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I have a simple question regarding const_cast and best practices regarding STL containers. Consider the following where class Foo has a private STL std::map from Widget* to int:

Declaration:

#include <map>  
using std::map;

class Widget;

class Foo {
public:
     Foo(int n);
     virtual ~Foo();

     bool hasWidget(const Widget&);

private:
     map<Widget*,int> widget_map;
};

Definition:

#include <map>
#include "Foo.h"
#include "Widget.h"

using std::map;

Foo::Foo(int n)
{
     for (int i = 0; i < n; i++) {
          widget_map[new Widget()] = 1;
     }
}

Foo::~Foo()
{
     map<Widget*, int>::iterator it;
     for (it = widget_map.begin(); it != widget_map.end(); it++) {
          delete it->first;
     }
}

bool Foo::hasWidget(const Widget& w)
{
     map<Widget*, int>::iterator it;
     it = this->widget_map.find(const_cast<Widget*>(&w));
     return ( ! ( it == widget_map.end() ) );
}

Given that hasWidget takes a reference to const as its parameter, the constness needs to be cast away when calling map::find (wiget_map being from Wiget* to int). As far as I can tell, this approach is both sensible and desirable -- but I'm reluctant to accept it as such without feedback from more experienced C++ programmers.

It seems to me that this is one of the few cases of using const_cast appropriately given that we're passing the result of the cast to an STL method. Am I correct?

I realise that other permutations of this question have been posed already (for example, const_cast for vector with object) but none seem to directly address the above.

Thanks in advance.

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1  
You have a map from pointer to Widget, but the Widget s are created dynamically by Foo and the map is private. How is any client of the class magically going to end up with a Widget reference that happens to be in the map? If Foo owns the Widget s, why doesn't it use a container that expresses this ownership? I don't understand the point of the map. What is the meaning of the integer? –  Charles Bailey Nov 30 '10 at 11:08
    
@Charles: it turns out (in response to a question I asked) that this isn't the complete program ;-) –  Steve Jessop Nov 30 '10 at 11:10
    
msdn.microsoft.com/en-us/library/92cwhskb.aspx MSDN seems to think that map::find takes a const Key&, so in this code, you cast a const Widget* to a Widget*, which is then promoted back to a const Widget* as soon as you pass it to find(). –  Puppy Nov 30 '10 at 11:10
1  
@DeadMG: if Key is Widget* then const Key isn't const Widget *, it's Widget *const. This is why we prefer typedefs to macros :-) –  Steve Jessop Nov 30 '10 at 11:20
    
@DeadMG: map::find does take a const Key& which in this case is a Widget* const&. The cast is "necessary" because you can't implicitly convert from a const Widget* to Widget * which would then be allowed to bind to a Widget * const &. –  Charles Bailey Nov 30 '10 at 11:22
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6 Answers

I think I'm going to fall in the 'subjective and argumentative' through my answer, but I'll give it a shot...

I'm not horrified by the const_cast, but I'm skeptical on your design. The member function hasWidget takes its parameter by const ref : what does this say to the client ? From a client point of view, if I didn't know the implementation, I would probably think that each Widget is compared by value with the parameter. For me, the interface does not reflect the actual behavior, which compares the Widget by address.

For example, the current signature allows a temporary Widget to be passed, although the return value could never be true in this case. I would personally change the signature to (note that I added a const) :

bool hasWidget(const Widget *) const;
share|improve this answer
    
Seems like there's a trade-off here to me. Using your signature (with a const Widget*), it's clear to the client that the pointed-to Widget doesn't get modified, which is good, but then you end up needing an internal const_cast. That's not necessarily bad, but it's at least mildly annoying. Using my signature (with a Widget*) avoids the const_cast, but makes it less clear to the client that the pointed-to Widget won't be changed (although you could probably guess from the name of the function). Ya win some, ya lose some I guess :) –  Stuart Golodetz Nov 30 '10 at 11:53
    
(I think on balance I probably prefer yours, actually...) –  Stuart Golodetz Nov 30 '10 at 11:53
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Yes, that's a reasonable use of const_cast<>. You should consider making hasWidget const.

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+1, it's one of the cases const_cast<> exists for. –  peterchen Nov 30 '10 at 11:04
    
Thanks for ratifying that. –  Marc Nov 30 '10 at 11:09
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Why not use a map<const Widget*,int>? You don't seem to ever modify the Widget pointed to by any of the keys in your map.

Assuming there's a good reason then yes, I think you're right. When calling code which is guaranteed not to modify the referand of the pointer, it's safe to cast away const. Because of the way containers of pointers are templated, none of their functions ever directly modify that referand, but if the contained type were a const pointer, then users wouldn't be able to modify the referand either (without a const cast). It's certainly safer to cast away const before searching, than to cast away const before modifying, if it must be one of the two...

Btw, hasWidget would be shorter if you use count rather than find. It's also marginally const-safer in general (not in this case) to use count, because find with this const_cast returns an iterator that could be used to modify the Widget, whereas count doesn't. So you don't have to worry what happens to the return value of count. Obviously here that return value is entirely under control anyway.

