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I am using data.table and there are many functions which require me to set a key (e.g. X[Y] ). As such, I wish to understand what a key does in order to properly set keys in my data tables.

One source I read was ?setkey.

setkey() sorts a data.table and marks it as sorted. The sorted columns are the key. The key can be any columns in any order. The columns are sorted in ascending order always. The table is changed by reference. No copy is made at all, other than temporary working memory as large as one column.

My takeaway here is that a key would "sort" the data.table, resulting in a very similar effect to order(). However, it doesn't explain the purpose of having a key.

The data.table FAQ 3.2 and 3.3 explains:

3.2 I don't have a key on a large table, but grouping is still really quick. Why is that?

data.table uses radix sorting. This is signicantly faster than other sort algorithms. Radix is specically for integers only, see ?base::sort.list(x,method="radix"). This is also one reason why setkey() is quick. When no key is set, or we group in a different order from that of the key, we call it an ad hoc by.

3.3 Why is grouping by columns in the key faster than an ad hoc by?

Because each group is contiguous in RAM, thereby minimising page fetches, and memory can be copied in bulk (memcpy in C) rather than looping in C.

From here, I guess that setting a key somehow allows R to use "radix sorting" over other algorithms, and that's why it is faster.

The 10 minute quick start guide also has a guide on keys.

  1. Keys

Let's start by considering data.frame, specically rownames (or in English, row names). That is, the multiple names belonging to a single row. The multiple names belonging to the single row? That is not what we are used to in a data.frame. We know that each row has at most one name. A person has at least two names, a rst name and a second name. That is useful to organise a telephone directory, for example, which is sorted by surname, then rst name. However, each row in a data.frame can only have one name.

A key consists of one or more columns of rownames, which may be integer, factor, character or some other class, not simply character. Furthermore, the rows are sorted by the key. Therefore, a data.table can have at most one key, because it cannot be sorted in more than one way.

Uniqueness is not enforced, i.e., duplicate key values are allowed. Since the rows are sorted by the key, any duplicates in the key will appear consecutively

The telephone directory was helpful in understanding what a key is, but it seems that a key is no different when compared to having a factor column. Furthermore, it does not explain why is a key needed (especially to use certain functions) and how to choose the column to set as key. Also, it seems that in a data.table with time as a column, setting any other column as key would probably mess the time column too, which makes it even more confusing as I do not know if I am allowed set any other column as key. Can someone enlighten me please?

share|improve this question
"I guess that setting a key somehow allows R to use "radix sorting" over other algorithms" --I don't get that from the help at all. My read is that setting a key sorts by a key. You can do "ad hoc" sorting by other columns than the key, and it's fast, but not as fast as if you had already sorted. –  Ari B. Friedman Nov 18 '13 at 3:07
I think it's that binary search is faster than vector scan when selecting rows. I'm not a computer scientist, so I don't know what that actually means. Besides the FAQ, see the introduction. –  Frank Nov 18 '13 at 3:30

2 Answers 2

up vote 39 down vote accepted

Minor update: Please refer to the new HTML vignettes as well. This issue highlights the other vignettes that we plan to.

I've rewritten the answer completely in a Q&A fashion and removed some things that aren't directly relevant. Hopefully this is better.

What exactly does setkey(DT, a, b) do?

It sorts DT by column a first, then by column b. That's it. However, it does so by reference - 1) no copy and 2) very efficient use of memory, only one extra column (of type double - the largest size) is allocated.

When is setkey required?

setkey is required for joins - X[Y]. It is not absolutely required for by= aggregation. That is, you can perform a "cold by" - without setkey as follows:

# "cold" by
DT <- data.table(x=rep(1:5, each=2), y=1:10)
DT[, mean(y), by=x] # no key set

Is there an advantage to setting key on by= operations?

Most likely on big data and big groups. In those cases, having the groups together (sorted) in memory can speed up operations a bit (cache efficiency). Note that this doesn't mean that you shouldn't set key on small data. Just that the merits of using it will be potentially higher on big data. Having said that, most people who choose data.table invariably do so due to big data and therefore will most likely be setting keys.

Why do we need setkey for joins?

Because it uses binary search internally to perform joins. And it is required for by binary search to keep the data sorted. To paraphrase Matthew's reply from here - to keep things manageable internally, the sort is always in ascending order. This is why setkey always sorts in ascending order.

What exactly does a binary search do and how does it speeden joins here?

Not exactly the question from OP, but since it is the reason for setkey, I find it appropriate to answer here.

The basic idea is quite simple. Suppose that you've a sorted vector,

x <- c(1, 5, 9, 12, 18, 19, 44)

and you want to find search for 5. Since you know it's sorted, you start by comparing it with the middle value of "x" (here 12).

5 < 12. So, repeat with values < 12 from x = c(1,5,9)
5 = 5.  done. Search complete and you can fetch the index

Notice that with every recursive step, you half the number of elements to search (leading to a run-time complexity of O(log n)). This is why doing:

DT <- data.table(x=sample(1e4, 1e7, TRUE), y=sample(1e4, 1e7, TRUE), key="x")
# Starting binary search ...done in 0.01 secs

is incredibly faster than doing this:

DF <- data.frame(DT)
system.time(DF[DF$x > 1e4 & DF$x < 1e5, ])
#   user  system elapsed 
#  1.614   0.043   1.672 

It's extremely slow here because it uses a vector-scan approach - going through each and every value in DF$x and checking if it satisfies the desired condition.

