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Subject: [Boost-commit] svn:boost r78142 - in sandbox/gtl: boost/polygon libs/polygon/test
From: sydorchuk.andriy_at_[hidden]
Date: 2012-04-22 13:28:30


Author: asydorchuk
Date: 2012-04-22 13:28:28 EDT (Sun, 22 Apr 2012)
New Revision: 78142
URL: http://svn.boost.org/trac/boost/changeset/78142

Log:
Moving all the enable_if function arguments to the return type of a corresponding function.
Syncing sandbox gtl tests with trunk.
Removed:
   sandbox/gtl/boost/polygon/gtl_boost_unit_test.cpp
Text files modified:
   sandbox/gtl/boost/polygon/directed_line_segment_concept.hpp | 180 +++++++++++++++++++++++---------------
   sandbox/gtl/boost/polygon/interval_concept.hpp | 184 +++++++++++++++++++++++----------------
   sandbox/gtl/boost/polygon/point_concept.hpp | 165 ++++++++++++++++++++---------------
   sandbox/gtl/boost/polygon/polygon_90_set_concept.hpp | 17 ++-
   sandbox/gtl/boost/polygon/rectangle_concept.hpp | 72 +++++++-------
   sandbox/gtl/libs/polygon/test/gtl_boost_unit_test.cpp | 147 +++++++++++++++++++++++++++++++
   6 files changed, 498 insertions(+), 267 deletions(-)

Modified: sandbox/gtl/boost/polygon/directed_line_segment_concept.hpp
==============================================================================
--- sandbox/gtl/boost/polygon/directed_line_segment_concept.hpp (original)
+++ sandbox/gtl/boost/polygon/directed_line_segment_concept.hpp 2012-04-22 13:28:28 EDT (Sun, 22 Apr 2012)
@@ -62,60 +62,77 @@
             T, typename is_directed_line_segment_concept<typename geometry_concept<T>::type>::type>::type type;
   };
 
+ struct y_s_get : gtl_yes {};
+
   template <typename T>
- typename directed_line_segment_point_type<T>::type
- get(const T& segment, direction_1d dir,
- typename enable_if<typename gtl_if<typename is_directed_line_segment_concept<typename geometry_concept<T>::type>::type>::type>::type * = 0
- ) {
+ typename enable_if< typename gtl_and<
+ y_s_get,
+ typename is_directed_line_segment_concept<typename geometry_concept<T>::type>::type>::type,
+ typename directed_line_segment_point_type<T>::type>::type
+ get(const T& segment, direction_1d dir) {
     return directed_line_segment_traits<T>::get(segment, dir);
   }
 
+ struct y_s_set : gtl_yes {};
+
   template <typename T, typename point_type>
- void
- set(T& segment, direction_1d dir, point_type value,
- typename enable_if<typename is_mutable_directed_line_segment_concept<typename geometry_concept<T>::type>::type>::type * = 0
- ) {
- directed_line_segment_mutable_traits<T>::set(segment, dir, value);
+ typename enable_if< typename gtl_and<
+ y_s_set,
+ typename is_mutable_directed_line_segment_concept<typename geometry_concept<T>::type>::type>::type,
+ void>::type
+ set(T& segment, direction_1d dir, point_type value) {
+ directed_line_segment_mutable_traits<T>::set(segment, dir, value);
   }
+
+ struct y_s_construct : gtl_yes {};
   
   template <typename T, typename T2, typename T3>
- T
- construct(T2 low_value, T3 high_value,
- typename enable_if<typename is_mutable_directed_line_segment_concept<typename geometry_concept<T>::type>::type>::type * = 0
- ) {
+ typename enable_if< typename gtl_and<
+ y_s_construct,
+ typename is_mutable_directed_line_segment_concept<typename geometry_concept<T>::type>::type>::type,
+ T>::type
+ construct(T2 low_value, T3 high_value) {
     return directed_line_segment_mutable_traits<T>::construct(low_value, high_value);
   }
-
+
+ struct y_s_copy_construct : gtl_yes {};
+
   template <typename T, typename T2>
- T
- copy_construct(const T2& segment,
- typename enable_if< typename gtl_and<typename is_mutable_directed_line_segment_concept<typename geometry_concept<T>::type>::type,
- typename is_directed_line_segment_concept<typename geometry_concept<T2>::type>::type>::type>::type * = 0
- ) {
+ typename enable_if< typename gtl_and_3<
+ y_s_copy_construct,
+ typename is_mutable_directed_line_segment_concept<typename geometry_concept<T>::type>::type,
+ typename is_directed_line_segment_concept<typename geometry_concept<T2>::type>::type>::type,
+ T>::type
+ copy_construct(const T2& segment) {
     return construct<T>
       (get(segment, LOW ),
        get(segment, HIGH));
   }
 
