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EDIT 2009-Nov-04

OK, so it's been a little while since I first posted this question. It seems to me that many of the initial responders failed to really get what I was saying--a common response was some variation on "What you're saying doesn't make any sense"--and so I've made some handy diagrams to really illustrate my point.

When we speak of numbers, we are generally referring to points on what grade school children learn is called the Number Line:

The number line

Now, when we learn arithmetic, our minds learn to perform a very interesting transformation of this concept. Evalutating the expression 1 + 0.5, for example, if we simply applied our "number line thinking", would require us to somehow make sense of this:

Adding two points on the number line

It's difficult to really illustrate that, because it's difficult to think about that: "adding" two points. This is where a lot of responders struggled with the idea of adding dates (or simply dismissed it as absurd), because they were thinking of dates as points.

However, the expression 1 + 0.5 does make sense to us, because when we think of it, we're really imagining this:

Adding a number (point) and a magnitude (vector)

That is, the number (or point) 1, plus the vector 0.5, resulting in point 1.5.

Alternately, we may be imagining this:

Adding two vectors

That is, the vector 1, plus the vector 0.5, resulting in the vector 1.5.

In other words, when dealing with numbers, we treat points and vectors interchangeably. But what about dates? Dates are, after all, basically numbers. If you don't believe me, compare this line to the number line above:

A timeline

Notice the correspondence between the timeline and the number line? This was my point: if we perform the transformation above with numbers, we ought to be able to do it with dates as well. So, applying "timeline thinking", the expression 0001-Jan-02 00:00:00 + 0001-Jan-01 12:00:00 doesn't make a lot of sense, as plenty of responders pointed out:

Adding two points on a timeline

But, if we do the same conceptual transformation in our head that we perform every time we add or subtract numbers, we can easily "rethink" the above as this:

Adding a point in time and a time vector

So clearly, the difference between a DateTime and a TimeSpan is the same difference that exists between a point and a vector. What I think caused a lot of people to respond negatively to my suggestion is that it just feels so unnatural to think of dates as magnitudes in this way. But I don't buy the argument that there's no obvious reference point to use as zero. There is an obvious reference point, and I'll give you a hint where it is: about 2010 years ago.

Don't get me wrong: I'm not questioning the usefulness of drawing a conceptual divide between the notion of a DateTime and a TimeSpan. Really, my question all along should have been (as ChrisW indirectly suggested), why do we treat numbers and vectors interchangeably when dealing with regular numeric types? (Or: why do we have just one int type, instead of int and intspan?) There's a big difference, and yet we don't ever really think about it until sometime in junior high or high school, when we begin geometry. And then it's treated as this new mathematical concept, when in reality it's something we've been utilizing ever since we learned to add numbers by counting with our fingers.

In the end, the best answer came from Strilanc, who pointed out that the use of DateTime and TimeSpan is really an implementation of an affine space, which has the convenient property of not needing a reference point to treat as the origin. So thanks, Strilanc. I'm giving the accepted answer to ChrisW, however, for being the first one to bring up the concept of vectors and points, which really got to the crux of the matter.


ORIGINAL QUESTION (for posterity)

I am certainly no programming jack of all trades, but I know both PHP and .NET have a TimeSpan class in addition to a DateTime class (or structure in .NET), and I am guessing this is the case in a variety of other languages and frameworks as well (though I am writing this primarily with reference to the .NET structures). This might seem a strange question, but isn't TimeSpan redundant?

In case you think the answer is obvious ("A DateTime is an absolute point in time, while a TimeSpan is a range of time -- simple as that!"), consider this: an integer can be conceptualized as either an absolute value (the point on the number line) or a distance between values--and we don't need two separate data types for these different conceptualizations. I can still write 5 + 6 without any ambiguity as to what I mean.

As long as there is a consistent zero-point reference, it seems to me there should be no reason why one would need a TimeSpan object to perform arithmetic operations on DateTime objects, or to get the distance between them.

What am I missing? Why can't the unique methods and properties of the TimeSpan structure simply be folded into DateTime?

(Disclaimer: It isn't like I'm passionate about this or anything; I'm fine using DateTime and TimeSpan objects as they're intended all the time. I'm just asking a question.)