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This is just an abstraction from existing code -- in the actual code-base I do modify the Widgets, hence the key type is desirable. –  Marc Nov 30 '10 at 10:56
    
Also, thanks for the tip on count -- I'll take a look. –  Marc Nov 30 '10 at 11:15
    
Having discussed this further (above), it looks like I was wrong about the original key type being 'desirable' -- time to refactor! –  Marc Nov 30 '10 at 14:35
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Why not change hasWidget to take a Widget*? The interface is dodgy at the moment, because it implies that you're looking for Widgets by value in the underlying map, when you're actually looking for them by address. The method should also be const, I reckon:

bool hasWidget(Widget *) const;
share|improve this answer
    
Admittedly I was originally unsure whether to require a pointer or reference as the parameter. In the original code, there are a host of public member functions that operate over Widget objects (all of which take const Widget&); as such, it seemed most sensible (from an interface perspective) to maintain consistency. After all, the client needn't be aware that a map is being searched. –  Marc Nov 30 '10 at 11:08
    
@Marc: It sounds like the original design might be dodgy as well :) But without the code, it's impossible to say. –  Stuart Golodetz Nov 30 '10 at 11:15
    
Maybe so! Could we explore this? As I mentioned in a comment below, the actual class doesn't have the zany constructor and destructor -- they're offered above to provide a self-contained example with a little bit of data, perhaps unwisely (I was wary of posting too much code at the outset). Let's just say that I have a set of member functions, including addWidget, removeWidget, hasWidget, valueOfWidget etc. -- and Widget s are expected to be managed externally (i.e. they're not destroyed from the class containing the map and as such don't have to be created with new). –  Marc Nov 30 '10 at 12:05
    
@Marc: This seems to clarify things a bit -- I'm not sure the original design is as dodgy as I thought. The idea seems to be to make an easy-to-use lookup table for Widgets, bearing in mind that Widgets themselves can't be sorted -- hence the use of Widget* as the key type. If the Widgets are managed externally, I don't see why this shouldn't work fine. And I agree with your use of const Widget& for the argument type in the context. Still think hasWidget should be a const method though, and think Steve Jessop has a point -- why are you modifying Widgets within Foo? –  Stuart Golodetz Nov 30 '10 at 12:35
    
Since you said that things like addWidget take a const Widget&, surely they're all having to do a const_cast as well? The design doesn't make sense to me unless the key type of the map is const Widget* rather than Widget*. –  Stuart Golodetz Nov 30 '10 at 12:37
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A map with a key where the key is pointer is unwieldy - the only way to look it up is to have the same pointer. For this to work, you have to guarantee that the the hasWidget method will get called with an object that has the same address!

Surely you should implement Widget properly such that it has the correct operators overloaded to act as a key in a std::map! In your map, you can then simply have:

std::map<Widget, int>

And then your find doesn't need a const_cast!

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...and if copying Widgets is especially costly, which would make this approach unattractive, you're probably better off at least using something like map<shared_ptr<Widget>,int>. –  Stuart Golodetz Nov 30 '10 at 11:08
    
Interesting; I was under the impression that it was good practice to use pointers in STL containers? Copying cost isn't a major concern in the current code-base -- I just wanted to employ containers sensibly from the outset.... –  Marc Nov 30 '10 at 11:16
    
...agreed, however at that point it's probably worth reconsidering how the mapping is done (may be there is another attribute of Widget that can act as the key)... –  Nim Nov 30 '10 at 11:16
3  
@Marc: no, it isn't "good practice" to use pointers in STL containers, certainly not just for the sake of having pointers. Who told you that? However, the key of a map is const, so in your case where you want to modify the Widgets, this wouldn't work. –  Steve Jessop Nov 30 '10 at 11:19
    
@Marc, I think that depends on the complexity of the object you are storing in the container. If it is trivial (with a trivial copy constructor etc.) then there is no need for the complexity introduced by pointers, if the object is very complex and has an expensive copy constructor, then store a shared_ptr as @sgolodetz mentions. –  Nim Nov 30 '10 at 11:19
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This looks clunky to me. Identifying objects by their physical addresses is quite "special", admittedly it's unique, but it's weird too.

I would strongly consider reversing the map:

std::map<Widget::Id, Widget*>

where Widget::Id could simply be an int or similar.

There would not be any issue with the const-ness then.

To delve deeper, you could also have a look at the Boost Pointer Container library:

boost::ptr_map<Widget::Id, Widget>

which would alleviate the memory management issues.

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Thanks Matthieu. @Nim also mentioned using an attribute of Widget as the key in place of the Widget itself, an interesting proposition. –  Marc Nov 30 '10 at 14:41
    
I'm also trying to avoid external dependencies in this simple case (i.e., this project isn't using Boost yet, so I'd like to find the most appealing solution given the current build environment). –  Marc Nov 30 '10 at 14:42
    
@Marc: I must admit I consider Boost at the same level of dependencies I consider the STL --> use everywhere. Anyway the simple map approach would work too, it's just than you then have to deal with memory yourself. It would be easier if Widget had value-semantics and could just be copied. –  Matthieu M. Nov 30 '10 at 15:12
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