194

To start you probably know that const can be used to make either an object's data or a pointer not modifiable or both.

const Object* obj; // can't change data
Object* const obj; // can't change pointer
const Object* const obj; // can't change data or pointer

However you can also use the syntax:

Object const *obj; // same as const Object* obj;

The only thing that seems to matter is which side of the asterisk you put the const keyword. Personally I prefer to put const on the left of the type to specify its data is not modifiable as I find it reads better in my left-to-right mindset but which syntax came first?

More importantly why is there two correct ways of specifying const data and in what situation would you prefer or need one over the other if any?

Edit

So it sounds like this was an arbitrary decision when the standard for how compilers should interpret things was drafted long before I was born. Since const is applied to what is to the left of the keyword (by default?) I guess they figured there was no harm in adding "shortcuts" to apply keywords and type qualifiers in other ways at least until such a time as the declaration changes by parsing a * or & ...

This was the case in C as well then I'm assuming?

5
  • 13
    In macros always add const after the type, e.g. #define MAKE_CONST(T) T const instead of #define MAKE_CONST(T) const T so that MAKE_CONST(int *) will correctly expand to int * const instead of const int *.
    – jotik
    Jul 28, 2015 at 14:15
  • 14
    I have seen these two styles referred to as "east const" and "west const". Jan 10, 2018 at 16:55
  • 35
    @TomAnderson but really it should be "east const" and "const west".
    – YSC
    Nov 30, 2018 at 13:31
  • 2
    I'm going to go with mid-west const, being from Wisconstsin.
    – C. Tewalt
    Sep 30, 2022 at 17:29
  • @jotik Or just forget about that and don't use macros in C++ to begin with ;) Feb 7 at 19:00

9 Answers 9

139

why is there two correct ways of specifying const data and in what situation would you prefer or need one over the other if any?

Essentially, the reason that the position of const within specifiers prior to an asterisk does not matter is that the C grammar was defined that way by Kernighan and Ritchie.

The reason they defined the grammar in this way was likely that their C compiler parsed input from left-to-right and finished processing each token as it consumed that. Consuming the * token changes the state of the current declaration to a pointer type. Encountering const after * means the const qualifier is applied to a pointer declaration; encountering it prior to the * means the qualifier is applied to the data pointed to.

Because the semantic meaning does not change if the const qualifier appears before or after the type specifiers, it is accepted either way.

A similar sort of case arises when declaring function pointers, where:

  • void * function1(void) declares a function which returns void *,

  • void (* function2)(void) declares a function pointer to a function which returns void.

Again the thing to notice is that the language syntax supports a left-to-right parser.

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  • 11
    Kernighan co-authored the book but wasn't involved in the design of C, just Ritchie.
    – Tom Zych
    Sep 10, 2011 at 0:36
  • 19
    I never could remember which one is which. Thanks to your explanation I finally have mnemotechnic to remember it. Thanks! Before * compiler parser does not know it is pointer thus it is const for data value. After * it is related to constant pointer. Brilliant. And finally it explains why I can do const char as well as char const. Mar 10, 2017 at 17:48
  • 4
    The guess as to why it was done this way seems rather weak/self-contradictory to me. That is, if I were defining a language and writing a compiler, and I wanted to keep it simple and "parse input from left-to-right and finish processing each token as it consumes it", as you say, it seems to me I would require the const to always come after the thing it's qualifying... exactly so I could always finish processing the const immediately after I consume it. So this seems to be an argument for prohibiting west-const, rather than allowing it.
    – Don Hatch
    Jul 3, 2018 at 23:48
  • 3
    "Because the semantic meaning does not change if the const qualifier appears before or after the type specifiers, it is accepted either way." Isn't that circular reasoning? The question is why the semantic meaning is defined like that, so I don't think this sentence contributes anything.
    – Don Hatch
    Jul 3, 2018 at 23:52
  • 1
    @donhatch You have to remember that, relative to today and the assumptions we make based on our familiarity with good programming language design, languages were pretty new things back then. Also, whether one has a permissive or restricted language is a value judgement. E.g., should python have a ++ operator? "The sentence", imho, helped me realize there wasn't any particular reason other than because they could. Maybe they'd make a different choice today/maybe not. Oct 8, 2018 at 15:36
100

The rule is:

const applies to the thing left of it. If there is nothing on the left then it applies to the thing right of it.

I prefer using const on the right of the thing to be const just because it is the "original" way const is defined.

But I think this is a very subjective point of view.

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    I prefer putting it on the left, but I think putting it on the right makes more sense. You generally read types in C++ from right-to-left, for example Object const * is a pointer to a const Object. If you put the const on the left, it would read as a pointer to an Object that is const, which doesn't really flow very well. Mar 31, 2011 at 16:54
  • 1
    I'm under the impression that on the left is for human-style consistency with other kinds of C declarations (computer-wise it's not correct as const isn't a storage class, but people aren't parsers).
    – geekosaur
    Mar 31, 2011 at 17:09
  • 2
    @Heath I believe that is more of a guideline than a rule and I've heard it often as a way of remembering how the compiler will interpret it ... I understand how it works so I was only curious about the thought process behind the decision to support it both ways.
    – AJG85
    Mar 31, 2011 at 17:10
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    @HeathHunnicutt the rule exists, but it is just a little more complicated: c-faq.com/decl/spiral.anderson.html
    – geometrian
    Sep 5, 2014 at 6:30
  • 3
    @HeathHunnicutt: the spiral rule is the expanded version of the first commenter's comment "You generally read types in [C/]C++ from right-to-left". I presumed you were contradicting this. However, I think you may instead have been referring to the answer itself.
    – geometrian
    Oct 27, 2014 at 23:50
89

I prefer the second syntax. It helps me keep track of 'what' is constant by reading the type declaration from right to left:

Object * const obj;        // read right-to-left:  const pointer to Object
Object const * obj;        // read right-to-left:  pointer to const Object
Object const * const obj;  // read right-to-left:  const pointer to const Object
1
  • 4
    Exactly. A "constant pointer to a constant object" is Object const* const, not const const Object*. "const" cannot be on the left except in the special case where so many people absolutely love it. (See Heath above.)
    – cdunn2001
    Jan 21, 2014 at 4:26
52

The order of the keywords in a declaration isn't all that fixed. There are many alternatives to "the one true order". Like this

int long const long unsigned volatile i = 0;

or should it be

volatile unsigned long long int const i = 0;

??

