C++ LINQ-like iterator operations
I'd like to recommend the P-Stade.Oven library for your reference. This is a strongly boostified library working on STL ranges and featuring many LINQ-like functions including the equivalents of .Where, .Select .Skip .Take and .Concat.
I am working on (C# LINQ)-like C++ header-only library.
Here it is: http://code.google.com/p/boolinq/
I'd like to get any feedback...
UPDATE:
Here is new link to boolinq 2.0: https://github.com/k06a/boolinq
All source code is based in single header file - https://github.com/k06a/boolinq/blob/master/boolinq/boolinq.h
It is super short: less than 800 lines for about 60 different operations!
I don't have concrete experience with LINQ, but the Boost.Iterator library seems to approach what you're referring to.
The idea is to have functions (IIUC, in LINQ, they take the form of extension methods, but that's not fundamental), taking an iterator and a function, combining them to create a new iterator.
LINQ "Where" maps to make_filter_iterator:
std::vector<int> vec = ...;
// An iterator skipping values less than "2":
boost::make_filter_iterator(_1 > 2, vec.begin())
LINQ "Select" maps to make_transform_iterator:
using namespace boost::lambda;
//An iterator over strings of length corresponding to the value
//of each element in "vec"
//For example, 2 yields "**", 3 "***" and so on.
boost::make_transform_iterator(construct<std::string>('*', _1), vec.begin())
And they can be composed:
//An iterator over strings of length corresponding to the value of each element
// in "vec", excluding those less than 2
std::vector<int> vec = ...;
boost::make_transform_iterator(construct<std::string>('*', _1),
boost::make_filter_iterator(_1 > 2, vec.begin())
)
However, there are a few annoying things with this:
- The type returned by
make_xxx_iterator(some_functor, some_other_iterator)isxxx_iterator<type_of_some_functor, type_of_some_iterator> - The type of a functor created using boost::bind, lambda, or phoenix quickly becomes unmanageably large and cumbersome to write.
That's why I avoided in the code above to assign the result of make_xxx_iterator to a variable. C++0x "auto" feature will be pretty welcome there.
But still, a C++ iterator can't live "alone": they have to come in pairs to be useful. So, even with "auto", it's still a mouthful:
auto begin = make_transform_iterator(construct<std::string>('*', _1),
make_filter_iterator(_1 > 2, vec.begin())
);
auto end = make_transform_iterator(construct<std::string>('*', _1),
make_filter_iterator(_1 > 2, vec.end())
);
Avoiding the use of lambda makes things verbose, but manageable:
struct MakeStringOf{
MakeStringOf(char C) : m_C(C){}
char m_C;
std::string operator()(int i){return std::string(m_C, i);}
};
struct IsGreaterThan{
IsGreaterThan(int I) : m_I(I){}
int m_I;
bool operator()(int i){return i > m_I;}
};
typedef boost::filter_iterator<
IsGreaterThan,
std::vector<int>::iterator
> filtered;
typedef boost::transform_iterator<
MakeStringOf,
filtered
> filtered_and_transformed;
filtered_and_transformed begin(
MakeStringOf('*'),
filtered(IsGreaterThan(2), vec.begin())
);
filtered_and_transformed end(
MakeStringOf('*'),
filtered(IsGreaterThan(2), vec.end())
);
The (not-yet)Boost.RangeEx library is promising in this respect, in that it allows to combine the two iterators in a single range. Something like:
auto filtered_and_transformed = make_transform_range(
make_filter_range(vec, _1 > 2),
construct<std::string>('*', _1)
);