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Can a c-style cast call an explicit conversion constructor?

Consider the following code:

class Vec3

    explicit Vec3(float All) 
        : X(All), Y(All), Z(All)

    Vec3(float InX, float InY, float InZ)
        : X(InX), Y(InY), Z(InZ)

        : X(0), Y(0), Z(0)

    float X, Y, Z;

void Morph(const Vec3& In, Vec3& Out)
    Out = In;

int main(void)
    float Array[3] = {1.0f, 2.0f, 3.0f};
    Vec3 Morphed;
    Morph((const Vec3&)Array[0], Morphed);

On Microsoft VS2010's compiler, it converts the line (const Vec3&)Array[0] to a reinterpret_cast and a copy constructor to pass the parameter to the function. Morphed gets a value of [1.0f, 2.0f, 3.0f].

On another compiler from a third party, it converts (const Vec3&)Array[0] to a call to explicit Vec3(float) and then the copy constructor to pass the parameter to the function. Morphed gets a value of [1.0f, 1.0f, 1.0f].

I verified this by looking at the disassembly from both compilers:


   483:     float Array[3] = {1.0f, 2.0f, 3.0f};
0000000143E68049  movss       xmm0,dword ptr [__real@3f800000 (145DA1F18h)]  
0000000143E68051  movss       dword ptr [rsp+28h],xmm0  
0000000143E68057  movss       xmm0,dword ptr [__real@40000000 (145DC9704h)]  
0000000143E6805F  movss       dword ptr [rsp+2Ch],xmm0  
0000000143E68065  movss       xmm0,dword ptr [__real@40400000 (145DC9708h)]  
0000000143E6806D  movss       dword ptr [rsp+30h],xmm0  
   484:     Vec3 Morphed;
0000000143E68073  xorps       xmm0,xmm0  
0000000143E68076  movss       dword ptr [rsp+58h],xmm0  
0000000143E6807C  xorps       xmm0,xmm0  
0000000143E6807F  movss       dword ptr [rsp+5Ch],xmm0  
0000000143E68085  xorps       xmm0,xmm0  
0000000143E68088  movss       dword ptr [rsp+60h],xmm0  
   485:     Morph((const Vec3&)Array[0], Morphed);
0000000143E6808E  lea         rdx,[rsp+58h]  
0000000143E68093  lea         rcx,[rsp+28h]  
0000000143E68098  call        Morph (143E67FB0h) 

Other compiler:

   184:     float Array[3] {1.0f, 2.0f, 3.0f};
0000000001E1F3B0  mov          rax,qword ptr [000000000432D1B0h] 
0000000001E1F3B7  mov          qword ptr [rbp-14h],rax 
0000000001E1F3BB  mov          edi,dword ptr [000000000432D1B8h] 
0000000001E1F3C1  mov          dword ptr [rbp-0Ch],edi 
   185:     Vec3 Morphed;
0000000001E1F3C4  lea          rdi,[rbp-130h] 
0000000001E1F3CB  call         Vec3::Vec3() (0000000003C119C0h) 
   186:     Morph((const Vec3&)Array[0], Morphed);
0000000001E1F3D0  lea          rdi,[rbp-140h] 
0000000001E1F3D7  vmovss       xmm0,dword ptr [rbp-14h] 
0000000001E1F3DC  call         Vec3::Vec3(float) (0000000003C119E0h) 
0000000001E1F3E1  lea          rdi,[rbp-140h] 
0000000001E1F3E8  lea          rsi,[rbp-130h] 
0000000001E1F3EF  call         Morph(Vec3 const&,Vec3&) (0000000001E1F350h) 

Needless to say, this is causing many problems. Which compiler is correct? The third party code relies on Microsoft's implementation, but we are compiling with a different compiler for a different platform.

share|improve this question
I'd say with high likelihood the very common VC compiler will be correct and not some third party compiler. Also, it seems wrong since the cast is to (const Vec3&) and not (Vec3). –  Janick Bernet Aug 31 '13 at 0:16
As far as the standard is concerned, converting a const float & into a const Vec3 & is undefined behavior. So either one is legit. –  Nicol Bolas Aug 31 '13 at 0:16
Fixing your problem is easy. Instead of type punning with C-style casts, change the cast to static_cast<Vec>(Array[0]) and the constructor you desire will be called. Also, both GCC and clang behave the same as VC. –  Praetorian Aug 31 '13 at 0:23
Yeah, I'm currently fixing it. Unfortunately the code that's doing this is in a third party and is used often. Luckily we have the source to edit. The code expects the behavior of Microsoft's implementation. –  Chris Cooper Aug 31 '13 at 0:25
@inflagranti Visual Studio "supports" many non-standard behaviors. –  Neil Kirk Aug 31 '13 at 0:36

3 Answers 3

up vote 4 down vote accepted

As far as the C++ standard is concerned, the conversion of a float & into a const Vec3 & is undefined behavior. Both compilers are right because the code is outside of the protection of C++.

If you want this to be a protected conversion, you have to stop the type punning and do a real copy of the float array into a Vec3.

share|improve this answer
Is it really UB? Since both are reference types they should have the same size, and as such, the C-style cast will (eventually) attempt and succeed with a reinterpret_cast. That brings it into implementation-defined territory. –  Praetorian Aug 31 '13 at 0:20
@Praetorian: The reinterpret_casting of a reference to one type into a reference to another type which it is not layout compatible with yields undefined behavior. float and Vec3 are not layout compatible. –  Nicol Bolas Aug 31 '13 at 0:22

Since you have access to the source code, do it right, where "right" means something that does not invoking undefined behavior. Add a conversion constructor to your class:

Vec3(const float* arr) : X(arr[0]), Y(arr[1]), Z(arr[2]) {}

Now you can call Morph(Array, Morphed); to "morph" that array to a Vec3, or even shorter, just use Morphed = Array;

share|improve this answer

To fix the code, cast to Vec3 instead of to const Vec3&. When casting to the reference, the subsequent creation of a Vec3 wont allow explicit constructors.

Directly specifying the class type will directly create an object of it and allow explicit constructors to be used.

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