EDIT: Okay, over-simplified example to illustrate my point:

Consider the equation 10 - 5 = 5. One could read this as "Start at 10 (value), move 5 to the left (span), and you end up at 5 (value)."

Suppose, just to make things easy, we let January 1 1900 be point zero and we define TimeSpan objects in terms of days only.

Then 10 - 5 = 5 could be understood, in DateTime terms, as January 11 1900 - January 6 1900 = January 6 1900. This is fine, because January 11 is just "10" by our definition and January 6 is "5". The fact that we are viewing the 10 as a value, the first 5 as a span, and the last 5 as a value again is merely for our own conceptual benefit. My point is just this: that the only difference is in how you think of the number, not in what it actually is. This is why we don't have separate structures for, say, integer values and integer spans -- a plain old integer covers all our bases.

Am I making any sense?

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@Henk: Haha, don't pretend that wouldn't be awesome. –  Dan Tao Sep 19 '09 at 19:34
    
How many Tuesdays are there in a span of 10 days? –  recursive Sep 19 '09 at 22:08
    
@recursive: As everyone has been saying all along, it depends on your zero point, which .NET has as Monday, January 01, 0001 (DateTime.MinValue) -- so the answer would be 2. But it seems you are trying to call out something nonsensical about my question; I will therefore ask you a follow-up, nearly identical question to illustrate MY point: How many multiples of 5 are there in a span of 8? –  Dan Tao Sep 19 '09 at 22:30
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First of all,time is a dimension and number is a unit used to describe the dimension. The question does not make sense, BCL is generic library for broad perspective. If something isn't useful to you that doesn't mean it's waste for everyone. I am sure millions are using TimeSpan and they are using it in right way I am one of them. If you have some easy alternative then it doesn't mean everyone should use it. –  Akash Kava Sep 21 '09 at 6:11
    
Actually we DO need different notion of int and intspan, because it would eliminate the whole class of bugs. That's what original Hungarian notation was about, before it got corrupted. –  Alexander Abramov Nov 21 '09 at 13:16
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10 Answers

up vote 12 down vote accepted

consider this: an integer can be conceptualized as either an absolute value (the point on the number line) or a distance between values

By your logic, it isn't TimeSpan that's unecessary: rather it's DateTime that's unnecessary, and could be replaced by TimeSpan (duration since zero).

Plus there's the fact that integers have an obvious zero, whereas Dates however don't have an obvious zero; but having an obvious zero is necessary, if you want to replace "place on the number line" with "distance/span from the zero/origin".


Edit:

A point (location on a plane) isn't the same as a vector.

They seem similar ...

  • A vector (distance from origin) can represent a point
  • A point (relative to the origin) can represent a vector

... however the value of the vector that's required to represent a given point will change if the origin changes.

It always makes sense to add two (relative) vectors; but, it makes no sense to add two points, except by converting those points to vectors and then adding the vectors.

The sum of two vectors is unaffected by a change in the origin, but the sum of two points would be affected by a change in the origin if you summed them by converting them to vectors and adding the vectors (because changing the origin would affect the values of those vectors).

[Replace 'point' with DateTime and 'vector' with TimeSpan in the argument above.]

I think there is a genuine difference between absolute and relative values. I'm don't know why that difference isn't more apparent in arithmetic, i.e. why 'numbers' are used seemingly interchangeably to represent both absolute and relative values.

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Fair enough -- I suppose my main point should be that DateTime and TimeSpan could be combined, rather than that TimeSpan specifically should be eliminated. –  Dan Tao Sep 19 '09 at 17:47
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I disagree: by Dan's logic, there isn't really any difference between DateTime and TimeSpan. They are different instances of the same concept. So I think it's incorrect to say one of them obsoletes the other. –  Joren Sep 19 '09 at 17:49
    
Also, integers only have an obvious zero because we arbitrarily defined one. Any coordinate or indexing system is relative. –  Joren Sep 19 '09 at 17:50
    
I think your closing paragraph (as of the time of me leaving this comment) poses an interesting spin on my question: perhaps the idea that having DateTime and TimeSpan is redundant is backwards; in fact, our tendency to use integer values as absolute and relative interchangeably is flawed? –  Dan Tao Sep 19 '09 at 19:42
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@Joren If you can find another integer new_zero such that new_zero * x = new_zero, is true for all integers x, then you can say zero is relative. –  Pete Kirkham Sep 19 '09 at 19:57
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A Date does not behave like an integer, i can't recall the classification of algebra's but consider this:

Date + Span = Date
Date - Date = Span  
Date + Date = undefined

Span + Span = Span
Span - Span = Span

For any given year,

10 feb + 10 days = 20 feb
20 feb - 20 jan  = 31 days
20 jan + 20 feb  = ???

