/* 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_POLYGON_45_SET_CONCEPT_HPP #define BOOST_POLYGON_POLYGON_45_SET_CONCEPT_HPP #include "polygon_45_set_data.hpp" #include "polygon_45_set_traits.hpp" #include "detail/polygon_45_touch.hpp" namespace boost { namespace polygon{ template struct is_either_polygon_45_set_type { typedef typename gtl_or::type, typename is_polygon_45_set_type::type >::type type; }; template struct is_polygon_45_or_90_set_type { typedef typename gtl_or::type, typename is_polygon_90_set_type::type >::type type; }; template typename enable_if< typename gtl_if::type>::type, typename polygon_45_set_traits::iterator_type>::type begin_45_set_data(const polygon_set_type& polygon_set) { return polygon_45_set_traits::begin(polygon_set); } template typename enable_if< typename gtl_if::type>::type, typename polygon_45_set_traits::iterator_type>::type end_45_set_data(const polygon_set_type& polygon_set) { return polygon_45_set_traits::end(polygon_set); } template typename enable_if< typename gtl_if::type>::type, bool>::type clean(const polygon_set_type& polygon_set) { return polygon_45_set_traits::clean(polygon_set); } //assign template typename enable_if< typename gtl_and< typename gtl_if::type>::type, typename gtl_if::type>::type>::type, polygon_set_type_1>::type & assign(polygon_set_type_1& lvalue, const polygon_set_type_2& rvalue) { polygon_45_set_mutable_traits::set(lvalue, begin_45_set_data(rvalue), end_45_set_data(rvalue)); return lvalue; } //get trapezoids template typename enable_if< typename gtl_if::type>::type, void>::type get_trapezoids(output_container_type& output, const polygon_set_type& polygon_set) { clean(polygon_set); polygon_45_set_data::coordinate_type> ps; assign(ps, polygon_set); ps.get_trapezoids(output); } //get trapezoids template typename enable_if< typename gtl_if::type>::type, void>::type get_trapezoids(output_container_type& output, const polygon_set_type& polygon_set, orientation_2d slicing_orientation) { clean(polygon_set); polygon_45_set_data::coordinate_type> ps; assign(ps, polygon_set); ps.get_trapezoids(output, slicing_orientation); } //equivalence template typename enable_if< typename gtl_and_3::type>::type, typename gtl_if::type>::type, typename gtl_if::type>::type>::type, bool>::type equivalence(const polygon_set_type_1& lvalue, const polygon_set_type_2& rvalue) { polygon_45_set_data::coordinate_type> ps1; assign(ps1, lvalue); polygon_45_set_data::coordinate_type> ps2; assign(ps2, rvalue); return ps1 == ps2; } //clear template typename enable_if< typename gtl_if::type>::type, void>::type clear(polygon_set_type& polygon_set) { polygon_45_set_data::coordinate_type> ps; assign(polygon_set, ps); } //empty template typename enable_if< typename gtl_if::type>::type, bool>::type empty(const polygon_set_type& polygon_set) { if(clean(polygon_set)) return begin_45_set_data(polygon_set) == end_45_set_data(polygon_set); polygon_45_set_data::coordinate_type> ps; assign(ps, polygon_set); ps.clean(); return ps.empty(); } //extents template typename enable_if< typename gtl_and< typename gtl_if::type>::type, typename is_mutable_rectangle_concept::type>::type>::type, bool>::type extents(rectangle_type& extents_rectangle, const polygon_set_type& polygon_set) { clean(polygon_set); polygon_45_set_data::coordinate_type> ps; assign(ps, polygon_set); return ps.extents(extents_rectangle); } //area template typename enable_if< typename is_mutable_polygon_45_set_type::type, typename coordinate_traits::coordinate_type>::area_type>::type area(const polygon_set_type& polygon_set) { typedef typename polygon_45_set_traits::coordinate_type Unit; typedef polygon_45_with_holes_data p_type; typedef typename coordinate_traits::area_type area_type; std::vector polys; assign(polys, polygon_set); area_type retval = (area_type)0; for(std::size_t i = 0; i < polys.size(); ++i) { retval += area(polys[i]); } return retval; } //interact template typename enable_if < typename gtl_and< typename gtl_if::type>::type, typename gtl_if::type>::type >::type, polygon_set_type_1>::type& interact(polygon_set_type_1& polygon_set_1, const