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fill
template <class value_type> struct fill
Stores a counted number of duplicate elements.
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typedef value_type type
so that generic wrappers can access this containersvalue_type
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typedef const_iterator iterator
so that algorithms dependent upon iterator work. fill::const_iterator
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value_type value
represents the value of all of the elements stored. -
int count
represents the number of elements this container stores.
fill(int count, value_type value)
sets count
and value
directly.
fill(const_iterator left, const_iterator right)
where left
and right
demarcate the bounds of another fill container. This sets count
to right-left
and value
to the value pointed to by left
.
int size()
returns the value of count
.
const_iterator begin()
returns an iterator to the first element.
const_iterator end()
returns an iterator to one after the last element.
const_iterator rbegin()
returns an iterator to the last element.
const_iterator rend()
returns an iterator to one before the first element.
const_iterator at(int i)
returns an iterator to the i
th element.
value_type front()
returns value
.
value_type back()
returns value
.
value_type get(int i)
returns value
.
value_type operator[](int i)
returns value
.
slice<fill<value_type> > deref()
wraps this fill with a slice. This is particularly useful if an algorithm gives you a container filled with iterators. You can convert it into a slice with a single call to this function.
fill<int> idx()
If this container is filled with iterators, it returns the index of each iterator.
slice<range<iterator> > sub(int start, int end) fill<value_type> subcpy(int start, int end)
returns a slice or copy of the elements within the range [start
,end
).
slice<range<iterator> > sub(int start)
fill<value_type> subcpy(int start)
returns a slice or copy of the elements after start
.
slice<range<iterator> > sub()
fill<value_type> subcpy()
returns a slice or copy of all the elements in this container.
static slice<range<const_iterator> > sub(const_iterator start, const_iterator end)
returns a slice of all the elements within the range [start
,end
) of a fill container.
fill<typename container::iterator> sample(container &c)
fill<typename container::const_iterator> sample(const container &c)
uses the values of the fill container as indices into c
. Returns another fill container with the indexed value from c
.
void swap(fill<value_type> &root)
swaps the contents of this fill container with another.
fill<value_type> &operator=(const fill<value_type> &root)
sets the contents of this fill container equal the contents of another.
bool operator==(fill<value_type1> s1, fill<value_type2> s2)
bool operator!=(fill<value_type1> s1, fill<value_type2> s2)
bool operator<(fill<value_type1> s1, fill<value_type2> s2)
bool operator>(fill<value_type1> s1, fill<value_type2> s2)
bool operator<=(fill<value_type1> s1, fill<value_type2> s2)
bool operator>=(fill<value_type1> s1, fill<value_type2> s2)
Compares two fill containers by comparing value
followed by count
.
bool operator==(fill<value_type1> s1, core::slice<container2> s2)
bool operator!=(fill<value_type1> s1, core::slice<container2> s2)
bool operator<(fill<value_type1> s1, core::slice<container2> s2)
bool operator>(fill<value_type1> s1, core::slice<container2> s2)
bool operator<=(fill<value_type1> s1, core::slice<container2> s2)
bool operator>=(fill<value_type1> s1, core::slice<container2> s2)
bool operator==(core::slice<container1> s1, fill<value_type2> s2)
bool operator!=(core::slice<container1> s1, fill<value_type2> s2)
bool operator<(core::slice<container1> s1, fill<value_type2> s2)
bool operator>(core::slice<container1> s1, fill<value_type2> s2)
bool operator<=(core::slice<container1> s1, fill<value_type2> s2)
bool operator>=(core::slice<container1> s1, fill<value_type2> s2)
Compares a fill container to a generic slice by calling compare()
.
#include <std/ascii_stream.h>
#include <std/fill.h>
using namespace core;
int main()
{
fill<int> f(10, 5);
cout << f << endl;
return 0;
}
{5, 5, 5, 5, 5, 5, 5, 5, 5, 5}