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Here's a simplified version of the code I'm using:

namespace BasketNovel {

void Engine::BuryEntities()
    std::list<Entity*>::iterator iter = p_entities.begin();
    while (iter != p_entities.end())
        if ( (*iter)->getAlive() == false )
            delete (*iter);
            iter = p_entities.erase( iter ); //.erase returns next element
        else iter++;

I'm getting the following warning from Intel Static Analysis:

BasketNovel.cpp(567): warning #12221: slicing of object "iter" passed as actual argument 2 in call to "std::_List_iterator > > std::list >::erase(std::_List_const_iterator > >)" occurs due to implicit type conversion

I believe that this is basically saying that I'm causing an implicit type conversion in:

iter = p_entities.erase( iter );

(note: I get the same warning even if I change my code to: p_entities.erase( iter++ ); )

I don't quite understand what I'm "slicing" in the above. What exactly does this mean and how I should go about solving this warning? I'd rather slightly convoluted code than turning off warning messages completely.

share|improve this question
how is p_entities declared? – Vaughn Cato Nov 29 '12 at 6:22
What compiler are you using? – juanchopanza Nov 29 '12 at 6:47
@VaughnCato std::list<Entity*> p_entities; – dk123 Nov 29 '12 at 6:53
@juanchopanza Intel C++ – dk123 Nov 29 '12 at 6:53
Does it support C++11? Because the signature of std::list::erase changed. – juanchopanza Nov 29 '12 at 6:54
up vote 1 down vote accepted

What is Object Slicing

Object Slicing is the fact of copying/moving only part of an object, this occurs in general with Base/Derived couples:

struct Base { int i; };

struct Derived: Base { int j; };

void slice() {
    Derived d = {};

    Base b(d); // b is a "sliced" version of `d`

and can lead to nastiness.

Here though, this is just a false positive...

Can it be easier ?

Yes, certainly.

// Place to be deleted values at the end
auto const it = std::partition(p_entities.begin(), p_entities.end(),
                    [](Entity const* e) { return not e or not e->getAlive(); });

// Delete them
std::for_each(it, p_entities.end(), [](Entity const* e) { delete e; });

// Remove them
p_entities.erase(it, p_entities.end());
share|improve this answer
Great reply, really opened my eyes to C++11 usage. But I'm getting the same error with the final p_entities.erase. The compiler's telling me that I'm splitting 'it' and making an implicit type conversion. BTW, what do you mean by the false positive? – dk123 Nov 29 '12 at 8:48
@dk123: false positive means the compiler is wrong in its analysis that this is a defect. It happens regularly with warnings: if the compiler was sure it would be an error, but because the analysis is not perfect it is only a warning that something might be awry.. – Matthieu M. Nov 29 '12 at 9:11
Thanks for the definition. Is there any plausible way though that you think may perhaps circumvent the warning completely? (without just turning it off) – dk123 Nov 29 '12 at 9:52
@dk123: maybe a static_cast<const_iterator>(it) to indicate it's intentional ? Unfortunately having never used icc I don't have better :( – Matthieu M. Nov 29 '12 at 9:57
@dk123: I just realized that Intel may have cheated by making iterator inherit from const_iterator to get the automatic conversion for free and implement a lot of common functionality only once. This would explain the splicing warning :( – Matthieu M. Nov 30 '12 at 12:59

It looks like your std::list::erase() method is expecting a std::list<Entity*>::const_iterator and you are passing it an std::list<Entity*>::iterator. This could mean you are compiling the code with C++11 support.

One solution would be to perform the removals in two steps. First, use std::for_each to delete and set to 0 pointers to objects that are not alive.

#include <algorithm>

void deleteDead(Entity* e) { 
  if (e->getAlive()) return; 
  delete e;
  e = 0;
std::for_each(p_entities.begin(), p_entities.end(), deleteDead);

Second, use the [erase-remove idiom](erase-remove idiom to remove elements that are 0.

#include <algorithm>
p_entities.erase(std::remove(p_entities.begin(), p_entities.end(), 0), 
                 p_entities.end() );
share|improve this answer
I've just tried changing the statement to: iter = p_entities.erase( static_cast<std::list<Entity*>::const_iterator>(iter) ); but I'm still getting the same error. Any suggestions? – dk123 Nov 29 '12 at 7:02
Thanks for the reply. I've tried the amendment but I'm getting the same error about erase: "std::_List_iterator<std::_List_val<BasketNovel::Entity *,std::allocator<BasketNovel::Entity *> > > std::list<BasketNovel::Entity *,std::allocator<BasketNovel::Entity *> >::erase(std::_List_const_iterator<std::_List_val<BasketNovel::Entity *,std::allocator<BasketNovel::Entity *> > >,std::_List_const_iterator<std::_List_val<BasketNovel::Entity *,std::allocator<BasketNovel::Entity *> > >)" occurs due to implicit type conversion – dk123 Nov 29 '12 at 7:32
Don't! The erase-remove idiom is only valid if you can safely discard the values. Here, the OP needs first to delete them. – Matthieu M. Nov 29 '12 at 8:18
@MatthieuM. thanks, I had missed the deletes. I provided an alternative solution, but I see it is quite similar to the one you posted. – juanchopanza Nov 29 '12 at 16:43
@juanchopanza: we could argue that the OP ought to use std::unique_ptr and then the erase-remove idiom would apply cleanly. – Matthieu M. Nov 29 '12 at 18:03

After about a month of doing other work, I've realised the answer to the problem was basically in changing




The slicing was occurring because .erase() required a const_iterator and made the implicit conversion from iterator.

I'd recommend typedef ing std::list in the header to cover possible future type changes.

I'm keeping MatthieuM.'s answer up though because I think the definition on Object Slicing is far more useful than this answer itself.

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