If I do a cast from a Base to a Derived type, but the Base type isn't an instance of derived type, but only use the result if it is, do I get undefined behaviour?

Hard to understand what I'm asking? take a look at this example:

struct Animal { int GetType(){...} };
struct Dog : Animal { bool HasLoudBark(){...}};
struct Cat : Animal { bool HasEvilStare(){...} };

Animal * a = ...;
Dog* d = static_cast<Dog*>(a);

if(a->GetType() == DogType && d->HasLoudBark())

In this case a may or not be a Dog. We always do the static_cast of a to Dog * d but we never use d unless we're sure its a Dog.

Assuming that a is not a Dog, is this undefined behaviour at the point of the cast? Or is it defined as we don't actually use d unless it is really is a Dog?

References to the relevant parts of the standard are appreciated.

(Yes I know I can use dynamic_cast, and RTTI, and probably this isn't great code, but I'm more interested in whether this is valid)

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    Short answer; it is not valid. Longer answer; it depends on how all the missing parts are actually done. Please post a minimal reproducible example that compiles. – wally Apr 23 '18 at 12:36
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    @wally Normally I'm totally up for MVCE however I'm not convinced this is actually useful. I only really give the example code to help explain the question - I dont actually care about the included code. Infact, the opposite - I'd be extremely interested in the opposite - assuming reasonable implementations of Animal, Dog, Cat Id love to know what would make a difference with the answer as you say it would change it. – Mike Vine Apr 23 '18 at 12:42
  • @wally I tweaked my question to hopefully make this clearer. – Mike Vine Apr 23 '18 at 12:49

The cast itself has undefined behaviour. Quoting C++17 (n4659) [expr.static.cast] 8.2.10/11:

A prvalue of type “pointer to cv1 B”, where B is a class type, can be converted to a prvalue of type “pointer to cv2 D”, where D is a class derived (Clause 13) from B, if cv2 is the same cv-qualification as, or greater cv-qualification than, cv1. ... If the prvalue of type “pointer to cv1 B” points to a B that is actually a subobject of an object of type D, the resulting pointer points to the enclosing object of type D. Otherwise, the behavior is undefined.

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    If I'm not mistaken, OP would be safe with a reinterpret_cast, right? – YSC Apr 23 '18 at 12:55
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    @MikeVine I think undefined behavior means that your contract with the standard does not have to be honored for the whole program. In practice I don't see this formatting your cat. – wally Apr 23 '18 at 12:59
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    @user1810087 Very funny. The question says "References to the relevant parts of the standard are appreciated." – Angew Apr 23 '18 at 12:59
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    @MikeVine As soon as a program exhibits UB anywhere, the standard places no restrictions on its behaviour even before the UB construct is first reached at runtime. In other words, if a program has UB, all bets are off. – Angew Apr 23 '18 at 13:00
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    @Angew This also licenses compilers to assume that UB doesn't happen. So in the example code, the compiler can assume that a points to a Dog, and optimize a->getType() == DogType into true. – Barmar Apr 23 '18 at 20:08

This is undefined behaviour, but (funny enough) if you would have used reinterpret_cast instead of static_cast, you would cast that demon away.


An object pointer can be explicitly converted to an object pointer of a different type. When a prvalue v of object pointer type is converted to the object pointer type “pointer to cv T”, the result is static_­cast<cv T*>(static_­cast<cv void*>(v)).

As noted by user Angew, this "requires a particular internal representation which ensures that static_cast<void*>(d) == static_cast<void*>(a) when a == d".

This is expressed by [class.mem]/22 to 26:


If a standard-layout class object has any non-static data members, its address is the same as the address of its first non-static data member if that member is not a bit-field. Its address is also the same as the address of each of its base class subobjects.

So if GetType() of Animal returns the value of a non-static data member from the common initial sequence of Animal and Dog, the behavior is defined.

Those requirements are met when dealing with simple inheritance and default-aligned objects.

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