Is there a difference between the following definitions?

const     double PI = 3.141592653589793;
constexpr double PI = 3.141592653589793;

If not, which style is preferred in C++11?


I believe there is a difference. Let's rename them so that we can talk about them more easily:

const     double PI1 = 3.141592653589793;
constexpr double PI2 = 3.141592653589793;

Both PI1 and PI2 are constant, meaning you can not modify them. However only PI2 is a compile-time constant. It shall be initialized at compile time. PI1 may be initialized at compile time or run time. Furthermore, only PI2 can be used in a context that requires a compile-time constant. For example:

constexpr double PI3 = PI1;  // error


constexpr double PI3 = PI2;  // ok


static_assert(PI1 == 3.141592653589793, "");  // error


static_assert(PI2 == 3.141592653589793, "");  // ok

As to which you should use? Use whichever meets your needs. Do you want to ensure that you have a compile time constant that can be used in contexts where a compile-time constant is required? Do you want to be able to initialize it with a computation done at run time? Etc.

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    Are you sure? Because const int N = 10; char a[N]; works, and array bounds must be compile-time constants. – fredoverflow Nov 12 '12 at 16:22
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    I am sure as far as the examples I wrote go (tested each of them before posting). However my compiler does let me convert PI1 to a compile-time integral constant for use in an array, but not for use as a non-type integral template parameter. So the compile-time convertibility of PI1 to an integral type seems a little hit & miss to me. – Howard Hinnant Nov 12 '12 at 16:26
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    @FredOverflow: Non-const array indices have "worked" for about a decade (there's for example a g++ extension for that), but that does not mean it's strictly legal C++ (though some more recent C or C++ standard made it legal, I forgot which one). As for differences in compiletime constants, template parameters and use as enum initializer are the only two notable differences between const and constexpr (and neither works for double anyway). – Damon Nov 12 '12 at 16:53
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    Paragraph 4 of 5.19 Constant expressions [expr.const] is also a (non-normative) note that famously outlines that an implementation is allowed to do floating-point arithmetic differently (e.g. with respect to accuracy) at compile-time than at runtime. So 1 / PI1 and 1 / PI2 may yield different results. I don't think this technicality is quite as important as the advice in this answer however. – Luc Danton Nov 12 '12 at 19:07
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    But it constexpr double PI3 = PI1; works correctly for me. (MSVS2013 CTP). What am I doing wrong? – NuPagadi Mar 10 '14 at 15:32

No difference here, but it matters when you have a type that has a constructor.

struct S {
    constexpr S(int);

const S s0(0);
constexpr S s1(1);

s0 is a constant, but it does not promise to be initialized at compile-time. s1 is marked constexpr, so it is a constant and, because S's constructor is also marked constexpr, it will be initialized at compile-time.

Mostly this matters when initialization at runtime would be time-consuming and you want to push that work off onto the compiler, where it's also time-consuming, but doesn't slow down execution time of the compiled program

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    I agree: the conclusion I arrived to was that constexpr would lead to a diagnosis should the compile-time computation of the object be impossible. What is less clear is whether a function expecting a constant parameter could be executed at compile-time should the parameter be declared as const and not as constexpr: ie, would constexpr int foo(S) be executed at compile-time if I call foo(s0) ? – Matthieu M. Nov 12 '12 at 16:07
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    @MatthieuM: I doubt whether foo(s0) would be executed at compile-time, but you never know: a compiler is allowed to do such optimizations. Certainly, neither gcc 4.7.2 nor clang 3.2 allow me to compile constexpr a = foo(s0); – rici Nov 12 '12 at 17:16

constexpr indicates a value that's constant and known during compilation.
const indicates a value that's only constant; it's not compulsory to know during compilation.

int sz;
constexpr auto arraySize1 = sz;    // error! sz's value unknown at compilation
std::array<int, sz> data1;         // error! same problem

constexpr auto arraySize2 = 10;    // fine, 10 is a compile-time constant
std::array<int, arraySize2> data2; // fine, arraySize2 is constexpr

Note that const doesn’t offer the same guarantee as constexpr, because const objects need not be initialized with values known during compilation.

int sz;
const auto arraySize = sz;       // fine, arraySize is const copy of sz
std::array<int, arraySize> data; // error! arraySize's value unknown at compilation

All constexpr objects are const, but not all const objects are constexpr.

If you want compilers to guarantee that a variable has a value that can be used in contexts requiring compile-time constants, the tool to reach for is constexpr, not const.

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    I liked your explanation a lot..can you please comment more on Where are the cases we may need to use compile time constants in real life scenarios. – Mayukh Sarkar Aug 1 '16 at 9:07
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    @MayukhSarkar Simply Google C++ why constexpr, e.g. stackoverflow.com/questions/4748083/… – underscore_d Aug 13 '16 at 19:27

A constexpr symbolic constant must be given a value that is known at compile time. For example:

constexpr int max = 100; 
void use(int n)
    constexpr int c1 = max+7; // OK: c1 is 107
    constexpr int c2 = n+7;   // Error: we don’t know the value of c2
    // ...

To handle cases where the value of a “variable” that is initialized with a value that is not known at compile time but never changes after initialization, C++ offers a second form of constant (a const). For Example:

constexpr int max = 100; 
void use(int n)
    constexpr int c1 = max+7; // OK: c1 is 107
    const int c2 = n+7; // OK, but don’t try to change the value of c2
    // ...
    c2 = 7; // error: c2 is a const

Such “const variables” are very common for two reasons:

  1. C++98 did not have constexpr, so people used const.
  2. List item “Variables” that are not constant expressions (their value is not known at compile time) but do not change values after initialization are in themselves widely useful.

Reference : "Programming: Principles and Practice Using C++" by Stroustrup

  • 22
    Perhaps you should have mentioned that the text in your answer is taken verbatim from "Programming: Principles and Practice Using C++" by Stroustrup – Aky May 16 '16 at 21:14

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