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struct Data {
    int a;
    std::string b;
    float c;

std::string* allocateDataAndGetString() {
    Data* dataPtr(someAllocator.allocate<Data>());
    return &dataPtr.b;

Data* getBaseDataPtrFromString(std::string* mStringMember) {
    // ???

int main() {
    std::string* stringPtr(allocateDataAndGetString());
    Data* dataPtr(getBaseDataPtrFromString

I have a Data instance allocated on the heap, and a pointer to its std::string b; member. How do I get the base address of the Data instance the string is a member of, taking into account offsets and padding, in a standard way?

I've tried subtracting sizeof(int) and std::offsetof(Data, std::string) from the std::string* pointer, but I couldn't get it to work.

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looks doable and... horrible. I would say just.. don't. Can you come up with a valid use case? –  Karoly Horvath Feb 20 at 13:57
@KarolyHorvath: I'm using it for a (work in progress) bidirectional map implementation pastie.org/8752175 –  Vittorio Romeo Feb 20 at 14:33
@Yakk Asuming that ssvu::Uptr<Foo> is a flavor of unique_ptr, he's not using pointers to the elements, the elements are pointers. (I do note that SneakyBimap::emplace isn't exception safe - it will leak pair if storage.emplace_back throws. It's almost always a mistake to use an owning raw pointer.) –  Casey Feb 20 at 16:04
@Yakk, Casei: ssvu::Uptr is just an alias for std::unique_ptr. I don't undestand the emplace mistake - how can I fix it? –  Vittorio Romeo Feb 20 at 16:14
@VittorioRomeo Put the raw pointer in a unique_ptr before passing it to storage.emplace_back (a la storage.emplace_back(ssvu::Uptr<PairType>(pair))). The easiest way is to use make_unique in the first place, so that the memory is always owned by some smart pointer: auto pair = make_unique<PairType>(std::forward<TArgs>(mArgs)...)). –  Casey Feb 20 at 16:16

4 Answers 4

up vote 4 down vote accepted

Use offsetof from <cstddef>, but beware it is only defined on standard-layout types (Live at Coliru):

Data* getBaseDataPtrFromString(std::string* mStringMember) {
                  "offsetof() only works on standard-layout types.");
    return reinterpret_cast<Data*>(
      reinterpret_cast<char*>(mStringMember) - offsetof(Data, b)

offsetof is detailed in C++11 18.2/4:

The macro offsetof(type, member-designator) accepts a restricted set of type arguments in this International Standard. If type is not a standard-layout class (Clause 9), the results are undefined.195 The expression offsetof(type, member-designator) is never type-dependent ( and it is value-dependent ( if and only if type is dependent. The result of applying the offsetof macro to a field that is a static data member or a function member is undefined. No operation invoked by the offsetof macro shall throw an exception and noexcept(offsetof(type, member-designator)) shall be true.

and C99 (N1256) 7.17/3:

The macros are


which expands to an implementation-defined null pointer constant; and

offsetof(type, member-designator)

which expands to an integer constant expression that has type size_t, the value of which is the offset in bytes, to the structure member (designated by member-designator), from the beginning of its structure (designated by type). The type and member designator shall be such that given

static type t;

then the expression &(t.member-designator) evaluates to an address constant. (If the specified member is a bit-field, the behavior is undefined.)

The "restricted set of type arguments in this International Standard" in the C++ standard is there to draw your attention to the fact that offsetof is more restrictive than is the case for the C standard.

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offsetof gives the offset in chars, so you need to cast to mStringMember to char * before doing the pointer arithmetic.

(Data*)((char*)mStringMember - offsetof(Data, b))
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offsetof only works on standard-layout types.

There is a trick you might be able to use and does not require a standard layout: static_cast knows how to get to a more derived object from a pointer to one of its bases.

struct Data : private std::string {
    using b_base = std::string;
    // was int f() const { return b.size(); }
    int f() const { return b_base::size(); }

    int a;
    float c;
    friend Data* getBaseDataPtrFromString(std::string* mStringMember);

Data* getBaseDataPtrFromString(std::string* mStringMember) {
    return static_cast<Data*>(mStringMember);
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If you are dealing with literal types this also works in constexpr scopes because it has no reinterpret_cast. –  R. Martinho Fernandes Feb 20 at 14:43
I've accepted the answer using offsetof, but I'm curious about this one - I don't understand how it works, could you explain it further? Is inheritance required? Thanks. –  Vittorio Romeo Feb 21 at 15:48
Yes, inheritance is required for this to work. It works because static_cast knows how to properly adjust pointers from base types to derived types. –  R. Martinho Fernandes Feb 21 at 15:50
Here's a post by Raymond Chen that shows the same trick: blogs.msdn.com/b/oldnewthing/archive/2010/12/17/10106259.aspx –  R. Martinho Fernandes Feb 21 at 16:03

If you are sure that some ptr is in fact the address of some s->b (which is not always true) you might try to use offsetof:

Data* getBaseDataPtrFromString(std::string* ptr) {
   void* ad = (char*)ptr - offsetof(Data,b);
   return reinterpret_cast<Data*>(ad);

BTW, GCC has a builtin_offsetof to help implementing the offsetof macro (notably in more general cases than those required by the standard). See this question.

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