STATEMENT OF PROBLEM - (REVISED 2014-05-05)
There is currently one series tag. Currently it's like a catch-all, it's getting applied to at least four seriously different concepts/objects, across different families of languages/applications. Each of these 4+ use-cases merits entirely separate consideration of whether it deserves to exist as a separate tag or not; and thus whether the questions should be split or deleted/untagged. A brief survey of what series is being applied to:
- data-processing languages, such as r/python pandas /matlab, where
Series
is a very fundamental and hugely important data-structure. And no, it's not a mathematical series, because the data is commonly categorical, string or logical, and not numeric. Read below, which explains what a Series is in data-processing and why it's hugely important, and also different to 2. It's also infinitely more central to these languages than the use case in 3. - mathematical series (well-defined, but distinct to data-processing). Unlike use-case 1., this does not in general have a specific data-structure, nor is it central to most languages.
- Much less important, various data-structures to implement some (vague) concept of 'series' in general-purpose languages, e.g. c,c++,c#,vb,java etc. I'm not advocating for these to get a separate tag, I don't think they should. However users of those languages will invariably apply the series arbitrarily, so just be prepared to intermittently handle confusion. The tag wiki needs to address that.
- Series in spreadsheet
- Series in charts, either 5a) the data itself, or 5b) the UI object backing it (javascript, highcharts etc.), or else 5c) the programming language API that backs it. Arguably 5a) should be merged with 4), and 5b) and 5c) with each other - but that's if they need a tag at all - which is a separate subdiscussion, and I'm not massively interested in that.
DEFINITION OF 1) THE DISTINCT MEANING OF SERIES AS USED IN DATA-PROCESSING LANGUAGES
First, many of you don't know that "data-processing language" is a well-defined term for a set of special-purpose languages/packages: R, Python pandas, Matlab, and more recently Apache PIG and Julia. (These evolved from SQL, SAS, STATA, and as for them, debate continues about whether they are full programming language.) The term 'data-processing language' is well-established and has been around for about a decade. I did not just make it up yesterday, contrary to what one person insists below. Wikipedia categorizes these as 'Data-centric programming languages'.
Second, within the context of data-processing languages, and more specifically Python pandas and R, the definition of a Series is a) well-defined b) has a very distinct definition to Series
in other contexts c) an extremely core data-structure in the language. You can't get anything done in those two languages without Series or DataFrame. Totally different programmatically to C/C++/Java/C#/VB/etc.
Third: so, getting towards what is the (distinct) definition of Series
in data-processing language, and is it really distinct to the other contexts? (Yes it is. Here's why).
A Series
represents 'an (indexed) list of values representing the same underlying quantity'.
It has nothing to do with the mathematical definition of 'series', and its members aren't (generally) sums of anything, and often they don't even admit ordering or are not numeric.
If you don't believe that, here is an example dataframe with a couple of series, followed by a discussion of key properties, before finally I offer a definition of Series
(in data-processing languages):
Here is an R snippet:
population = data.frame(
height = c('5"4', '6"2', NA, '5"7',...),
weight = c(124,203,NA,160,...),
favorite_color = as.factor(c('green','blue','red','pink'...)),
isMarried = c(F,NA,F,T...),
name = as.factor(c('Paul','Terry','Sue','Anita',...))
)
Now note these key properties which distinguish a Series
in data-processing:
- forget the mathematical series, these series aren't in general sums of anything. Height isn't, weight isn't, favorite_color, isMarried, name aren't even numeric. They are categorical, or logical, or string. These in general truly have nothing in general to do with Fibonacci, Maclauren, Taylor, Chebyshev or Riemann (except for 0.01% of the time when the series is numeric and also happens to be representing a numeric summation. But that is pretty rare in these languages: time-series, spatial series).
- each series has its own type, and all values are homogeneous (in these languages). This is extremely important: the series represents one underlying quantity ("you can't have a weight of 'blue', and your marital status can't be 3.5e+12"). The data structures will generally not allow you insert values of the wrong type. It is not some dumb container class or ultra-general collection class.
