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In one of Stroustrup's faq question, he gives following example:

template<class Scalar> class complex {
public:
    complex() : re(0), im(0) { }
    complex(Scalar r) : re(r), im(0) { }
    complex(Scalar r, Scalar i) : re(r), im(i) { }
    // ...

    complex& operator+=(const complex& a)
        { re+=a.re; im+=a.im; return *this; }
    // ...
private:
    Scalar re, im;
};

and describes:

This type is designed to be used much as a built-in type and the representation is needed in the declaration to make it possible to create genuinely local objects (i.e. objects that are allocated on the stack and not on a heap) and to ensure proper inlining of simple operations.

Could someone help explaining this? Put re, im data in class declaration makes class object allocate on stack? And what about inlining? (I can see a operator+= inlined, does he mean this?)

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I've removed the second question. Feel free to ask that again, but if you do, provide the source code you're wondering about. –  MSalters Sep 14 '12 at 7:20
    
Is there a reason why you are referring to complex as a "base class"? It makes the question title misleading. –  juanchopanza Sep 14 '12 at 7:35
    
Thanks juanchopanza. Corrected it. –  user1559625 Sep 14 '12 at 7:41

3 Answers 3

up vote 1 down vote accepted

Putting the data in the class definition doesn't make the object allocate on stack, but it allows it. At the point where the object is defined, the compiler must know its complete size; if the object is to be defined on the stack, the compiler must know its size in the translation unit which defines it.

Not putting the data in the class definition means that you must take some steps to allocate the data elsewhere, and that elsewhere will almost certainly involve dynamic allocation.

Similarly, an inline function can only manipulate data that it sees.

There are various schemas for avoiding data declarations in the class. They can have important advantages, especially when the data types are complex and user defined. They all do involve dynamic allocation. What Stroustrup is saying that for small, concrete classes, putting the data in the class allows them to behave (and perform) like the built-in types, with no dynamic allocation, and often (because of inlining) no abstraction penalty.

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Thanks James. Well written and make sense. –  user1559625 Sep 14 '12 at 8:03

The members re and im are allocated inside every complex object. That means that re and im are allocated on the stack if and only if the whole complex object is. If the complex object is a global, then re and im are neither on the stack nor on the heap.

In practice, compilers will put re at offset 0 in the object and im at offset sizeof(Scalar). This means that the code for operator+= doesn't take a lot of assembly instruction to fetch those members. The actual additions themselves probably are just two assembly instruction, so loading the 4 members and storing the two results is a major fraction of the work. And inlining works best if there's little to inline.

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This is a concrete class that is not intended to be derived from (because there is no need).

You probably don't want to define an interface for complex numbers, and derive different kinds of complex numbers (whatever that would be) and use them polymorphically.

By having everything in the class, the compiler can probably easier optimize this than when using an abstract interface and virtual functions.

I don't think there is anything magic here, it is just an example of where using a "value type" class is appropriate.

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Thanks Bo. When i read some of Stroustrup's faq, i sometimes got confused in the way he explains. Often try to be certain that i actually don't miss major points. –  user1559625 Sep 14 '12 at 7:57

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