问题
In many languages, there are generators that help to initialize collections. In C++, if one wants to initialize a vector uniformly, one can write:
std::vector<int> vec(10, 42); // get 10 elements, each equals 42
What if one wants to generate different values on the fly? For example, initialize it with 10 random values, or consecutive numbers from 0 to 9? This syntax would be convenient, but it does not work in C++11:
int cnt = 0;
std::vector<int> vec(10, [&cnt]()->int { return cnt++;});
Is there a nice way to initialize a collection by iterative function calls? I currently use this ugly pattern (not much more readable/short than a loop):
std::vector<int> vec;
int cnt = 0;
std::generate_n(std::back_inserter(vec), 10, [&cnt]()->int { return cnt++;});
There is a thing that would help, and it would explain the lack of the first constructor. I can imagine an iterator that takes a function and number of calls, so that the constructor
vector ( InputIterator first, InputIterator last);
would be applicable. But I did not find anything like this in the standard library. Did I miss it? Is there another reason why the first constructor did not make it to the standard?
回答1:
Sadly, there is no standard facility to do this.
For your specific example, you could use Boost.Iterator's counting_iterator like this:
std::vector<int> v(boost::counting_iterator<int>(0),
boost::counting_iterator<int>(10));
Or even with Boost.Range like this:
auto v(boost::copy_range<std::vector<int>>(boost::irange(0,10)));
(copy_range will basically just return std::vector<int>(begin(range), end(range)) and is a great way to adopt full range construction to exisiting containers that only support range construction with two iterators.)
Now, for the general purpose case with a generator function (like std::rand), there is the function_input_iterator. When incremented, it calls the generator and saves the result, which is then returned when dereferencing it.
#include <vector>
#include <iostream>
#include <cmath>
#include <boost/iterator/function_input_iterator.hpp>
int main(){
std::vector<int> v(boost::make_function_input_iterator(std::rand, 0),
boost::make_function_input_iterator(std::rand,10));
for(auto e : v)
std::cout << e << " ";
}
Live example.
Sadly, since function_input_iterator doesn't use Boost.ResultOf, you need a function pointer or a function object type that has a nested result_type. Lambdas, for whatever reason, don't have that. You could pass the lambda to a std::function (or boost::function) object, which defines that. Here's an example with std::function. One can only hope that Boost.Iterator will make use of Boost.ResultOf someday, which will use decltype if BOOST_RESULT_OF_USE_DECLTYPE is defined.
回答2:
The world is too large for C++ to ship a solution for everything. However, C++ doesn't want to be a huge supermarket full of ready meals for every conceivable palate. Rather, it is a small, well-equipped kitchen in which you, the C++ Master Chef, can cook up any solution you desire.
Here's a silly and very crude example of a sequence generator:
#include <iterator>
struct sequence_iterator : std::iterator<std::input_iterator_tag, int>
{
sequence_iterator() : singular(true) { }
sequence_iterator(int a, int b) : singular(false) start(a), end(b) { }
bool singular;
int start;
int end;
int operator*() { return start; }
void operator++() { ++start; }
bool operator==(sequence_iterator const & rhs) const
{
return (start == end) == rhs.singular;
}
bool operator!=(sequence_iterator const & rhs) const
{
return !operator==(rhs);
}
};
Now you can say:
std::vector<int> v(sequence_iterator(1,10), sequence_iterator());
In the same vein, you can write a more general gadget that "calls a given functor a given number of times", etc. (e.g. take a function object by templated copy, and use the counters as repetition counters; and dereferencing calls the functor).
回答3:
If you're using a compiler that supports lambdas as you use in your question, then chances are pretty good it also includes std::iota, which at least makes the counting case a little cleaner:
std::vector <int> vec(10);
std::iota(begin(vec), end(vec), 0);
For this scenario (and quite a few others, I think) we'd really prefer an iota_n though:
namespace stdx {
template <class FwdIt, class T>
void iota_n(FwdIt b, size_t count, T val = T()) {
for ( ; count; --count, ++b, ++val)
*b = val;
}
}
Which, for your case you'd use like:
std::vector<int> vec;
stdx::iota_n(std::back_inserter(vec), 10);
As to why this wasn't included in the standard library, I really can't even guess. I suppose this could be seen as an argument in favor of ranges, so the algorithm would take a range, and we'd have an easy way to create a range from either a begin/end pair or a begin/count pair. I'm not sure I completely agree with that though -- ranges do seem to work well in some cases, but in others they make little or no sense. I'm not sure that without more work, we have an answer that's really a lot better than a pair of iterators.
回答4:
Nobody mentioned boost::assign, so I will introduce it here:
Example
#include <iostream>
#include <vector>
#include <boost/assign/std/vector.hpp>
#include <cstdlib>
int main()
{
std::vector<int> v1;
std::vector<int> v2;
boost::assign::push_back(v1).repeat_fun(9, &rand);
int cnt = 0;
boost::assign::push_back(v2).repeat_fun(10, [&cnt]()->int { return cnt++;});
for (auto i : v1)
{
std::cout << i << ' ';
}
std::cout << std::endl;
for (auto i : v2)
{
std::cout << i << ' ';
}
}
Output
41 18467 6334 26500 19169 15724 11478 29358 26962
0 1 2 3 4 5 6 7 8 9
回答5:
You can use SFINAE to form a table :
#include <iostream>
#include <vector>
template <int n> struct coeff { static int const value = coeff<n-1>::value + 3; };
template <> struct coeff<0> { static int const value = 0; };
template<int... values> struct c1 {static int const value[sizeof...(values)];};
template<int... values> int const c1<values...>::value[] = {values...};
template<int n, int... values> struct c2 : c2< n-1, coeff<n-1>::value, values...> {};
template<int... values> struct c2< 0, values... > : c1<values...> {};
template<int n> struct table : c2< n > {
static std::vector< unsigned int > FormTable()
{
return std::vector< unsigned int >( & c2< n >::value[0], & c2< n >::value[n] );
}
};
int main()
{
const auto myTable = table< 20 >::FormTable();
for ( const auto & it : myTable )
{
std::cout<< it << std::endl;
}
}
来源:https://stackoverflow.com/questions/12511711/initializing-stdvector-with-iterative-function-calls