kicad/include/boost/polygon/detail/iterator_geometry_to_set.hpp

316 lines
12 KiB
C++
Raw Normal View History

/*
Copyright 2008 Intel Corporation
Use, modification and distribution are subject to the Boost Software License,
Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at
http://www.boost.org/LICENSE_1_0.txt).
*/
#ifndef BOOST_POLYGON_ITERATOR_GEOMETRY_TO_SET_HPP
#define BOOST_POLYGON_ITERATOR_GEOMETRY_TO_SET_HPP
namespace boost { namespace polygon{
template <typename concept_type, typename geometry_type>
class iterator_geometry_to_set {};
template <typename rectangle_type>
class iterator_geometry_to_set<rectangle_concept, rectangle_type> {
public:
typedef typename rectangle_traits<rectangle_type>::coordinate_type coordinate_type;
typedef std::forward_iterator_tag iterator_category;
typedef std::pair<coordinate_type, std::pair<coordinate_type, int> > value_type;
typedef std::ptrdiff_t difference_type;
typedef const value_type* pointer; //immutable
typedef const value_type& reference; //immutable
private:
rectangle_data<coordinate_type> rectangle_;
mutable value_type vertex_;
unsigned int corner_;
orientation_2d orient_;
bool is_hole_;
public:
iterator_geometry_to_set() : rectangle_(), vertex_(), corner_(4), orient_(), is_hole_() {}
iterator_geometry_to_set(const rectangle_type& rectangle, direction_1d dir,
orientation_2d orient = HORIZONTAL, bool is_hole = false, bool = false, direction_1d = CLOCKWISE) :
rectangle_(), vertex_(), corner_(0), orient_(orient), is_hole_(is_hole) {
assign(rectangle_, rectangle);
if(dir == HIGH) corner_ = 4;
}
inline iterator_geometry_to_set& operator++() {
++corner_;
return *this;
}
inline const iterator_geometry_to_set operator++(int) {
iterator_geometry_to_set tmp(*this);
++(*this);
return tmp;
}
inline bool operator==(const iterator_geometry_to_set& that) const {
return corner_ == that.corner_;
}
inline bool operator!=(const iterator_geometry_to_set& that) const {
return !(*this == that);
}
inline reference operator*() const {
if(corner_ == 0) {
vertex_.first = get(get(rectangle_, orient_.get_perpendicular()), LOW);
vertex_.second.first = get(get(rectangle_, orient_), LOW);
vertex_.second.second = 1;
if(is_hole_) vertex_.second.second *= -1;
} else if(corner_ == 1) {
vertex_.second.first = get(get(rectangle_, orient_), HIGH);
vertex_.second.second = -1;
if(is_hole_) vertex_.second.second *= -1;
} else if(corner_ == 2) {
vertex_.first = get(get(rectangle_, orient_.get_perpendicular()), HIGH);
vertex_.second.first = get(get(rectangle_, orient_), LOW);
} else {
vertex_.second.first = get(get(rectangle_, orient_), HIGH);
vertex_.second.second = 1;
if(is_hole_) vertex_.second.second *= -1;
}
return vertex_;
}
};
template <typename polygon_type>
class iterator_geometry_to_set<polygon_90_concept, polygon_type> {
public:
typedef typename polygon_traits<polygon_type>::coordinate_type coordinate_type;
typedef std::forward_iterator_tag iterator_category;
typedef std::pair<coordinate_type, std::pair<coordinate_type, int> > value_type;
typedef std::ptrdiff_t difference_type;
typedef const value_type* pointer; //immutable
typedef const value_type& reference; //immutable
typedef typename polygon_traits<polygon_type>::iterator_type coord_iterator_type;
private:
value_type vertex_;
typename polygon_traits<polygon_type>::iterator_type itrb, itre;
bool last_vertex_;
bool is_hole_;
int multiplier_;
point_data<coordinate_type> first_pt, second_pt, pts[3];
bool use_wrap;
orientation_2d orient_;
int polygon_index;
public:
iterator_geometry_to_set() : vertex_(), itrb(), itre(), last_vertex_(), is_hole_(), multiplier_(), first_pt(), second_pt(), pts(), use_wrap(), orient_(), polygon_index(-1) {}