polygon_set_type_2& polygon_set_2) { typedef typename polygon_45_set_traits::coordinate_type Unit; std::vector > polys; assign(polys, polygon_set_1); std::vector > graph(polys.size()+1, std::set()); connectivity_extraction_45 ce; ce.insert(polygon_set_2); for(std::size_t i = 0; i < polys.size(); ++i){ ce.insert(polys[i]); } ce.extract(graph); clear(polygon_set_1); polygon_45_set_data ps; for(std::set::iterator itr = graph[0].begin(); itr != graph[0].end(); ++itr){ ps.insert(polys[(*itr)-1]); } assign(polygon_set_1, ps); return polygon_set_1; } // //self_intersect // template // typename enable_if< typename is_mutable_polygon_45_set_type::type>::type, // polygon_set_type>::type & // self_intersect(polygon_set_type& polygon_set) { // typedef typename polygon_45_set_traits::coordinate_type Unit; // //TODO // } template typename enable_if< typename is_mutable_polygon_45_set_type::type, polygon_set_type>::type & resize(polygon_set_type& polygon_set, coord_type resizing, RoundingOption rounding = CLOSEST, CornerOption corner = INTERSECTION) { typedef typename polygon_45_set_traits::coordinate_type Unit; clean(polygon_set); polygon_45_set_data ps; assign(ps, polygon_set); ps.resize(resizing, rounding, corner); assign(polygon_set, ps); return polygon_set; } template typename enable_if< typename is_mutable_polygon_45_set_type::type, polygon_set_type>::type & bloat(polygon_set_type& polygon_set, typename coordinate_traits::coordinate_type>::unsigned_area_type bloating) { return resize(polygon_set, static_cast::coordinate_type>(bloating)); } template typename enable_if< typename is_mutable_polygon_45_set_type::type, polygon_set_type>::type & shrink(polygon_set_type& polygon_set, typename coordinate_traits::coordinate_type>::unsigned_area_type shrinking) { return resize(polygon_set, -(typename polygon_45_set_traits::coordinate_type)shrinking); } template typename enable_if< typename is_mutable_polygon_45_set_type::type, polygon_set_type>::type & grow_and(polygon_set_type& polygon_set, typename coordinate_traits::coordinate_type>::unsigned_area_type bloating) { typedef typename polygon_45_set_traits::coordinate_type Unit; std::vector > polys; assign(polys, polygon_set); clear(polygon_set); polygon_45_set_data ps; for(std::size_t i = 0; i < polys.size(); ++i) { polygon_45_set_data tmpPs; tmpPs.insert(polys[i]); bloat(tmpPs, bloating); tmpPs.clean(); //apply implicit OR on tmp polygon set ps.insert(tmpPs); } ps.self_intersect(); assign(polygon_set, ps); return polygon_set; } template typename enable_if< typename is_mutable_polygon_45_set_type::type, polygon_set_type>::type & scale_up(polygon_set_type& polygon_set, typename coordinate_traits::coordinate_type>::unsigned_area_type factor) { typedef typename polygon_45_set_traits::coordinate_type Unit; clean(polygon_set); polygon_45_set_data ps; assign(ps, polygon_set); ps.scale_up(factor); assign(polygon_set, ps); return polygon_set; } template typename enable_if< typename is_mutable_polygon_45_set_type::type, polygon_set_type>::type & scale_down(polygon_set_type& polygon_set, typename coordinate_traits::coordinate_type>::unsigned_area_type factor) { typedef typename polygon_45_set_traits::coordinate_type Unit; clean(polygon_set); polygon_45_set_data ps; assign(ps, polygon_set); ps.scale_down(factor); assign(polygon_set, ps); return polygon_set; } template typename enable_if< typename is_mutable_polygon_45_set_type::type, polygon_set_type>::type & scale(polygon_set_type& polygon_set, double factor) { typedef typename polygon_45_set_traits::coordinate_type Unit; clean(polygon_set); polygon_45_set_data ps; assign(ps, polygon_set); ps.scale(factor); assign(polygon_set, ps); return polygon_set; } //self_intersect template typename enable_if< typename is_mutable_polygon_45_set_type::type, polygon_set_type>::type & self_intersect(polygon_set_type& polygon_set) { typedef typename polygon_45_set_traits::coordinate_type Unit; polygon_45_set_data ps; assign(ps, polygon_set); ps.self_intersect(); assign(polygon_set, ps); return polygon_set; } //self_xor template typename enable_if< typename is_mutable_polygon_45_set_type::type, polygon_set_type>::type & self_xor(polygon_set_type& polygon_set) { typedef typename polygon_45_set_traits::coordinate_type Unit; polygon_45_set_data ps; assign(ps, polygon_set); ps.self_xor(); assign(polygon_set, ps); return polygon_set; } //transform template typename enable_if< typename is_mutable_polygon_45_set_type::type, polygon_set_type>::type & transform(polygon_set_type& polygon_set, const transformation_type& transformation) { typedef typename polygon_45_set_traits::coordinate_type Unit; clean(polygon_set); polygon_45_set_data ps; assign(ps, polygon_set); ps.transform(transformation); assign(polygon_set, ps); return polygon_set; } //keep template typename enable_if< typename is_mutable_polygon_45_set_type::type, polygon_set_type>::type & keep(polygon_set_type& polygon_set, typename coordinate_traits::coordinate_type>::area_type min_area, typename coordinate_traits::coordinate_type>::area_type max_area, typename coordinate_traits::coordinate_type>::unsigned_area_type min_width, typename coordinate_traits::coordinate_type>::unsigned_area_type max_width, typename coordinate_traits::coordinate_type>::unsigned_area_type min_height, typename coordinate_traits::coordinate_type>::unsigned_area_type max_height) { typedef typename polygon_45_set_traits::coordinate_type Unit; typedef typename coordinate_traits::unsigned_area_type uat; std::list > polys; assign(polys, polygon_set); typename std::list >::iterator itr_nxt; for(typename std::list >::iterator itr = polys.begin(); itr != polys.end(); itr = itr_nxt){ itr_nxt = itr; ++itr_nxt; rectangle_data bbox; extents(bbox, *itr); uat pwidth = delta(bbox, HORIZONTAL); if(pwidth > min_width && pwidth <= max_width){ uat pheight = delta(bbox, VERTICAL); if(pheight > min_height && pheight <= max_height){ typename coordinate_traits::area_type parea = area(*itr); if(parea <= max_area && parea >= min_area) { continue; } } } polys.erase(itr); } assign(polygon_set, polys); return polygon_set; } template struct view_of { typedef typename get_coordinate_type::type >::type coordinate_type; T* tp; std::vector > polys; view_of(T& obj) : tp(&obj), polys() { std::vector > gpolys; assign(gpolys, obj); for(typename std::vector >::iterator itr = gpolys.begin(); itr != gpolys.end(); ++itr) { polys.push_back(polygon_90_with_holes_data()); assign(polys.back(), view_as(*itr)); } } view_of(const T& obj) : tp(), polys() { std::vector > gpolys; assign(gpolys, obj); for(typename std::vector >::iterator itr = gpolys.begin(); itr != gpolys.end(); ++itr) { polys.push_back(polygon_90_with_holes_data()); assign(polys.back(), view_as(*itr)); } } typedef typename std::vector >::const_iterator iterator_type; typedef view_of operator_arg_type; inline iterator_type begin() const { return polys.begin(); } inline iterator_type end() const { return polys.end(); } inline orientation_2d orient() const { return HORIZONTAL; } inline bool clean() const { return false; } inline bool sorted() const { return false; } inline T& get() { return *tp; } }; template struct polygon_90_set_traits > { typedef typename view_of::coordinate_type coordinate_type; typedef typename view_of::iterator_type iterator_type; typedef view_of operator_arg_type; static inline iterator_type begin(const view_of& polygon_set) { return polygon_set.begin(); } static inline iterator_type end(const view_of& polygon_set) { return polygon_set.end(); } static inline orientation_2d orient(const view_of& polygon_set) { return polygon_set.orient(); } static inline bool clean(const view_of& polygon_set) { return polygon_set.clean(); } static inline bool sorted(const view_of& polygon_set) { return polygon_set.sorted(); } }; template struct geometry_concept > { typedef polygon_90_set_concept type; }; template struct get_coordinate_type, polygon_90_set_concept> { typedef typename view_of::coordinate_type type; }; template struct get_iterator_type_2, polygon_90_set_concept> { typedef typename view_of::iterator_type type; static type begin(const view_of& t) { return t.begin(); } static type end(const view_of& t) { return t.end(); } }; } } #include "detail/polygon_45_set_view.hpp" #endif