3
  • @Bo: what about unsigned? I thought unsigned long etc. were types of their own, and that unsigned wasn't really a specifier of its own?
    – rubenvb
    May 19, 2011 at 14:21
  • 4
    @rubenvb - Yes, unsigned is a type, the same as unsigned int and int unsigned. unsigned long is another type, the same as unsigned long int and int long unsigned. See the pattern?
    – Bo Persson
    May 19, 2011 at 14:41
  • 1
    You used to be able to add static to the jumble of words, but only recently have compilers complained that static needs to come first. Jun 5, 2015 at 23:13
10

The first rule is to use whichever format your local coding standards requires. After that: putting the const in front leads to no end of confusion when typedefs are involved, e.g.:

typedef int* IntPtr;
const IntPtr p1;   // same as int* const p1;

If your coding standard allows typedef's of pointers, then it really should insist on putting the const after the type. In every case but when applied to the type, const must follow what it applies to, so coherence also argues in favor of the const after. But local coding guidelines trump all of these; the difference isn't normally important enough to go back and change all of the existing code.

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    I think that may highlight the reason why we don't have typedefs of pointers in our rather loosely defined standards at this shop.
    – AJG85
    Mar 31, 2011 at 17:22
  • 2
    My policy (when I get to decide alone) is to put the const after (for the sake of coherence) and to not use typedefs to pointers (or typedefs much in general):-). And BTW, string::iterator vs. string::const_iterator should probably be factored into your decision as well. (Just to confuse things:-). There is no right answer.) Mar 31, 2011 at 17:40
  • Ah yes I could have included the behavior of const std::string::const_iterator as well for good measure ;)
    – AJG85
    Mar 31, 2011 at 20:28
  • 3
    @JamesKanze — Wait a minute, help me out here... I don't see the confusion in the posted example. What else could const IntPtr p1 possibly mean other than "constant integer pointer" (i.e., "constant pointer to integer")? No one in their right mind, even without knowing how IntPtr is defined, would think that p1 is mutable. And for that matter, why would anyone incorrectly assume that *p1 is immutable? What's more, putting the const anywhere else (e.g., IntPtr const p1), doesn't change the semantics at all. Aug 11, 2014 at 1:42
  • 3
    @ToddLehman You might not see the confusion, but most C++ programmers do, and systematically get it wrong (no doubt helped by things like std::vector<T>::const_iterator, where it isn't the iterator which is const, but what it is pointing to). Aug 11, 2014 at 9:07
10

C uses a right-to-left syntax. Just read the declarations from right to left:

int var = 0;

// one is a pointer to a const int
int const * one = &var; 
// two is a pointer to an int const (same as "const int")
const int * two = &var; 

// three is a constant pointer to an int
int * const three = &var;

The first thing left to the "const" is affected by it.

For more fun read this guide: http://cseweb.ucsd.edu/~ricko/rt_lt.rule.html

9

There are historical reasons that either left or right is acceptable. Stroustrup had added const to C++ by 1983, but it didn't make it to C until C89/C90.

In C++ there's a good reason to always use const on the right. You'll be consistent everywhere because const member functions must be declared this way:

int getInt() const;
3
  • 1
    ...well, the "good reason" is not that much convincing, because other possible locations for the "const" would not mean the same thing. const int& getInt(); int& const getInt();
    – Maestro
    Apr 28, 2017 at 14:37
  • 1
    @Maestro: I am suggesting int const& getInt(); is better than the equivalent const int& getInt(); whereas int& const getInt(); that you compare it with is redundant (references are already const) though legal and will usually give a warning. Anyway, const on a member function changes the this pointer in the function from Foo* const to Foo const* const. Apr 29, 2017 at 3:29
  • const on a member function doesn’t mean at all the same thing—or is void set(int)&; some sort of a reference to a function? Jun 16, 2019 at 18:41
2

When I work with the existing code, I follow the way already being used which is most of the time, const on left e.g const int a = 10; but if I got a chance to work from start I choose the "right way", means const on right e.g int const a = 10;, which is a more universal approach and straightforward to read.

As mentioned already, the rule is

const applies to the thing left of it. If there is nothing on the left then it applies to the thing right of it.

Here is the example code for basic use cases.

int main() {
  int const a = 10; // Constant integer
  const int b = 20; // Constant integer (same as above)

  int c = 30; // Integer (changeable)
  int * const d = &c; // Constant pointer to changeable integer

  int const * e = &a; // Changeable pointer to constant integer

  int const * const f = &a; // Constant pointer to constant integer

  return 0;
}

At the end of the day, if there is no guideline to follow, this is subjective, and harmless to use either approach.

1

With

using P_Int = int *;

P_Int const a = nullptr;
int * const b = nullptr;

const P_Int c = nullptr;
const int * d = nullptr;

the variables a and b are the same type as each other but, somewhat confusingly, the variables c and d are not the same type as each other. My preference is for the first scenario, without the confusion: have const on the right of the type. N.B. it is the pointer that is const with a, b, and c; but the int is const with d.

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