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I have been working with Qt for the past 6 months and I am still struggling to understand the concept of Implicitly shared classes. I have the following questions:

  1. What are implicitly shared classes and how do they work?
  2. Trolltech's website of Qt says that it maximizes resource usage and minimizes copying. Please explain me how this happens.
  3. Can anyone give any example for better understanding? A link to any site explaining this concept with or wihtout example is also welcome.

Thanx guys for all the answers..i came around another point regarding this topic is stack objects point to heap allocated shared data..this is the diagram...this image..

any takes on this ???...and what exactly is a reference count??is it kind of a counter the incereses when objects refer to common shared data..and vice versa?

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up vote 9 down vote accepted

Imagine the follow. You are using C++03 and you do the follow:

string a("hello");
string b = a; 

At this moment you have two strings object a and b and each one them have its own buffer to store the char array "hello". Even though the content of the buffers are exactly the same, a and b have their own copy of "hello". This is a waste of memory. If they shared the buffer, your would have to use only one char array to store "hello world".

Now with QString is something different:

QString a("Hello");
QString b =a;

In this case , only a created a char array to store "hello". b instead of creating its own char array, will simply point to a's char array. So you save memory.

Now if you do b[0]='M', id est, you modify b, then b creates its own char array, copying the contents of a's array and then modifying its own array.

In Java, strings are imutable objects. In other words, Java does not provide any methods on String class to modify the content. This is made to always allow this kind of sharing of data.

Just to complement with things mentioned by others:

How can I know that I can free the char array?
That is what "reference-count" is for. When a object is created and it points to the char array, its reference count will be incremented by 1, so it knows how may objects are still using. When an object that pointed to it is destroyed, the reference count is decremented. When it reaches zero, the char array knows that no one is using it , so it can be freed.

This is a very rough implementation of reference count. I do not intend anyway to be accurate or correct. I am ignoring the correct ways of implementing copy constructor and assingment operators. I am no way checking if the implementation works.Think it is an algorithm description in somewhat like C++. I just want to teach the concept. But imagine you have these classes:

class SharedData{
    int refcount;
    int data;

    SharedData(int _data){data=_data;refcount=1;}
    void incRef(){refcount++;}
    void decRef(){--refcount; if(refCount==0) delete this;}

class Data{
       SharedData* shared;
        Data(int i){shared = new Data(i);}
        Data(const Data& data){shared = data.shared; shared->incRef();}
        const Data& operator=(const Data& data){if(shared!=data.shared){
                                       shared = data.shared;

Two objects of class Data can share the same SharedData object, so :

void someFunction(){
    Data a(3) //Creates a SharedData instance and set refcount to 1
       Data b = a; //b points to the same SharedData than a. refcount is 2
       b = Data(4);// b points to  diferent SharedData. refcount of SharedData of a is decremented to 1 and b's SharedData has refcount 1
       //destructor of b is called. Because shared data of b has now refcount == 0, the sharedData is freed;
    //destructor of a is called, refcount is decremented again
    // because it is zero SharedData is freed

So resource usage was maximized. Both a and b used the same SharedData ( aka int 3). And it minimized copy. The 4 was not copied from a to b, they just shared the same data. A int is not big deal, but imagine if SharedData held some big string. Copying just a pointer is far faster than tens of bytes. And it also would save a lot of memory when you do not really need the copy.

What is copy-on-write?
Recall above what I said when we did `b[0]='M'. That was copy-on-write. b and a was sharing the same char array. But b need to modify the string. It cannot do it directly, because that would modify the string for a too. So b has to create its own copy of the char array in order to be array to be able to modify it. But it only has to copy when it will modify the array, hence copy-on-write

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Implementations of std::string are generally much more sophisticated than that, including ref-counting, COW, and sometimes even the short-string optimisation (inlining strings below some length). – Marcelo Cantos Sep 2 '12 at 6:24
COW is explicitly forbidden for std::string, with good reason. When multi-threading is involved, it becomes a massive pessimization. – Puppy Sep 2 '12 at 6:35
Exactly, I did not use std:: namespace prefix because of that. I mentioned C++03, because C++11 has move constructor. So think that the string I mentioned above is a very dumb class with a copy constructor and assignment operator that always creates a buffer and does the copy. – André Oriani Sep 2 '12 at 6:36
@AndréOriani...thanx a ton...i know nw wats goin on under the hood... – rotating_image Sep 2 '12 at 7:29
I think that what I said about b=Data(4) is not accurate. Data(4) creates aSharedData with data==4. The assignment to b increments the refcount to 2. Dtor for both b and Data(4) is called at the end of the if. So refcount is set to zero. – André Oriani Sep 2 '12 at 8:44

Based on my reading of

It's basically just a generic name for any class that uses reference-counting and copy-on-write to avoid unnecessary copying of the data managed by a class.


Reference-counting is a technique to ensure that an object hangs around for as long as anyone has an interest in it. Any piece of code that wants to hold onto the object for a period of time increments the reference count. When it loses interest in the object, it decrements the reference and, if the reference count hits zero, meaning that it was the last interested party, it also destroys the object.

In the case of Qt's shared classes, it appears that the reference-counting is completely automatic. Reference-counts are managed via the constructors and destructors of the classes in question.


In addition to sharing via reference-counting, classes can ensure that different parties don't clobber each other's versions of an object by making a copy of the underlying data just before doing any modifications to it. This is called the copy-on-write, or COW, idiom.

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(Disclaimer: I never used Qt so I might be wrong in some details - comments and improvements are welcome...)

The official documentation is quite well-written. From that I deduced that implicitly shared classes are classes whose instances don't actually copy their underlying data (which would be a CPU- and memory-intensive operation), instead they only hold a reference to it (i. e. there's a common backing reference counted data object). This optimization makes object use less memory and CPU time, while for their environment it still seems that every object has its own separate data. Of course an actual byte-to-byte data copy must be done if an object is mutable, and these classes implement this mechanism automatically (setter methods use the detach() method to make the object independent from the common data and create their own actual copy).

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