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First: my apologies if I am getting the nomenclature wrong!

Basically, I have a not-too-uncommon desire to declare a stack based container, such as:

std::map<CString, size_t> ecounts;

Then I want to iterate over the contents of ecounts a little further down in the function body, but I really don't want to have to typedef a bunch of things, nor retype the above types in order to get the compiler to work with what I have...

std::foreach(ecounts.begin(), ecounts.end(), [&] (>>>here is the problem<<< e)
{
  ... whatever I want to do with e ...
}

Of course, I can either use typedefs, or my knowledge of the declaration of ecounts manually:

std::foreach(ecounts.begin(), ecounts.end(), [&] (std::pair<CString,size_t> e)
...

But, yuck! I'd much rather have a single declaration of what ecounts is, and just use it's value_type somehow. But this seems not to work:

std::foreach(ecounts.begin(), ecounts.end(), [&] (decltype(ecounts)::value_type e)
...

Is this just a limitation of my compiler (vs2010), or is this a limitation of C++?

How might I go about making a sort of One Definition Rule to such code, preferably without having to use typedefs to achieve it (i.e., I can do the following):

typedef std::map<CString, size_t> maptype;
typedef maptype::value_type valuetype;
maptype ecounts;
...
std::foreach(ecounts.begin(), ecounts.end(), [&] (valuetype e)
...

This is not the end of the world, obviously, but if I can use decltype, I'd be happier with the resulting reduction in thinking & backtracking to achieve the above...

share|improve this question
1  
MS implementation of decltype is quite buggy. Unfortunately, standardization committee didn't adopt polymorphic lambdas, this would be nicer std::for_each(ecounts.begin(), ecounts.end(), [&] (auto e) {}); It's also strange the standard library never added an overload for the most frequently used case: for_each(C&& container, F&& function); which would be equivalent to for_each(begin(container), end(container), function); If that has been done there wouldn't be any need for range based for. –  Gene Bushuyev Nov 17 '11 at 23:06
    
I've always found the STL (and now std) to suck in that regard. Why not at least provide templates that take the actual container, and apply std::begin(container), std::end(container)? Most of my own libraries supply this variation, since it's what I want 99% of the time. Specifying some other bounding conditions is, in my coding, quite rare. –  Mordachai Nov 18 '11 at 4:30
1  
The reason standard algorithms can't take containers directly is because they wouldn't be able to distinguish a version that takes a container and a predicate or other optional param from one that take two iterators an no extra param. Concepts would have fixed this. –  bames53 Nov 18 '11 at 5:03
    
@bames53 This?: en.wikipedia.org/wiki/Concepts_%28C%2B%2B%29 –  Mordachai Nov 18 '11 at 14:21
    
@Mordachai yep. –  bames53 Nov 18 '11 at 15:20

2 Answers 2

up vote 6 down vote accepted

Limitation of VS2010, as the addition you want came into the standard too late for it. It should compile with a conformant compiler. As a workaroung, just use decltype(*ecounts.begin()) e. Or an identity template:

template<class T>
struct identity{ typedef T type; };
// usage: identity<decltype(ecounts)>::type::value_type
share|improve this answer
1  
VC++ 2010 ships with the identity template, std::identity<> -- no need to recreate it. :-] –  ildjarn Nov 18 '11 at 0:06
    
@Ildjarn: Sure, but it's out of the standard, since template typedefs in C++11 are better. Forward compatability ftw? :) –  Xeo Nov 18 '11 at 0:10
    
Possibly, but knowing MS, they'll never remove identity<> from namespace std for backwards compatibility reasons now that they've shipped it. :-P –  ildjarn Nov 18 '11 at 0:11
    
@ildjiarn: True enough, but what about portability? Ha! (I'll find an argument to keep that recreated identity for sure.) –  Xeo Nov 18 '11 at 0:13
    
Haha, you win. ;-D –  ildjarn Nov 18 '11 at 0:14

If all you want to do is a normal iteration over the container, just use a new style for loop:

for (auto e: ecounts)
{
   // whatever you want to do with e
}

Or if you want to modify the elements in the map:

for (auto& e: ecounts)
{
  // ...
}
share|improve this answer
1  
Alas, not yet supported by Visual Studio. –  Xeo Nov 17 '11 at 22:58
    
really nice option. I'm looking forward to the next version of VS. :) –  Mordachai Nov 18 '11 at 4:26

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