As of C++14, thanks to n3781 (which in itself does not answer this question) we may write code like the following:

const int x = 1'234; // one thousand two hundred and thirty four

The aim is to improve on code like this:

const int y = 100000000;

and make it more readable.

The underscore (_) character was already taken in C++11 by user-defined literals, and the comma (,) has localisation problems — many European countries bafflingly use this as the decimal separator — and conflicts with the comma operator, though I do wonder what real-world code could possibly have been broken by allowing e.g. 1,234,567.

Anyway, a better solution would seem to be the space character:

const int z = 1 000 000;

These adjacent numeric literal tokens could be concatenated by the preprocessor just as are string literals:

const char x[5] = "a" "bc" "d";

Instead, we get the apostrophe ('), not used by any writing system I'm aware of as a digit separator.

Is there a reason that the apostrophe was chosen instead of a simple space?

It's baffling because all of those languages, within text, maintain the notion of a comma "breaking apart" an otherwise atomic sentence, with a period functioning to "terminate" the sentence — to me, at least, this is quite analogous to a comma "breaking apart" the integral part of a number and a period "terminating" it ready for the fractional input.

  • 24
    Regarding the comma, isn't the issue the comma operator, rather than localization problems? Jan 4, 2015 at 16:49
  • 52
    @LightnessRacesinOrbit: I assume nobody intended to change the meaning of int a[] = {123,000,000}. As for the comma versus period distinction, note that these are fairly recently standardized - both in text and numbers.
    – MSalters
    Jan 4, 2015 at 17:20
  • 5
    Besides from technical points, you say that the apostrophe ('), [is] not used by any writing system I'm aware of as a digit separator. There is one country using the apostrophe as digit separator: Switzerland. I’ve also seen it in instances where the author likes it more or a point/comma would cause confusion, since they are used differently internationally.
    – dlrlc
    Jan 4, 2015 at 20:50
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    If that makes you feel any better, I'm european and thanks to many products being made in the usa (calculators, etc) using commas for decimal values is - fortunately - very slowly falling out of flavor. I would say 0.99 is now more widely used than 0,99; using commas as thousand separator is unheard of though, as is using dots, we just don't separate them (probably because 1,234 and 1.234 both mean decimals nowadays) Jan 4, 2015 at 22:10
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    @BenjaminLindley I'd have thought the issue with comma would be the ambiguity in the case of int foo(int);int foo(int,int); foo(1,000);
    – Cubic
    Jan 5, 2015 at 1:29

7 Answers 7


There is a previous paper, n3499, which tell us that although Bjarne himself suggested spaces as separators:

While this approach is consistent with one common typeographic style, it suffers from some compatibility problems.

  • It does not match the syntax for a pp-number, and would minimally require extending that syntax.
  • More importantly, there would be some syntactic ambiguity when a hexadecimal digit in the range [a-f] follows a space. The preprocessor would not know whether to perform symbol substitution starting after the space.
  • It would likely make editing tools that grab "words" less reliable.

I guess the following example is the main problem noted:

const int x = 0x123 a;

though in my opinion this rationale is fairly weak. I still can't think of a real-world example to break it.

The "editing tools" rationale is even worse, since 1'234 breaks basically every syntax highlighter known to mankind (e.g. that used by Markdown in the above question itself!) and makes updated versions of said highlighters much harder to implement.

Still, for better or worse, this is the rationale that led to the adoption of apostrophes instead.

  • 4
    @aschepler: If I were President of Earth, it would be the case that a "literal" would include a space in its production, making 0x123 a45 a single, albeit-multi-token literal. Can you think of a scenario in which a45 being interpreted as part of an integer literal here would not be desired? There's no operator or anything before it so what else could it ever be? Jan 4, 2015 at 16:55
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    #define abc + 1, const int x = 0x123 abc;
    – T.C.
    Jan 4, 2015 at 17:21
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    @T.C. Macros are expanded in phase 4, and string literals are concatenated in phase 6. I would expect "number literal concatenation" to also take place in phase 6, thus maintaining the behaviour of your example code and not breaking anything. Jan 4, 2015 at 17:28
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    @LightnessRacesinOrbit I'm not sure if it's that easy. To permit macro replacement you'd have to parse abc as an identifier, but then you'd have to specify some sort of concatenation of a pp-number and an identifier, which is...weird. Besides, there are apparently also significant concerns with breaking Objective-C.
    – T.C.
    Jan 4, 2015 at 17:41
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    @supercat: That's terrible code and I would rather we did not optimise for it ;p Jan 4, 2015 at 20:28

The obvious reason for not using white space is that a new line is also white space, and that C++ treats all white space identically. And off hand, I don't know of any language which accepts arbitrary white space as a separator.

