RANGE are also a bit lost on me. I'm not sure what I'd expect the result to be in these cases, but fortunately this question is tangential to the types of the window functions. @snth you could you move this finding to a new issue? |
I found that there is no It seems that the
I only post this because I feel it is relevant to the discussion here. |
AFAIK row is deciding which rows fits into window computation not looking at what the ordering data have, just the order. On the other hand range is deciding what rows will fit into window based on order column values, being it a Date, timestamp or even an integer, where all those types are representing a sparse data. For a (not sparse) data that ordering columns is full sequence 1:n (or a Date having continuous values) there will be no difference between row and range, but if ordering column has gaps (sparse data) then they will differ. Use case is also presented in Rdatatable/data.table#3241 |
I just wanted to throw in a common use case: forward-filling / backfilling timeseries values. SELECT
day,
reading_time,
LAST_VALUE(temperature) IGNORE NULLS OVER (
PARTITION BY day
ORDER BY reading_time
ROWS BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW
) AS temperature,
LAST_VALUE(pressure) IGNORE NULLS OVER (
PARTITION BY day
ORDER BY reading_time
ROWS BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW
) AS pressure
FROM weather_data I can't find a clean way of doing this in PRQL right now. This is also related to this ticket: #2622 |
I think it should go to its own issue. Another way to achieve it is as-of joins. |
Working on the type checking lately, I've realized that window functions don't quite fit into the current type system.
If we ignore that we coerce scalars into tuples of scalars (
select x
intoselect {x}
), the type of select would be:... which says that it takes a tuple of any scalars and a relation to produce another relation.
But if you have:
... the type of
x
andsum x
would bescalar
, but type oflag 1 x
would be[scalar]
(array of scalars).Also, what's the type of
x
? I just said that it is scalar, but how can it then be passed intosum
andlag
, which both expect an array of scalars?What I propose to do:
select
andderive
:This would mean that:
x + y
, becausex
is an array andy
is an array,sum (x + y)
, becausex
is an array andy
is an array, but you could do(sum x) + (sum y)
, because the sums are scalars.Essentially,
select
andderive
would operate row-wise,window
would operate column-wise andaggregate
would do something in-between.Examples:
This would also resolve the unexpected "windowing by default" behavior.
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