That last computation could be interpreted as meaningful when we consider a Date as Days-since-StartDate. But the value would be as arbitrary as the choiche of the StartDate.

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Juri, Yes but that is DateTime + Days and Days is a TimeSpan. –  Henk Holterman Sep 19 '09 at 17:15
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280Z28, TimeSpan is (trivially) converted from all numerical types. There is no principal difference. –  Henk Holterman Sep 19 '09 at 17:19
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@ChrisW: If you replace date with "time since epoch", it implies that the epoch has some meaning in the context of an application. In reality, only the absolute date (in our calendar system) has meaning, so the epoch used in the underlying representation is appropriately removed from the visible portion of the application. –  280Z28 Sep 19 '09 at 17:29
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Just because you can define an operation does't mean you should. By not allowing date addition we can abstract away the arbitrary "date zero". As a bonus, it also eliminates a whole class of mistakes where you add a date when you meant to add a time span. I used the same technique in a geometry library (points couldn't be added, but taking the difference gave a vector) for the same reason: adding two points is almost guaranteed to be a bug. –  Strilanc Sep 19 '09 at 20:56
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Ah, I found what I was talking about on wikipedia. Points/vectors and dates/timespans each form an Affine Space ( en.wikipedia.org/wiki/Affine_space ). –  Strilanc Sep 19 '09 at 20:59
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(Speaking as a mathematician) It's because arithmetic operations on a "date" aren't closed or well defined, necessitating the need for an additional structure.

For example, January 1, 2000 - December 1, 1999 = ... ? We know there's 31 days between them, but if this were interpreted as a date, then the answer is Epoch (i.e., zero) + 31 days. This is not a valid "date" anymore.

Similarly, all the arithmetic operations on integers aren't well defined (1 / 2 has no answer in the integers .. integer math returns zero here, but 0 * 2 = 0, not 1 as you would expect). This necessitates the need for an additional structure that we call fractions.

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As you say, January 1, 2000 - December 1, 1999 have 31 days between them. Then the answer should be 31 days, and if you want to just know the distance then DateTime should have a TotalDays property and you should be able to write (Date1 - Date2).TotalDays. Right? Why is Epoch + 31 days "not a valid date"? –  Dan Tao Sep 19 '09 at 17:22
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For a variety of reasons, my favorite being that prior to the introduction of the Gregorian calendar in 1528 or so, the length of a "day" was different than it is now. So if you have a DateTime implementation that is aware of such things, (Date1 - Date2) + Date2 != Date1. (the .NET implementation is pretty good, but I don't know if it slides calendars around for you :). –  Seth Sep 19 '09 at 17:54
    
Seth, I think your comment really gets to the crux of it, I think you should incorporate it into your answer. –  Logan Capaldo Sep 19 '09 at 18:26
    
Seth are you sure the Gregorian calendar changed the length of a Day? It did change the average length of a year. And .NET does support Julian/Gregorian etc through the CultureInfo class. I would have to test if it adjusts around the change-over date(s). –  Henk Holterman Sep 19 '09 at 21:55
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Just because you can define an operation doesn't mean you should. For example, one of the reasons division by zero is undefined is because defining it would require sacrificing some very useful properties of arithmetic (eg. associativity, etc).

The distinction between a timespan and a date comes down to addition. It makes sense to add two timespans, but it doesn't make sense to add two dates unless you have an arbitrary reference date. By not allowing addition of dates, you abstract away that arbitrary reference date. I don't know what date '0' is in .Net, and I've never needed to know. Isn't that nice?

Adding two dates is almost always a bug (seriously, try to think of where this makes sense outside of numerology). By introducing timespans (creating an Affine Space) you eliminate a whole class of bugs.

