See this link: https://msdn.microsoft.com/query/dev14.query?appId=Dev14IDEF1&l=EN-US&k=k(C4503)&rd=true It suggests to write:

// C4503b.cpp  
// compile with: /W1 /EHsc /c  
#include <string>  
#include <map>  

class Field{};  
struct Screen2 {  
   std::map<std::string, Field> Element;  

struct WebApp2 {  
   std::map<std::string, Screen2> Element;  

struct WebAppTest2 {  
   std::map<std::string, WebApp2> Element;  

struct Hello2 {  
   std::map<std::string, WebAppTest2> Element;  

Hello2 MyWAT2;  

instead of

// C4503.cpp  
// compile with: /W1 /EHsc /c  
// C4503 expected  
#include <string>  
#include <map>  

class Field{};  

typedef std::map<std::string, Field> Screen;  
typedef std::map<std::string, Screen> WebApp;  
typedef std::map<std::string, WebApp> WebAppTest;  
typedef std::map<std::string, WebAppTest> Hello;  
Hello MyWAT; 

But those codes are not equivalent as with the typedefs Hello is an std::map while with structs it is just a struct that has a field which is a map which means I cannot use them interchangeably. Could someone explain the trick?

  • 4
    There is no trick. You'll have to add .Elements to your code. – melpomene Dec 7 '16 at 13:18
  • 6
    Isn't that link just a suggestion to workaround the issue of the decorated name being longer than the compiler limit rather than suggesting that this is an interchangeable usage? – EdChum Dec 7 '16 at 13:18
  • "You might, however, decide to not restructure your code.", that suggests to me that there's no trick implied, it's literally just suggesting to wrap your maps up in structs. – George Dec 7 '16 at 13:19
  • Use clang :-P = coliru.stacked-crooked.com/a/5ef55ab12b979785 – Gabriel Dec 7 '16 at 19:09

You're right, you can't use them interchangeably. In fact, Microsoft advise you to do so in order to overcome a technical difficulty from their end: they can't (or have difficulty to) handle mangled names longer than 4096 bytes.

In most case, a typedef would be a better solution over aggregation, I believe.

But since your compiler is somewhat limited, you may be stuck with their hack.

| improve this answer | |

If you want a solution which fulfills the goal of differentiating the (mangled, possibly truncated) names, but without the downside of an extra layer of naming, you can use inheritance:

class Screen : public std::map<std::string, Field>
    // forward constructors here
| improve this answer | |
  • 6
    beware std::map::~map() is not virtual – YSC Dec 7 '16 at 13:24
  • 2
    @YSC Actually, it only means that you should not allocate any resources which need to be freed in the wrapper class. map<std::string, Field> *mp = new Screen(); delete mp; works just fine. Or am I mistaken? (My second thoughts came with the idea of deeper inheritance hierarchies, multiple inheritance etc. Could there be memory de-allocation issues or would the raw memory always be handled properly?) – Peter - Reinstate Monica Dec 7 '16 at 13:28
  • I agree, this is just something to be aware of. I upvoted your answer since this is surely the best workaround. And multiple-layer wrappers should be fine unless you have a non-trivial destructor for them. – YSC Dec 7 '16 at 13:32
  • @PeterA.Schneider "Or am I mistaken" you are in theory but not in practice. In theory, compilers could put extra padding into the Screen() class, which wouldn't be freed in your example. In practice, they don't. – UKMonkey Dec 7 '16 at 14:49
  • 1
    @UKMonkey I just wanted to ask a question about it but of course it has been answered before, stackoverflow.com/a/9909559/3150802. Deleting through base pointer requires a dynamic dtor, or UB. (John's remark notwithstanding: I'd be surprised if simple cases like the trivial one here cause problems. But of course allocators exist which put objects of different sizes in different arenas, and poof.) – Peter - Reinstate Monica Dec 8 '16 at 10:10

The workaround provided isn't to be meant as an equivalent replacement of the reproducer but rather as a possible way to reduce the decorated length of exported symbols.

You can verify with a simple objdump /symbols objfile.obj that the length of decorated symbols by using typedefs is incredibly longer than their similar counterparts split into structs (Microsoft compilers have historically used a proprietary name mangling scheme).

| improve this answer | |

A typedef doesn't declare a new type, it just an alias. And if you forward-declare a typedef, when the compiler sees the typedef definition, it throws you an error:

// a.hpp
class Screen;

class any_class_using_screen {};

// a.cpp
#include "a.hpp"

typedef std::map<std::string, Field> Screen; // Error.

Using even simple inheritance allows you to use your custom names for other types:

class Screen : public std::map<std::string, Field>

Remeber that simple inheritance without additional members doesn't cause any memory or time overhead. That is as efficient as a typedef, with the adventage that it is a new type.

Since std::map<...> hasn't virtual destructors, you cannot use the "pointer to base class" pattern as usual, of course. The owner of the Screen instance (the one who created a screen instance), if it lives in the heap and must be destructed, must be destructed from a pointer to the derived class:

template<class K, class V>
void f(std::map<K, V> const* map); // Do something

int main()
    Screen* s = new Screen;
    f(s); // Ok
    delete s; // OK, deleting from derivate class

@PeterA.Scheneider suggest that, as far as the derivate class hasn't additional members, nothing happens, and you can call the destructor from a pointer to the derived class. But, theoretically, without a virtual destructor, you are destructing the base class instance (only the base class life reachs to its end), and the derivate class instance is still alive with a dead base, having a corrupted object. From a practical point of view, I think the object is correctly destructed, but anyway I don't know if that can cause undefined behaviour.

The standard should be check to be sure.

Additionally, there could be alignment issues with that approach of destructing, from a base class pointer, a derivated object without extra members.

If a base class has no virtual destructor, do inheritance without "polymorphic intentions", and destruct always from the most derived class.

| improve this answer | |

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