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I have a very simple class, like this:

class MySimpleClass
{
public:
    uint16_t   m_myInt;
    String     m_myString;
    String     m_myOtherString;
    MyEnum     m_myEnumValue;
    bool       m_myBool;
};

This class is part of a pre-compiled library that I can't change, and it doesn't offer a constructor. Is there any way that I can initialize this class without having to do something like this...

MySimpleClass msc;
msc.m_myInt = 1;
msc.m_myString = "foo";
msc.m_myOtherString = "bar";
msc.m_myEnumValue = ENUM_VALUE_YES;
msc.m_myBool = true;

I'm not averse to doing it that way, but I'm curious to know if there's some kind of initialization syntax that will do it?

I'm working in C++03, but answers in C++11 will be of interest as well.

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2  
You can make it a struct (not sure if this is even necessary) and use field initializer syntax as known from good old c: MySimpleClass msc = { 1, string("foo"),...}; –  πάντα ῥεῖ May 12 at 17:28
1  
IMHO, the most elegant way in such case is to create a child class that inherits from this class, and implement the constructor for the child class however you choose to... –  Eitan T May 12 at 17:35
4  
@EitanT I think it is an abuse of inheritance, confusing, and I see no benefit. –  juanchopanza May 12 at 18:12
2  
@EitanT Again, all of that is an abuse of inheritance. This might look elegant in Java. And dynamic allocation could be dangerous. You certainly couldn't delete a derived object via a base class pointer. –  juanchopanza May 12 at 18:42
2  
@EitanT It would be undefined behaviour, because the base class has no virtual destructor. –  juanchopanza May 12 at 18:53

3 Answers 3

up vote 52 down vote accepted

You can add a free function that you can use as a constructor:

MySimpleClass make_msc(
    uint16_t myInt,
    String myString,
    String myOtherString,
    MyEnum myEnumValue,
    bool myBool)
{
    MySimpleClass msc;
    msc.m_myInt = myInt;
    msc.m_myString = myString;
    msc.m_myOtherString = myOtherString;
    msc.m_myEnumValue = myEnumValue;
    msc.m_myBool = myBool;
    return msc;
}

//Usage:
MySimpleClass msc = make_msc(1,"foo","bar",ENUM_VALUE_YES,true);

Alternatively, you can use aggregate initialisation:

MySimpleClass msc = {1,"foo","bar",ENUM_VALUE_YES,true};//C++03 or C++11
MySimpleClass msc{1,"foo","bar",ENUM_VALUE_YES,true}; //C++11 only

Note: The

MySimpleClass msc = {1,"foo","bar",ENUM_VALUE_YES,true};

form can only be used in a declaration, but the:

MySimpleClass{1,"foo","bar",ENUM_VALUE_YES,true}
make_msc(1,"foo","bar",ENUM_VALUE_YES,true)

forms can be used in any expression that expects a MySimpleClass.

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9  
+1 For the free function solution: The only solution that is remotely robust if the library vendor should ever decide to change their struct layout. –  ComicSansMS May 12 at 17:35
    
The free-function is an excellent solution! Is the declaration-only form C++03 compatible? –  Karl Nicoll May 12 at 17:37
    
@ComicSansMS - Do you know what happens with the declaration-only syntax when the struct changes? Would there be a compiler error or would it be undefined behaviour of some kind? –  Karl Nicoll May 12 at 17:39
3  
@KarlNicoll: Either you would silently initialise the struct in the incorrect order, or there would be a compilation error. –  Mankarse May 12 at 17:49

Uniform initialization in C++11 is useful

MySimpleClass x {1, "foo", "bar", NUM_VALUE_YES, true};
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A bit late in the game, but I think a more elegant way would be creating a sub-class that inherits from the class MySimpleClass, and implement its constructor to suit your needs.

For example:

class MyImprovedClass : public MySimpleClass
{
public:
    MyImprovedClass(uint16_t myInt, String myString, String myOtherString,
        MyEnum myEnumValue, bool myBool)
    {
        m_myInt = myInt;
        m_myString = myString;
        m_myOtherString = myOtherString;
        m_myEnumValue = myEnumValue;
        m_myBool = myBool;
    }
};

and then use it, e.g:

MyImprovedClass msc(1, "Foo", "Bar", ENUM_VALUE_YES, true);

So far as MyImprovedClass concerns, it can be passed as MySimpleClass and treated the same. Another benefit here is that you can force initialization by making the default constructor private, e.g:

class MyImprovedClass : public MySimpleClass
{
public:
    MyImprovedClass(uint16_t myInt, String myString, String myOtherString,
        MyEnum myEnumValue, bool myBool)
    {
        // Implement as above...
    }

private:
    MyImprovedClass() {}
};

On the other hand, if you choose to implement a default constructor for the "improved" class, you could have this class automatically initialized during dynamic allocation. Should you choose so, you can add a copy constructor, or even extend (and encapsulate) its functionality by adding more member functions, and keep things tidy.

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2  
Could result in a memory leak if the destructor needs to be virtual and isn't declared so in the base class. –  Matt May 13 at 0:39
    
@Matt for this specific case I don't think it's dangerous, the base class is simple, as no dynamic allocations are done during its construction. –  Eitan T May 13 at 5:22

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