Thus having the data sorted allows us to use binary search which in turn allows us to do fast-joins and/or fast-subsets.

What's going on under the hood of setkey?

Ordering (or sorting) is essential for most data.table operations. Therefore, it's important to have "ordering" as fast as possible. base:::order doesn't really cut it. Although for integers, base does have a fast (improperly named as radix sort) counting sort (which has some restrictions like range <= 1e5 and no -ve values).

Therefore, data.table's setkey internally uses fastorder which implements a counting sort on characters by efficiently using the internal R string cache and since v1.8.11, a 3-pass radix order for integers, 6-pass radix order for double (numeric) adapted from Michael Herf's article+code (which was inspired by Pierre Tardiman's article).

Compared to versions <= 1.8.10, the order on integer and numeric types are faster by about 5-8x as a result of this. Please check here to find out the speed/time differences in ordering operations between v1.8.10 and v1.8.11.

Why binary search?

From Matthew's answer here, the reason data.table implements binary search is because it has time-series join in mind. Specifically it doesn't hash the keys because it has prevailing ordered joins in mind (roll=TRUE option) - ex: Roll forwards or backward, Roll end forwards or not, Roll start backwards or not, Join to nearest value etc..

In summary, setkey is essential for binary search which makes most of data.table magic happen. (Matthew and others, feel free to add/correct anything in this post).

PS: Most of this material is from the recent talk Matthew and I gave at R user group Cologne. It's now available on the homepage. Here's a direct link to the pdf.

share|improve this answer
Cool, thanks! Up until now, I hadn't thought about what "binary search" actually meant, nor really understood the reason why it was used instead of a hash. –  Frank Nov 18 '13 at 22:02

A key is basically an index into a dataset, which allows for very fast and efficient sort, filter, and join operations. These are probably the best reasons to use data tables instead of data frames (the syntax for using data tables is also much more user friendly, but that has nothing to do with keys).

If you don't understand indexes, consider this: a phone book is "indexed" by name. So if I want to look up someone's phone number, it's pretty straightforward. But suppose I want to search by phone number (e.g., look up who has a particular phone number)? Unless I can "re-index" the phone book by phone number, it will take a very long time.

Consider the following example: suppose I have a table, ZIP, of all the zip codes in the US (>33,000) along with associated information (city, state, population, median income, etc.). If I want to look up the information for a specific zip code, the search (filter) is about 1000 times faster if I setkey(ZIP,zipcode) first.

Another benefit has to do with joins. Suppose a have a list of people and their zip codes in a data table (call it "PPL"), and I want to append information from the ZIP table (e.g. city, state, and so on). The following code will do it:

full.info <- PPL[ZIP, nomatch=F]

This is a "join" in the sense that I'm joining the information from 2 tables based in a common field (zipcode). Joins like this on very large tables are extremely slow with data frames, and extremely fast with data tables. In a real-life example I had to do more than 20,000 joins like this on a full table of zip codes. With data tables the script took about 20 min. to run. I didn't even try it with data frames because it would have taken more than 2 weeks.

IMHO you should not just read but study the FAQ and Intro material. It's easier to grasp if you have an actual problem to apply this to.

[Response to @Frank's comment]

Re: sorting vs. indexing - Based on the answer to this question, it appears that setkey(...) does in fact rearrange the columns in the table (e.g., a physical sort), and does not create an index in the database sense. This has some practical implications: for one thing if you set the key in a table with setkey(...) and then change any of the values in the key column, data.table merely declares the table to be no longer sorted (by turning off the sorted attribute); it does not dynamically re-index to maintain the proper sort order (as would happen in a database). Also, "removing the key" using setky(DT,NULL) does not restore the table to it's original, unsorted order.

Re: filter vs. join - the practical difference is that filtering extracts a subset from a single dataset, whereas join combines data from two datasets based on a common field. There are many different kinds of join (inner, outer, left). The example above is an inner join (only records with keys common to both tables are returned), and this does have many similarities to filtering.

share|improve this answer
+1. Regarding your first sentence... it's already sorted right? And isn't a join a special case of a filter (or an operation that takes filtering as its first step)? Seems like "better filtering" sums up the whole benefit. –  Frank Nov 18 '13 at 6:54
Or better scanning I suppose. –  Wet Feet Nov 18 '13 at 9:07
@Frank - see my edits above –  jlhoward Nov 18 '13 at 17:30
@jlhoward Thanks. My prior belief was that sorting was not among the benefits of setting the key (since if you want to sort, you should just sort), and also that setkey actually does reorder the rows irreversibly. If it is only for display purposes, then how do I print the first ten rows according to the "true" ordering (that I would have seen prior to setkey)? I'm pretty sure setkey(DT,NULL) does not do this... (cont.) –  Frank Nov 18 '13 at 21:46
@Frank - So setkey(DT,NULL) removes the key but does not affect sort order. Posed a question about this here. Let's see. –  jlhoward Nov 19 '13 at 16:20

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