Added Python closure function (for computing a k-skeleton of a closure of a list of simplices)
#ifndef __INDIRECT_H__
#define __INDIRECT_H__
#include <boost/iterator/iterator_adaptor.hpp>
#include <boost/iterator/iterator_facade.hpp>
#include <iterator>
// TODO: write documentation
/**************
* Comparison *
**************/
template<class Comparison_>
struct IndirectComparison
{
typedef Comparison_ Comparison;
IndirectComparison(const Comparison& cmp):
cmp_(cmp)
{}
template<class Iterator>
bool operator()(Iterator a, Iterator b) const
{ return cmp_(*a, *b); }
const Comparison& cmp_;
};
template<class Comparison>
IndirectComparison<Comparison> make_indirect_comparison(const Comparison& cmp)
{ return IndirectComparison<Comparison>(cmp); }
template<class Comparison_>
class FirstComparison
{
public:
typedef Comparison_ Comparison;
FirstComparison(Comparison cmp):
cmp_(cmp) {}
template<class Pair>
bool operator()(const Pair& a, const Pair& b) const
{ return cmp_(a.first, b.first); }
private:
Comparison cmp_;
};
template<class Comparison>
FirstComparison<Comparison> make_first_comparison(const Comparison& cmp)
{ return FirstComparison<Comparison>(cmp); }
template<class Comparison>
struct ThreeOutcomeCompare: public Comparison
{
typedef typename Comparison::first_argument_type first_argument_type;
typedef typename Comparison::second_argument_type second_argument_type;
ThreeOutcomeCompare(const Comparison& cmp = Comparison()): Comparison(cmp) {}
int compare(first_argument_type a, second_argument_type b) const
{ if (operator()(a,b)) return -1;
else if (operator()(b,a)) return 1;
else return 0;
}
};
template<class Evaluator_>
class ThroughEvaluatorComparison
{
public:
typedef Evaluator_ Evaluator;
ThroughEvaluatorComparison(const Evaluator& eval):
eval_(eval) {}
template<class T>
bool operator()(T a, T b) const { return (eval_(a) < eval_(b)); }
private:
const Evaluator& eval_;
};
/*************
* Iterators *
*************/
// Iterates over the difference of the two sorted sequences, dereferencing into the first sequence
template<class Iterator1, class Iterator2, class StrictWeakOrdering>
class difference_iterator: public boost::iterator_facade<difference_iterator<Iterator1, Iterator2, StrictWeakOrdering>,
typename std::iterator_traits<Iterator1>::value_type,
boost::forward_traversal_tag>
{
public:
typedef typename std::iterator_traits<Iterator1>::reference reference;
difference_iterator(Iterator1 cur1, Iterator1 end1,
Iterator2 cur2, Iterator2 end2,
const StrictWeakOrdering& cmp = StrictWeakOrdering()):
cur1_(cur1), end1_(end1), cur2_(cur2), end2_(end2), cmp_(cmp) { catchup(); }
private:
friend class boost::iterator_core_access;
void increment() { ++cur1_; catchup(); }
bool equal(const difference_iterator& other) const { return (cur1_ == other.cur1_) && (cur2_ == other.cur2_); }
reference dereference() const { return *cur1_; }
private:
Iterator1 cur1_, end1_;
Iterator2 cur2_, end2_;
const StrictWeakOrdering& cmp_;
private:
void catchup()
{
while ((cur1_ != end1_) && (cur2_ != end2_))
{
if (cmp_(*cur1_, *cur2_)) break;
else if (cmp_(*cur2_, *cur1_)) ++cur2_;
else { ++cur1_; ++cur2_; }
}
if (cur1_ == end1_) cur2_ = end2_;
}
};
template<class Iterator1, class Iterator2, class StrictWeakOrdering>
difference_iterator<Iterator1, Iterator2, StrictWeakOrdering>
make_difference_iterator(Iterator1 cur1, Iterator1 end1, Iterator2 cur2, Iterator2 end2, const StrictWeakOrdering& cmp)
{ return difference_iterator<Iterator1, Iterator2, StrictWeakOrdering>(cur1, end1, cur2, end2, cmp); }
// Iterates over the intersection of the two sorted sequences, dereferencing into the first sequence
template<class Iterator1, class Iterator2, class StrictWeakOrdering>
class intersection_iterator: public boost::iterator_facade<intersection_iterator<Iterator1, Iterator2, StrictWeakOrdering>,
typename std::iterator_traits<Iterator1>::value_type,
boost::forward_traversal_tag>
{
public:
typedef typename std::iterator_traits<Iterator1>::reference reference;
intersection_iterator(Iterator1 cur1, Iterator1 end1,
Iterator2 cur2, Iterator2 end2,
const StrictWeakOrdering& cmp = StrictWeakOrdering()):
cur1_(cur1), end1_(end1), cur2_(cur2), end2_(end2), cmp_(cmp) { catchup(); }
private:
friend class boost::iterator_core_access;
void increment() { ++cur1_; ++cur2_; catchup(); }
bool equal(const intersection_iterator& other) const { return (cur1_ == other.cur1_) && (cur2_ == other.cur2_); }
reference dereference() const { return *cur1_; }
private:
Iterator1 cur1_, end1_;
Iterator2 cur2_, end2_;
const StrictWeakOrdering& cmp_;
private:
void catchup()
{
while ((cur1_ != end1_) && (cur2_ != end2_))
{
if (cmp_(*cur1_, *cur2_)) ++cur1_;
else if (cmp_(*cur2_, *cur1_)) ++cur2_;
else break;
}
if ((cur1_ == end1_) || (cur2_ == end2_))
{
cur1_ = end1_;
cur2_ = end2_;
}
}
};
template<class Iterator1, class Iterator2, class StrictWeakOrdering>
intersection_iterator<Iterator1, Iterator2, StrictWeakOrdering>
make_intersection_iterator(Iterator1 cur1, Iterator1 end1, Iterator2 cur2, Iterator2 end2, const StrictWeakOrdering& cmp)
{ return intersection_iterator<Iterator1, Iterator2, StrictWeakOrdering>(cur1, end1, cur2, end2, cmp); }
#endif // __INDIRECT_H__