- 'ordered list' is a red herring (Dukeling). We're talking here about the VALUES, not the INDICES. The VALUES of the series are in general non-numeric (hence by definition don't admit ordering, and we do not order categoricals by their alphabetical labels), but even those ones that are numeric do not necessarily admit ordering (they could be nominal). If I add the userid for Paul + userid for Terry, the meaning is undefined.
- NA values are allowed. Not only that, they get special handling in operations on the Series (exclude/include/fill/impute/...) This is yet another major difference to general-purpose languages.
- the index doesn't have to be numeric; in R, Python pandas etc. you can use an arbitrary set of values (see R
row.names
, pandasset_index()
). - operations specific to a series since the language's type/object knows it's a series, it supports extra builtin operations for tabulating, value_count, fillNA, sum, max, min, mean, median, quantiles...
EDIT: So here's my tentative stab at a definition adapted from the pandas doc definition of Series:
(For general (non-data-processing) languages (C, C++, C#, VB, Java), if that language has a specific Series type/class, can some of you please supply a definition here??)
In data-processing languages (R, Python pandas), Series is a one-dimensional (labeled?) array capable of holding any (homogeneous) data type (integers, strings, floats, Dates, objects, etc.) whose values represent a single underlying quantity (e.g. height, weight, name, latitude, color, marital status). The axis labels are collectively referred to as the index. The index might represent time, space or some other quantity.
and here's Matlab doc, specifically on TimeSeries
Before one of us goes ahead and edits the tag, it would be good to reach a consensus on a correct and language-neutral definition, as well as that language-specific links are unwanted.
SUGGESTION FOR HOW TO HANDLE THESE 4/5 USE CASES - REDEFINE/SPLIT/DELETE TAGS:
- There is definitely a use-case for series as used in R, Python Pandas and Matlab (look at the questions tagged series in those languages). This definition is very different to definitions in 2.,3.,4.,5. Do not confuse them.
- mathematical series is a different meaning. Unlike use-case 1., this does not in general have a specific data-structure, nor is it central to most languages (arguments against a specific tag). I don't know whether it deserves a separate tag. I guess for the sake of clarity and preventing confusion, we should consider a mathematical-series. That's for discussion.
- Much less important is the (unrelated) application of tag series to various obscure data-structures in general-purpose languages (c,c++,c#,vb,java etc.) I'm not advocating for these to get a separate tag, probably they shouldn't. However justbe prepared for confusion and random misapplication of the tag by users of those languages. The tag wiki needs to address that, i.e. clarify what a series isn't.
- Series in spreadsheet. Some are also excel
- Series in charts, either 5a) the data itself, or 5b) the UI object backing it (javascript, highcharts etc.), or else 5c) the programming language API that backs it.
Arguably 5a) should be merged with 4), and 5b) and 5c) with each other - but that's if they need a tag at all - which is a separate subdiscussion, and I'm not massively interested in that - just as long as you don't call it series.
CONCLUSION:
There are legitimate, very distinct and well-defined use-cases for:
data-processing-series, mathematical-series
As for spreadsheet-series, chart-series, the definition is more fuzzy, but still seems legitimate. If you want to keep those two merged, you have the conundrum of what to call them (don't call it plain series, that's inviting confusion).
System.Web.UI.DataVisualization.Charting.Series
class is important enough to have a tag at all, but if it does it should perhaps be more specifically named.Series
andDataFrame
are two essential concepts in data-processing languages like R and Python/pandas - and that's why the tag should be language-agnostic, at least between R/Python/Matlab. Ok?Series
andDataFrame
are core data-structures in data-processing languages like R and Python/pandas. Not only are they actual data-structures, those data-structures are fundamental to the those languages. I gave you an R code example. Got it? In the context of data-processing languages,Series
has both a very well-defined meaning and huge importance. Outside that context, in the other three contexts I identified, series means different thing, has much less direct language support, and arugably may not deserve a split tag.