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One reason is that splitting the types prevents a class of bugs where you think you have a relative time but really have an absolute time, and vice versa. For example, addition of two absolute times can be flagged as a compiler error if the two types are separate.

Also, IntelliSense (and discovery for newbies) works better when the number of members is smaller-- by splitting methods between the two types, working with each gets easier.

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Asked the other way round: what would the benefit of weakening the type system in that regard be?

It’s all a question of cost vs. benefit and DateTime has the great benefit of reducing bugs due to illogical date/time calculations by forbidding such actions. DateTime exists for very much the same reasons that a strict type-checking system exists in the first place: to make semantic errors in the code produce compile-time messages. that notify the programmers of errors in their code.

Conversely, there’s the cost of having DateTime: zilch.

Now consider dropping DateTime. What would we gain?

To answer your question directly: “isn't TimeSpan redundant?” Absolutely not, it reduces bugs. It definitely has, for me.

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Think about it conceptually. If I tell you that I'm having a party 7 days from now, is "7 days" in that sentence a date. Could I just say my party is on 7 days? Of course not, because 7 days isn't a date. One of the key ideas of object oriented programming is to represent concepts like this in the system as types. It's true that we could represent everything as an integer (and in fact, many people have and do), but in object oriented programming, we have the notion of types of items, and their behaviors and properties, and in that sense, it makes sense to have an object that expresses this.

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I think you could make the opposite argument that DateTime is redundant, and we should only have TimeSpan :)

Seriously, all dates really are just time spans. They are all relative to some starting point. Technically, there is no "year zero" in the Christian calendar (since you can't really have a "zeroth year of our lord"), but if we assign 12:00 A.M. January 1, 0001 B.C. as the "zero point", then every date that comes after (or before) can be thought of as relative to that date. So, 12:00 A.M. on September 19, 2009 would have a TimeSpan of 734033 days.

So, mathematically, DateTime and TimeSpan are redundant. But when we write code, we are attempting to communicate much more than just abstract mathematical constructs. Any given DateTime instance may in fact just be a time span relative to some arbitrary zero point, but to most people reading your code, it will imply a particular point on the calendar. Similarly, a TimeSpan implies the gap between two points on the calendar.

In this case, Microsoft has chosen to be clear rather than parsimonious. I can't say I disagree with the decision.

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If you only have a relative value, TimeSpan, then how do you express a date for output, as you need the point in time which is the epoch, which is not relative to anything. –  Pete Kirkham Sep 19 '09 at 19:59
    
@Pete, not sure I understand your question. We do it every today. Today is 09/19/09. That's nine months, nineteen days, and 2009 years after 1 BC. The absolute date is just a time span. –  devuxer Sep 19 '09 at 20:49
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There are a lot of complications in dates, for example:

  • leap years
  • leap seconds
  • the 1582 change to the gregorian calendar
  • the fact that there is no such thing as 0 years
  • differences in the lengths of months

Treating Dates and TimeSpans as different things means that these kinds of issues are much less likely to confuse you in practise.

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its sugar not more or less....

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7  
DateTime and TimeSpan are both internally represented by numbers, but neither is an actual number. If TimeSpan is sugar, then int[], char[], and string are just sugar for byte[]. Since this would dilute the meaning of syntactic sugar to a meaningless level, we can assume that calling TimeSpan sugar is unmerited. –  280Z28 Sep 19 '09 at 17:22
    
While the answer is a bit terse, the answer is none the less correct. A down vote here just says "I don't understand what he's saying" more than "this is incorrect". In fact, both DateTime and TimeSpan is unnecessary, if you would succumb to calculating dates using "number of seconds since date X time Y". –  Lasse V. Karlsen Sep 19 '09 at 20:37
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One could argue that the entire purpose of a type system is to add semantic meaning to values, and to enforce rules about how those values should be used. Not every abstraction over bits and bytes is just "sugar" -- otherwise, where would you end? Bits and bytes are just abstractions over electrical state changes. The whole point of computer languages is to reason about behavior, not implementation. –  Daniel Pryden Sep 20 '09 at 0:54
    
dou you really think you have to downvote me for giving an answer that has to be discussed? –  Kai Sep 23 '09 at 10:39
    
+1 It's a valid (if terse) response in my book. –  Philip Wallace Nov 4 '09 at 18:14
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