iterator_geometry_to_set(const polygon_type& polygon, direction_1d dir, orientation_2d orient = HORIZONTAL, bool is_hole = false, bool winding_override = false, direction_1d w = CLOCKWISE) :
vertex_(), itrb(), itre(), last_vertex_(),
is_hole_(is_hole), multiplier_(), first_pt(), second_pt(), pts(), use_wrap(),
orient_(orient), polygon_index(0) {
itrb = begin_points(polygon);
itre = end_points(polygon);
use_wrap = false;
if(itrb == itre || dir == HIGH || size(polygon) < 4) {
polygon_index = -1;
} else {
direction_1d wdir = w;
if(!winding_override)
wdir = winding(polygon);
multiplier_ = wdir == LOW ? -1 : 1;
if(is_hole_) multiplier_ *= -1;
first_pt = pts[0] = *itrb;
++itrb;
second_pt = pts[1] = *itrb;
++itrb;
pts[2] = *itrb;
evaluate_();
}
}
iterator_geometry_to_set(const iterator_geometry_to_set& that) :
vertex_(), itrb(), itre(), last_vertex_(), is_hole_(), multiplier_(), first_pt(),
second_pt(), pts(), use_wrap(), orient_(), polygon_index(-1) {
vertex_ = that.vertex_;
itrb = that.itrb;
itre = that.itre;
last_vertex_ = that.last_vertex_;
is_hole_ = that.is_hole_;
multiplier_ = that.multiplier_;
first_pt = that.first_pt;
second_pt = that.second_pt;
pts[0] = that.pts[0];
pts[1] = that.pts[1];
pts[2] = that.pts[2];
use_wrap = that.use_wrap;
orient_ = that.orient_;
polygon_index = that.polygon_index;
}
inline iterator_geometry_to_set& operator++() {
++polygon_index;
if(itrb == itre) {
if(first_pt == pts[1]) polygon_index = -1;
else {
pts[0] = pts[1];
pts[1] = pts[2];
if(first_pt == pts[2]) {
pts[2] = second_pt;
} else {
pts[2] = first_pt;
}
}
} else {
++itrb;
pts[0] = pts[1];
pts[1] = pts[2];
if(itrb == itre) {
if(first_pt == pts[2]) {
pts[2] = second_pt;
} else {
pts[2] = first_pt;
}
} else {
pts[2] = *itrb;
}
}
evaluate_();
return *this;
}
inline const iterator_geometry_to_set operator++(int) {
iterator_geometry_to_set tmp(*this);
++(*this);
return tmp;
}
inline bool operator==(const iterator_geometry_to_set& that) const {
return polygon_index == that.polygon_index;
}
inline bool operator!=(const iterator_geometry_to_set& that) const {
return !(*this == that);
}
inline reference operator*() const {
return vertex_;
}
inline void evaluate_() {
vertex_.first = pts[1].get(orient_.get_perpendicular());
vertex_.second.first =pts[1].get(orient_);
if(pts[1] == pts[2]) {
vertex_.second.second = 0;
} else if(pts[0].get(HORIZONTAL) != pts[1].get(HORIZONTAL)) {
vertex_.second.second = -1;
} else if(pts[0].get(VERTICAL) != pts[1].get(VERTICAL)) {
vertex_.second.second = 1;
} else {
vertex_.second.second = 0;
}
vertex_.second.second *= multiplier_;
}
};
template <typename polygon_with_holes_type>
class iterator_geometry_to_set<polygon_90_with_holes_concept, polygon_with_holes_type> {
public:
typedef typename polygon_90_traits<polygon_with_holes_type>::coordinate_type coordinate_type;
typedef std::forward_iterator_tag iterator_category;
typedef std::pair<coordinate_type, std::pair<coordinate_type, int> > value_type;
typedef std::ptrdiff_t difference_type;
typedef const value_type* pointer; //immutable
typedef const value_type& reference; //immutable
private:
iterator_geometry_to_set<polygon_90_concept, polygon_with_holes_type> itrb, itre;
iterator_geometry_to_set<polygon_90_concept, typename polygon_with_holes_traits<polygon_with_holes_type>::hole_type> itrhib, itrhie;
typename polygon_with_holes_traits<polygon_with_holes_type>::iterator_holes_type itrhb, itrhe;
orientation_2d orient_;
bool is_hole_;
bool started_holes;
public:
iterator_geometry_to_set() : itrb(), itre(), itrhib(), itrhie(), itrhb(), itrhe(), orient_(), is_hole_(), started_holes() {}
iterator_geometry_to_set(const polygon_with_holes_type& polygon, direction_1d dir,
orientation_2d orient = HORIZONTAL, bool is_hole = false, bool = false, direction_1d = CLOCKWISE) :
itrb(), itre(), itrhib(), itrhie(), itrhb(), itrhe(), orient_(orient), is_hole_(is_hole), started_holes() {
itre = iterator_geometry_to_set<polygon_90_concept, polygon_with_holes_type>(polygon, HIGH, orient, is_hole_);
itrhe = end_holes(polygon);
if(dir == HIGH) {
itrb = itre;
itrhb = itrhe;
started_holes = true;
} else {
itrb = iterator_geometry_to_set<polygon_90_concept, polygon_with_holes_type>(polygon, LOW, orient, is_hole_);
itrhb = begin_holes(polygon);
started_holes = false;
}
}
iterator_geometry_to_set(const iterator_geometry_to_set& that) :
itrb(), itre(), itrhib(), itrhie(), itrhb(), itrhe(), orient_(), is_hole_(), started_holes() {
itrb = that.itrb;
itre = that.itre;
if(that.itrhib != that.itrhie) {
itrhib = that.itrhib;
itrhie = that.itrhie;
}
itrhb = that.itrhb;
itrhe = that.itrhe;
orient_ = that.orient_;
is_hole_ = that.is_hole_;
started_holes = that.started_holes;
}
inline iterator_geometry_to_set& operator++() {
//this code can be folded with flow control factoring
if(itrb == itre) {
if(itrhib == itrhie) {
if(itrhb != itrhe) {
itrhib = iterator_geometry_to_set<polygon_90_concept,
typename polygon_with_holes_traits<polygon_with_holes_type>::hole_type>(*itrhb, LOW, orient_, !is_hole_);
itrhie = iterator_geometry_to_set<polygon_90_concept,
typename polygon_with_holes_traits<polygon_with_holes_type>::hole_type>(*itrhb, HIGH, orient_, !is_hole_);
++itrhb;
} else {
//in this case we have no holes so we just need the iterhib == itrhie, which
//is always true if they were default initialized in the initial case or
//both point to end of the previous hole processed
//no need to explicitly reset them, and it causes an stl debug assertion to use
//the default constructed iterator this way
//itrhib = itrhie = iterator_geometry_to_set<polygon_90_concept,
// typename polygon_with_holes_traits<polygon_with_holes_type>::hole_type>();
}
} else {
++itrhib;
if(itrhib == itrhie) {
if(itrhb != itrhe) {
itrhib = iterator_geometry_to_set<polygon_90_concept,
typename polygon_with_holes_traits<polygon_with_holes_type>::hole_type>(*itrhb, LOW, orient_, !is_hole_);
itrhie = iterator_geometry_to_set<polygon_90_concept,
typename polygon_with_holes_traits<polygon_with_holes_type>::hole_type>(*itrhb, HIGH, orient_, !is_hole_);
++itrhb;
} else {
//this is the same case as above
//itrhib = itrhie = iterator_geometry_to_set<polygon_90_concept,
// typename polygon_with_holes_traits<polygon_with_holes_type>::hole_type>();
}
}
}
} else {
++itrb;
if(itrb == itre) {
if(itrhb != itrhe) {
itrhib = iterator_geometry_to_set<polygon_90_concept,
typename polygon_with_holes_traits<polygon_with_holes_type>::hole_type>(*itrhb, LOW, orient_, !is_hole_);
itrhie = iterator_geometry_to_set<polygon_90_concept,
typename polygon_with_holes_traits<polygon_with_holes_type>::hole_type>(*itrhb, HIGH, orient_, !is_hole_);
++itrhb;
}
}
}
return *this;
}
inline const iterator_geometry_to_set operator++(int) {
iterator_geometry_to_set tmp(*this);
++(*this);
return tmp;
}
inline bool operator==(const iterator_geometry_to_set& that) const {
return itrb == that.itrb && itrhb == that.itrhb && itrhib == that.itrhib;
}
inline bool operator!=(const iterator_geometry_to_set& that) const {
return !(*this == that);
}
inline reference operator*() const {
if(itrb != itre) return *itrb;
return *itrhib;
}
};
}
}
#endif