[Rd] Faster sorting algorithm...

Morgan Morgan morg@n@em@||box @end|ng |rom gm@||@com
Wed Mar 17 10:23:15 CET 2021


Thank you Neal. This is interesting. I will have a look at pqR.
Indeed radix only does C collation, I believe that is why it is not the
default choice for character ordering and sorting.
Not sure but I believe it can help address the following bugzilla item:
https://bugs.r-project.org/bugzilla/show_bug.cgi?id=17400

On the same topic of collation, there is an experimental sorting function
"psort" in package kit that might help address this issue.

> library(kit)
Attaching kit 0.0.7 (OPENMP enabled using 1 thread)
> x <- c("b","A","B","a","\xe4")
> Encoding(x) <- "latin1"
> identical(psort(x, c.locale=FALSE), sort(x))
[1] TRUE
> identical(psort(x, c.locale=TRUE), sort(x, method="radix"))
[1] TRUE

Coming back to the topic of fsort, I have just finished the implementation
for double, integer, factor and logical.
The implementation takes into account NA, Inf.. values. Values can be
sorted in a decreasing order or increasing order.
Comparing benchmark with the current implementation in data.table, it is
currently over 30% faster.
There might bugs but I am sure performance can be further improved as I did
not really try hard.
If there is interest in both the implementation and cross community
sharing, please let know....

Best regards,
Morgan

On Wed, 17 Mar 2021, 00:37 Radford Neal, <radford using cs.toronto.edu> wrote:

> Those interested in faster sorting may want to look at the merge sort
> implemented in pqR (see pqR-project.org).  It's often used as the
> default, because it is stable, and does different collations, while
> being faster than shell sort (except for small vectors).
>
> Here are examples, with timings, for pqR-2020-07-23 and R-4.0.2,
> compiled identically:
>
> -----------------------------
> pqR-2020-07-23 in C locale:
>
> > set.seed(1)
> > N <- 1000000
> > x <- as.character (sample(N,N,replace=TRUE))
> > print(system.time (os <- order(x,method="shell")))
>    user  system elapsed
>   1.332   0.000   1.334
> > print(system.time (or <- order(x,method="radix")))
>    user  system elapsed
>   0.092   0.004   0.096
> > print(system.time (om <- order(x,method="merge")))
>    user  system elapsed
>   0.363   0.000   0.363
> > print(identical(os,or))
> [1] TRUE
> > print(identical(os,om))
> [1] TRUE
> >
> > x <- c("a","~")
> > print(order(x,method="shell"))
> [1] 1 2
> > print(order(x,method="radix"))
> [1] 1 2
> > print(order(x,method="merge"))
> [1] 1 2
>
> -----------------------------
> R-4.0.2 in C locale:
>
> > set.seed(1)
> > N <- 1000000
> > x <- as.character (sample(N,N,replace=TRUE))
> > print(system.time (os <- order(x,method="shell")))
>    user  system elapsed
>   2.381   0.004   2.387
> > print(system.time (or <- order(x,method="radix")))
>    user  system elapsed
>   0.138   0.000   0.137
> > #print(system.time (om <- order(x,method="merge")))
> > print(identical(os,or))
> [1] TRUE
> > #print(identical(os,om))
> >
> > x <- c("a","~")
> > print(order(x,method="shell"))
> [1] 1 2
> > print(order(x,method="radix"))
> [1] 1 2
> > #print(order(x,method="merge"))
>
> ------------------------------------
> pqR-2020-07-23 in fr_CA.utf8 locale:
>
> > set.seed(1)
> > N <- 1000000
> > x <- as.character (sample(N,N,replace=TRUE))
> > print(system.time (os <- order(x,method="shell")))
> utilisateur     système      écoulé
>       2.960       0.000       2.962
> > print(system.time (or <- order(x,method="radix")))
> utilisateur     système      écoulé
>       0.083       0.008       0.092
> > print(system.time (om <- order(x,method="merge")))
> utilisateur     système      écoulé
>       1.143       0.000       1.142
> > print(identical(os,or))
> [1] TRUE
> > print(identical(os,om))
> [1] TRUE
> >
> > x <- c("a","~")
> > print(order(x,method="shell"))
> [1] 2 1
> > print(order(x,method="radix"))
> [1] 1 2
> > print(order(x,method="merge"))
> [1] 2 1
>
> ------------------------------------
> R-4.0.2 in fr_CA.utf8 locale:
>
> > set.seed(1)
> > N <- 1000000
> > x <- as.character (sample(N,N,replace=TRUE))
> > print(system.time (os <- order(x,method="shell")))
> utilisateur     système      écoulé
>       4.222       0.016       4.239
> > print(system.time (or <- order(x,method="radix")))
> utilisateur     système      écoulé
>       0.136       0.000       0.137
> > #print(system.time (om <- order(x,method="merge")))
> > print(identical(os,or))
> [1] TRUE
> > #print(identical(os,om))
> >
> > x <- c("a","~")
> > print(order(x,method="shell"))
> [1] 2 1
> > print(order(x,method="radix"))
> [1] 1 2
> > #print(order(x,method="merge"))
>
>
> pqR is faster in all the tests, but more relevant to this discussion
> is that the "merge" method is substantially faster than "shell" for
> these character vectors with a million elements, while retaining the
> stability and collation properties of "shell" (whereas "radix" only
> does C collation).
>
> It would probably not be too hard to take the merge sort code from pqR
> and use it in R core's implementation.
>
> The merge sort in pqR doesn't exploit parallelism at the moment, but
> merge sort is potentially quite parallelizable (though I think the
> storage allocation strategy I use would have to be modified).
>
> Regards,
>
>    Radford Neal
>
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