Presumably, Unicode 0xA0 (non-breaking space) could be used—it is the most widely used solution when typesetting. I see two problems with that, however: first, it's not in the basic character set, and second, it's not visually distinctive; you can't see that it isn't a space by just looking at the text in a normal editor.

Beyond that, there aren't many choices. You can't use the comma, since that is already a legal token (and something like 1,234 is currently legal C++, with the meaning 234). And in a context where it could occur in legal code, e.g. a[1,234]. While I can't quite imagine any real code actually using this, there is a basic rule that no legal program, regardless how absurd, should silently change semantics.

Similar considerations mean that _ can't be used either; if there is a #define _234 * 2, then a[1_234] would silently change the meaning of the code.

I can't say that I'm particularly pleased with the choice of ', but it does have the advantage of being used in continental Europe, at least in some types of texts. (I seem to remember having seen it in German, for example, although in typical running text, German, like most other languages, will use a point or a non breaking space. But maybe it was Swiss German.) The problem with ' is parsing; the sequence '1' is already legal, as is '123'. So something like 1'234 could be a 1, followed by the start of a character constant; I'm not sure how far you have to look-ahead to make the decision. There is no sequence of legal C++ in which an integral constant can be followed by a character constant, so there's no problem with breaking legal code, but it means that lexical scanning suddenly becomes very context dependent.

(With regards to your comment: there is no logic in the choice of a decimal or a thousands separator. A decimal separator, for example, is certainly not a full stop. They are just arbitrary conventions.)

  • 1
    "a new line is also white space". Sorry if I am being silly hear, but why is that? :)
    – gsamaras
    Jan 4, 2015 at 18:41
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    @G.Samaras: C defines "whitespace" to be "... space, horizontal tab, new-line, vertical tab, and form-feed", and this is entirely conventional. Jan 4, 2015 at 19:17
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    @LightnessRacesinOrbit Or even void f(int); void f(int, int); f(12,345);
    – T.C.
    Jan 4, 2015 at 19:18
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    @CraigMcQueen It's a multi-character literal. Not very useful, because of it's implementation-defined nature. Jan 5, 2015 at 1:06
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    @G.Samaras Because C++ is not line oriented. A new line plays exactly the same role as any other white space in the language. Jan 5, 2015 at 1:11

From wiki, we have a nice example:

auto floating_point_literal = 0.000'015'3;

Here, we have the . operator and then if another operator would be to be met, my eyes would wait for something visible, like a comma or something, not a whitespace.

So an apostrophe does much better here than a whitespace would do.

With whitespaces it would be

auto floating_point_literal = 0.000 015 3;

which doesn't feel as right as the case with the apostrophes.

In the same spirit of Albert Renshaw's answer, I think that the apostrophe is more clear than the space the Lightness Races in Orbit proposes.

type a = 1'000'000'000'000'000'544'445'555;
type a = 1 000 000 000 000 000 544 445 555;

Space is used for many things, like the strings concatenation the OP mentions, unlike the apostrophe, which in this case makes it clear for someone that is used separating the digits.

When the lines of code become many, I think that this will improve readability, but I doubt that is the reason they choose it.

About the spaces, it might worth taking a look at this C question, which says:

The language doesn't allow int i = 10 000; (an integer literal is one token, the intervening whitespace splits it into two tokens) but there's typically little to no expense incurred by expressing the initializer as an expression that is a calculation of literals:

int i = 10 * 1000; /* ten thousand */

  • Often the long number you're expressing doesn't end in all zeros, in which case your 10*1000 example doesn't work. Jan 4, 2015 at 17:17
  • @MarkRansom this is an example pasted from the answer I linked. You think I should modify it?
    – gsamaras
    Jan 4, 2015 at 17:18
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    You are, I assume, aware of the publication date (specifically, the month and day, not so much the year) of that paper on whitespace overloading, right? Jan 4, 2015 at 17:24
  • Yeah not so modern, I am going to edit @BenjaminLindley.
    – gsamaras
    Jan 4, 2015 at 17:25
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    The modernity of it was not the concern. Investigate it a bit more carefully. If the date has no significant meaning in your part of the world, google it. Jan 4, 2015 at 17:26

It is true I see no practical meaning to:

if (a == 1 1 1 1 1) ...

so digits might be merged without real ambiguity but what about an hexadecimal number?