+ struct y_s_assign : gtl_yes {};
+
   template <typename T1, typename T2>
- T1 &
- assign(T1& lvalue, const T2& rvalue,
- typename enable_if< typename gtl_and< typename is_mutable_directed_line_segment_concept<typename geometry_concept<T1>::type>::type,
- typename is_directed_line_segment_concept<typename geometry_concept<T2>::type>::type>::type>::type * = 0) {
+ typename enable_if< typename gtl_and_3<
+ y_s_assign,
+ typename is_mutable_directed_line_segment_concept<typename geometry_concept<T1>::type>::type,
+ typename is_directed_line_segment_concept<typename geometry_concept<T2>::type>::type>::type,
+ T1>::type &
+ assign(T1& lvalue, const T2& rvalue) {
     lvalue = copy_construct<T1>(rvalue);
     return lvalue;
   }
 
+ struct y_s_equivalence : gtl_yes {};
+
   template <typename T, typename T2>
- bool
- equivalence(const T& segment1, const T2& segment2,
- typename enable_if< typename gtl_and< typename is_directed_line_segment_concept<typename geometry_concept<T>::type>::type,
- typename is_directed_line_segment_concept<typename geometry_concept<T2>::type>::type>::type>::type * = 0
- ) {
- return get(segment1, LOW) ==
- get(segment2, LOW) &&
- get(segment1, HIGH) ==
- get(segment2, HIGH);
+ typename enable_if< typename gtl_and_3<
+ y_s_equivalence,
+ typename is_directed_line_segment_concept<typename geometry_concept<T>::type>::type,
+ typename is_directed_line_segment_concept<typename geometry_concept<T2>::type>::type>::type,
+ bool>::type
+ equivalence(const T& segment1, const T2& segment2) {
+ return get(segment1, LOW) == get(segment2, LOW) &&
+ get(segment1, HIGH) == get(segment2, HIGH);
   }
   
   struct y_dls_on_above_or_below : gtl_yes {};
@@ -152,64 +169,79 @@
     }
     return false;
   }
-
+
+ struct y_s_contains : gtl_yes {};
+
   template <typename segment_type, typename segment_type_2>
- bool
- contains(const segment_type& segment,
- const segment_type_2& value, bool consider_touch = true,
- typename enable_if< typename gtl_and< typename is_directed_line_segment_concept<typename geometry_concept<segment_type>::type>::type,
- typename is_directed_line_segment_concept<typename geometry_concept<segment_type_2>::type>::type>::type>::type * = 0
- ) {
+ typename enable_if< typename gtl_and_3<
+ y_s_contains,
+ typename is_directed_line_segment_concept<typename geometry_concept<segment_type>::type>::type,
+ typename is_directed_line_segment_concept<typename geometry_concept<segment_type_2>::type>::type>::type,
+ bool>::type
+ contains(const segment_type& segment, const segment_type_2& value, bool consider_touch = true) {
     return contains(segment, get(value, LOW), consider_touch) &&
       contains(segment, get(value, HIGH), consider_touch);
   }
+
+ struct y_s_low : gtl_yes {};
   
   // get the low point
   template <typename segment_type>
- typename directed_line_segment_point_type<segment_type>::type
- low(const segment_type& segment,
- typename enable_if< typename is_directed_line_segment_concept<typename geometry_concept<segment_type>::type>::type>::type * = 0
- ) { return get(segment, LOW); }
+ typename enable_if< typename gtl_and<
+ y_s_low,
+ typename is_directed_line_segment_concept<typename geometry_concept<segment_type>::type>::type>::type,
+ typename directed_line_segment_point_type<segment_type>::type>::type
+ low(const segment_type& segment) { return get(segment, LOW); }
+
+ struct y_s_high : gtl_yes {};
 
   // get the high point
   template <typename segment_type>
- typename directed_line_segment_point_type<segment_type>::type
- high(const segment_type& segment,
- typename enable_if< typename is_directed_line_segment_concept<typename geometry_concept<segment_type>::type>::type>::type * = 0
- ) { return get(segment, HIGH); }
+ typename enable_if< typename gtl_and<
+ y_s_high,
+ typename is_directed_line_segment_concept<typename geometry_concept<segment_type>::type>::type>::type,
+ typename directed_line_segment_point_type<segment_type>::type>::type
+ high(const segment_type& segment) { return get(segment, HIGH); }
+
+ struct y_s_center : gtl_yes {};
 
   // get the center point
   template <typename segment_type>
- typename directed_line_segment_point_type<segment_type>::type
- center(const segment_type& segment,
- typename enable_if< typename is_directed_line_segment_concept<typename geometry_concept<segment_type>::type>::type>::type * = 0
- ) {
- return construct<typename directed_line_segment_traits<segment_type>::point_type>((x(high(segment)) + x(low(segment)))/2,
- (y(high(segment)) + y(low(segment)))/2);
-
+ typename enable_if< typename gtl_and<
+ y_s_center,
+ typename is_directed_line_segment_concept<typename geometry_concept<segment_type>::type>::type>::type,
+ typename directed_line_segment_point_type<segment_type>::type>::type
+ center(const segment_type& segment) {
+ return construct<typename directed_line_segment_traits<segment_type>::point_type>(
+ (x(high(segment)) + x(low(segment)))/2, (y(high(segment)) + y(low(segment)))/2);
   }
 
