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Sorry, I'm trying to understand a sample of code, which uses QList::indexOf method, declared as in here.

Actually I'm trying to figure out why I need to use const_cast in this specific case:

int ProjTreeItem::row() const
    if (parentItem) {
            // instance of const object to test  
        const ProjTreeItem *item = new ProjTreeItem(QList<QVariant>(), NULL); 
            // Called indexOf here to test
            // This works fine
        return parentItem->childItems.indexOf(const_cast<ProjTreeItem*>(this)); 
    return 0;


I was looking at the wrong places, then I started to suspect that the issue had to do with the use of templates and the const modifier. I found this thread here. Please, look at Jon 's answer, which I think clarifies the point I reached. Sorry for the misleadings on my question.

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It should work fine. Since cbranch correctly pointed out a syntax error, and your posted code has no errors, it's clear you have some real code that's giving you problems. Instead of conjuring up fake hypothetical code, just narrow down the problem in yours and show us that, so we can solve a real problem instead of a hypothetical one. –  GManNickG Jan 19 '11 at 2:50
It seems strange that you invoke a seemingly static method, but declare it const as well. You aren't showing us something.... –  JaredC Jan 19 '11 at 2:56

4 Answers 4

up vote 0 down vote accepted

I presume you mean the line


doesn't compile. I also presume you wrote

QList< ProjTreeItem* > childItems;

in parentItem's type(class) definition.
If I understand correctly, in the line


you are going to convert ProjTreeItem const* into ProjTreeItem*, and this requires const_cast.
JaredC has already answered kindly about constness. I suggest reading his answer again carefully.

I think Jon's answer applies to your question.
The 1st parameter of QList::indexOf is T const&, where T is ProjTreeItem* in your case.
So, the concrete parameter type is ProjTreeItem*const&.
Please note it differs from ProjTreeItem const*const&.
ProjTreeItem* and ProjTreeItem const* are different types.
const_cast is needed to convert from the latter to the former.
ProjTreeItem const* means that ProjTreeItem is const.
However, ProjTreeItem*const& means pointer is const, ProjTreeItem is not const.

You seem to misunderstand.

#include <typeinfo>
#include <iostream>
using namespace std;

struct ProjTreeItem;

template< class T >
struct Test {
  typedef T const type;

int main()
  cout<< boolalpha;
    (typeid( Test< ProjTreeItem* >::type ) == typeid( ProjTreeItem const* ))
    (typeid( Test< ProjTreeItem* >::type ) == typeid( ProjTreeItem*const ))

If your interpretation is right, the above code will print true, and then false.
However, the code prints false, and then true.

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@Ise Wisteria your assumptions are correct. I do read it carefully, do appreciated a lot, as I stated there. I'm very grateful. But, I don't know at all if it answers exactly. At least I didnt get it. I reread it. I think its something to do with templates. I will create another thread and show an example where I suppose, clarifies better my question. Indeed, my question may be misleading. –  kaneda Jan 19 '11 at 17:46
What came about to be the point of the problem/doubt, I found a possible explanation at the following question (please, read Jon 's answer): stackoverflow.com/questions/2822965/… –  kaneda Jan 19 '11 at 18:01
@kaneda: Please see my edit –  Ise Wisteria Jan 19 '11 at 19:28
@Ise Wisteria: You said the 1st parameter is of type T const & but isn't it actually const T &? –  kaneda Jan 19 '11 at 19:57
@kaneda: No, T const& and const T& are identical. –  Ise Wisteria Jan 19 '11 at 20:15

I think you wanted this instead:

void SomeClass::f(const MyClass*) const
{ ... }
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Thanks for the remark cbranch. I've edited my question. –  kaneda Jan 19 '11 at 2:39

Hmmmm works for me with this code:

class MyClass

class SomeClass 
    void f(const MyClass *t) const

int main()
    SomeClass s;

    const MyClass *myClass = new MyClass;
    MyClass *myClass2 = new MyClass;


    return 0;
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You are making the wrong assumption that the type of item is equal to the type of this, and I believe this is confusing you.

Inside a const function, the type of this is ProjTreeItem const * const item. But your pointer that works is declared const ProjTreeItem * item:

// `this` is a constant-pointer-to-a-constant-ProjTreeItem
ProjTreeItem const * const this;   // obviously not valid code, just illustrating type

// `item` is simply a pointer-to-a-constant-ProjTreeItem
const ProjTreeItem * item;

It helps to read the declaration right to left.

So, declare you item pointer like this and I suspect you'll need a cast as well.

const ProjTreeItem * const item = new ProjTreeItem(QList<QVariant>(), NULL);
share|improve this answer
thank you much for the explanation. I learned a few more things reading on. But, in fact, my pointer const ProjTreeItem * item does not work, it needs to be const_casted or the compiler fails. What do work is const_casting the pointer or declaring the pointer without const. The indexOf method from QList accepts the argument type indexOf(const T & value), being T a template type, so T equals to ProjTreeItem *. –  kaneda Jan 19 '11 at 3:50

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