offsetof
| Defined in header <cstddef>
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| #define offsetof(type, member) /* implementation-defined */ |
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The macro offsetof expands to an integral constant expression of type std::size_t, the value of which is the offset, in bytes, from the beginning of an object of specified type to its specified subobject, including padding bits if any.
Given an object o of type type and static storage duration, o.member shall be an lvalue constant expression that refers to a subobject of o. Otherwise, the behavior is undefined. Particularly, if member is a static data member, a bit-field, or a member function, the behavior is undefined.
If type is not a PODType(until C++11)standard-layout type(since C++11), the result of offsetof is undefined(until C++17)use of the offsetof macro is conditionally-supported(since C++17).
The expression offsetof(type, member) is never type-dependent and it is value-dependent if and only if type is dependent.
Contents |
[edit] Exceptions
offsetof throws no exceptions.
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The expression noexcept(offsetof(type, member)) always evaluates to true. |
(since C++11) |
[edit] Notes
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The offset of the first member of a standard-layout type is always zero (empty-base optimization is mandatory). |
(since C++11) |
offsetof cannot be implemented in standard C++ and requires compiler support: GCC, LLVM.
member is not restricted to a direct member. It can denote a subobject of a given member, such as an element of an array member. This is specified by C DR 496.
It is specified in C23 that defining a new type containing an unparenthesized comma in offsetof is undefined behavior, and such usage is generally not supported by implementations in C++ modes: offsetof(struct Foo { int a, b; }, a) is rejected by all known implementations.
[edit] Example
#include <cstddef> #include <iostream> struct S { char m0; double m1; short m2; char m3; // private: int z; // warning: 'S' is a non-standard-layout type }; int main() { std::cout << "offset of char m0 = " << offsetof(S, m0) << '\n' << "offset of double m1 = " << offsetof(S, m1) << '\n' << "offset of short m2 = " << offsetof(S, m2) << '\n' << "offset of char m3 = " << offsetof(S, m3) << '\n'; }
Possible output:
offset of char m0 = 0 offset of double m1 = 8 offset of short m2 = 16 offset of char m3 = 18
[edit] Defect reports
The following behavior-changing defect reports were applied retroactively to previously published C++ standards.
| DR | Applied to | Behavior as published | Correct behavior |
|---|---|---|---|
| CWG 273 | C++98 | offsetof may not work if unary operator& is overloaded
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required to work correctly even if operator& is overloaded
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| LWG 306 | C++98 | the behavior was not specified when type is not a PODType
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the result is undefined in this case |
| LWG 449 | C++98 | other requirements of offsetof wereremoved by the resolution of LWG issue 306 |
added them back |
[edit] See also
| unsigned integer type returned by the sizeof operator (typedef) | |
| (C++11) |
checks if a type is a standard-layout type (class template) |
| C documentation for offsetof
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