Previously, in basic.lval, there was this bullet point:

an aggregate or union type that includes one of the aforementioned types among its elements or non-static data members (including, recursively, an element or non-static data member of a subaggregate or contained union),

In the current draft, it is gone.

There is some background information at WG21's site: http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2019/p1359r0.html#2051:

The aliasing rules of 7.2.1 [basic.lval] paragraph 10 were adapted from C with additions for C++. However, a number of the points either do not apply or are subsumed by other points. For example, the provision for aggregate and union types is needed in C for struct assignment, which in C++ is done via constructors and assignment operators in C++, not by accessing the complete object.

Can anyone explain to me, what this means? What has this strict aliasing rule to do with struct assignment in C?

cppreference says about this rule:

These bullets describe situations that cannot arise in C++

I don't understand, why it is true. For example,

struct Foo {
    float x;

float y;
float z = reinterpret_cast<Foo*>(&y)->x;

The last line seems to do what the bullet point describes. It accesses y (a float) through an aggregate, which includes a float (member x).

Can anyone shed some light on this?

  • The first bullet point never made much sense anyway (in either language) so I'm glad to see it gone!
    – M.M
    Jul 4, 2019 at 0:25
  • @M.M could you explain the "in either language" claim? Jul 4, 2019 at 0:33
  • @LanguageLawyer in C or C++
    – M.M
    Jul 4, 2019 at 0:35
  • @M.M I mean why it does not make sense in C Jul 4, 2019 at 0:36
  • 2
    @LanguageLawyer say you have struct S { int a; float b; }; and float *c = malloc(100); and int and float are the same size and no padding; then c[0] = c[1] = 0; S s = *(S *)c; is not an aliasing violation according to that text, because the float c[0] is accessed by an aggregate type that has a float as its member (never mind the fact that the offset of the member doesn't correspond to the memory being accessed)
    – M.M
    Jul 4, 2019 at 0:44

1 Answer 1


The lvalue you use to access the stored value of y is not *reinterpret_cast<Foo*>(&y), of type Foo, but it is reinterpret_cast<Foo*>(&y)->x, which has the type float. Accessing a float using an lvalue of type float is fine. In C++, you can not "access the value of a union or struct" (as whole), you can only access individual members. The rationale you quoted points to a difference between C and C++:

  struct X { int a, b; };
  struct X v1 = {1, 2}, v2;
  v2 = v1;

In C, the standard says that the assignment loads the value of v1 (as whole) to assign it to v2. Here the values of the objects v1.a and v2.b (both have types int) are accessed using an lvalue of type struct X (which is not int).

In C++, the standard says that the assignment calls the compiler generated assignment operator which is equivalent to

struct X {
   struct X& operator=(const struct X&other)
       a = other.a;
       b = other.b;

In this case, calling the assignment operator does not access any value, because the RHS is passed by reference. And executing the assignment operator accesses the two int fields separately (which is fine, even without the aggregate rule), so this is again not accessing a value through an lvalue of type struct X.

  • What would the rule say in circumstances where storage received from malloc is written using one PODS and read with another that has the same layout?
    – supercat
    Jul 3, 2019 at 22:39
  • 3
    I agree with this answer, but I think an unwritten assumption in the question is that A.B "accesses" A (and so P->B "accesses" *P). I don't see anything in the Standard that clearly states that's not so, but the fact that A.B on its own does not imply modification or lvalue-to-rvalue of anything supports it.
    – aschepler
    Jul 3, 2019 at 22:47
  • @supercat This rule still is OK with it. If the two types are layout-compatible, the individual members are layout-compatible. If they are layout-compatible, accessing members from one POD type through a pointer to a different POD type is covered by an earlier bullet in the "aliasing clause". Jul 3, 2019 at 22:59
  • @MichaelKarcher: From what I can tell, neither gcc nor clang supports such usage. What's needed to make the C rule work is recognition that an access via pointer which is visibly derived from an lvalue should be considered as an access to that lvalue, but gcc doesn't support that usage either.
    – supercat
    Jul 4, 2019 at 0:29
  • What if Foo is struct Foo { char c; float x; };? Can't we say that in float z = reinterpret_cast<Foo*>(&y)->x; we access y through an lvalue of type float and so this is fine, too?
    – Evg
    Jan 6, 2020 at 6:49

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