0 x 1 a B 2 3

There is no way to disambiguate from a typo doing so (normally we should see an error)

  • Well, simple. It would be valid code now, instead of an error. A typo can still result in valid code, and there is absolutely no way to prevent this if your 'language' consists of more than one word.
    – Cubic
    Jan 5, 2015 at 1:32

I would assume it's because, while writing code, if you reach the end of a "line" (the width of your screen) an automatic line-break (or "word wrap") occurs. This would cause your int to get split in half, one half of it would be on the first line, the second half on the second... this way it all stays together in the event of a word-wrap.

  • 3
    I'm not on the C++ design committee, but from what I gather concerns like these typically don't factor into the decision-making. Jan 4, 2015 at 16:51
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    I don't think that this is the reason, but it's an interesting one that I had not considered. Open to more ideas in more answers from people :) Jan 4, 2015 at 16:51
  • @LightnessRacesinOrbit Also, it probably also prevents code compilers from omitting your numeric-breaks. Spaces would get stripped, these could be left. But that's just a silly possibility that anyone would care about this haha. Jan 4, 2015 at 17:10
  • @AlbertRenshaw: I don't follow? Jan 4, 2015 at 17:14
float floating_point_literal = 0.0000153;   /* C, C++*/

auto floating_point_literal = 0.0000153;    // C++11

auto floating_point_literal = 0.000'015'3;  // C++14

Commenting does not hurt:

/*  0. 0000 1530 */ 
float floating_point_literal = 0.00001530; 

Binary strings can be hard to parse:

long bytecode = 0b1111011010011001; /* gcc , clang */  

long bytecode = 0b1111'0110'1001'1001;  //C++14
// 0b 1111 0110 1001 1001  would be better, really.
// It is how humans think.

A macro for consideration:

#define B(W,X,Y,Z)    (0b##W##X##Y##Z)
#define HEX(W,X,Y,Z)  (0x##W##X##Y##Z)
#define OCT(O)        (0##O)

long z = B(1001, 1001, 1020, 1032 ); 

// result :  long z = (0b1001100110201032);

 long h = OCT( 35); 

// result :  long h  = (035); // 35_oct => 29_dec

 long h = HEX( FF, A6, 3B, D0 ); 

// result :  long h  = (0xFFA6BD0);
  • 4
    This doesn't answer the question.
    – Zereges
    Aug 26, 2018 at 21:18
  • 7
    Oh yes, commenting does hurt. One problem is that the comment might be wrong, now or in future. The other is that repetititititititition hinders readability and is error-prone. Aug 26, 2018 at 21:35
  • @Deduplicator In this case a wrong comment is pretty trivial to spot (the comment doesn't add meaning, it just re-formats the information below it). Aug 28, 2018 at 10:38
  • Sure in this case it's easy to spot. If you divert your attention a bit to try doing so. Aug 28, 2018 at 13:55

It has to do with how the language is parsed. It would have been difficult for the compiler authors to rewrite their products to accept space delimited literals.

Also, I don't think seperating digits with spaces is very common. That i've seen, it's always non-whitespace characters, even in different countries.

  • 1
    They had to change their parsers anyway. May 8, 2017 at 8:58
  • @BoundaryImposition I'm afraid you don't understand. Whitespace already has a meaning in the language. One that is fundamental. Changing 12'345'678 (digit separators) into the binary form is about the same as without digit separators. It takes the same amount of effort for the compiler author. Whereas to redefine the tokenizing system itself would have been difficult. Plus space separated numbers look ugly.
    – iPherian
    May 8, 2017 at 22:41
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    I can assure you I do understand. The "tokenizing system" would not need to be "redefined". Consider, for example, string literal concatenation, which already works just fine. May 8, 2017 at 22:42
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    Whitespace only has a "fundamental" meaning inasmuch as it prevents two consecutive characters from being part of the same token. As the OP mentioned, this could be trivially slotted in to the "join adjacent string literals" preprocessor pass. The (main) parser would never even see it.
    – Sneftel
    May 28, 2018 at 15:09
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    I am afraid you overmystify the tokenizer. You could either do as is done for string literals, for which concatenation happens in translation phase 6, i.e. in phase 6, ["foobar"] ["frob"] becomes ["foobarfrob]. Or the tokenizer could be extended to absorb spaces: decimal_literal ::= [1-9][0-9]+[uU]?(l|L|ll|LL)? becomes decimal_literal ::= [1-9][ 0-9]+[uU]?(l|L|ll|LL)?, in which case the literal has to be normalized later. It's basically the same operation mode as for '. Not sure what you really want to say :| Nov 13, 2018 at 12:46

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