- struct y_dls_low : gtl_yes {};
+ struct y_s_low2 : gtl_yes {};
 
   // set the low point to v
   template <typename segment_type>
- typename enable_if<typename gtl_and<y_dls_low, typename is_mutable_directed_line_segment_concept<typename geometry_concept<segment_type>::type>::type>::type, void>::type
- low(segment_type& segment,
- typename directed_line_segment_traits<segment_type>::point_type v) { set(segment, LOW, v); }
+ typename enable_if<typename gtl_and<y_s_low2, typename is_mutable_directed_line_segment_concept<typename geometry_concept<segment_type>::type>::type>::type, void>::type
+ low(segment_type& segment, typename directed_line_segment_traits<segment_type>::point_type v) { set(segment, LOW, v);
+ }
   
- struct y_dls_high : gtl_yes {};
+ struct y_s_high2 : gtl_yes {};
 
   // set the high coordinate to v
   template <typename segment_type>
- typename enable_if<typename gtl_and<y_dls_high, typename is_mutable_directed_line_segment_concept<typename geometry_concept<segment_type>::type>::type>::type, void>::type
- high(segment_type& segment,
- typename directed_line_segment_traits<segment_type>::point_type v) { set(segment, HIGH, v); }
-
+ typename enable_if<typename gtl_and<y_s_high2, typename is_mutable_directed_line_segment_concept<typename geometry_concept<segment_type>::type>::type>::type, void>::type
+ high(segment_type& segment, typename directed_line_segment_traits<segment_type>::point_type v) { set(segment, HIGH, v);
+ }
+
+ struct y_s_length : gtl_yes {};
+
   template <typename segment_type>
- typename directed_line_segment_distance_type<segment_type>::type
- length(const segment_type& segment,
- typename enable_if< typename is_directed_line_segment_concept<typename geometry_concept<segment_type>::type>::type>::type * = 0
- ) { return euclidean_distance(low(segment), high(segment)); }
+ typename enable_if< typename gtl_and<
+ y_s_length,
+ typename is_directed_line_segment_concept<typename geometry_concept<segment_type>::type>::type>::type,
+ typename directed_line_segment_point_type<segment_type>::type>::type
+ length(const segment_type& segment) {
+ return euclidean_distance(low(segment), high(segment));
+ }
 
   struct y_dls_flip : gtl_yes {};
 
@@ -259,14 +291,18 @@
     low(segment, transform(l, val));
     high(segment, transform(h, val));
     return segment;
- }
+ }
+
+ struct y_s_move : gtl_yes {};
+
   // move segment by delta
   template <typename segment_type>
- segment_type&
+ typename enable_if< typename gtl_and<
+ y_s_move,
+ typename is_mutable_directed_line_segment_concept<typename geometry_concept<segment_type>::type>::type>::type,
+ segment_type>::type &
   move(segment_type& segment, orientation_2d orient,
- typename directed_line_segment_coordinate_type<segment_type>::type displacement,
- typename enable_if<typename is_mutable_directed_line_segment_concept<typename geometry_concept<segment_type>::type>::type>::type * = 0
- ) {
+ typename directed_line_segment_coordinate_type<segment_type>::type displacement) {
     typename directed_line_segment_point_type<segment_type>::type l = low(segment), h = high(segment);
     low(segment, move(l, orient, displacement));
     high(segment, move(h, orient, displacement));

Deleted: sandbox/gtl/boost/polygon/gtl_boost_unit_test.cpp
==============================================================================
--- sandbox/gtl/boost/polygon/gtl_boost_unit_test.cpp 2012-04-22 13:28:28 EDT (Sun, 22 Apr 2012)
+++ (empty file)
@@ -1,3372 +0,0 @@
-/*
- 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).
-*/
-#define BOOST_POLYGON_NO_DEPS
-#include <iostream>
-#define BOOST_VERY_LITTLE_SFINAE
-//#include <boost/polygon/polygon.hpp>
-#include "polygon.hpp"
-//#include "ac_int_override.hpp"
-namespace gtl = boost::polygon;
-using namespace boost::polygon::operators;
-#include <time.h>
-#include <stdlib.h>
-
-namespace boost { namespace polygon{
-
- template <class T>
- std::ostream& operator << (std::ostream& o, const interval_data<T>& i)
- {
- return o << i.get(LOW) << ' ' << i.get(HIGH);
- }
- template <class T>
- std::ostream& operator << (std::ostream& o, const point_data<T>& r)
- {
- return o << r.get(HORIZONTAL) << ' ' << r.get(VERTICAL);
- }
- template <typename T>
- std::ostream& operator<<(std::ostream& o, const polygon_45_data<T>& poly) {
- o << "Polygon { ";
- for(typename polygon_45_data<T>::iterator_type itr = poly.begin();
- itr != poly.end(); ++itr) {
- if(itr != poly.begin()) o << ", ";
- o << (*itr).get(HORIZONTAL) << " " << (*itr).get(VERTICAL);
- }
- o << " } ";
- return o;
- }
- template <typename Unit>
- inline std::ostream& operator<< (std::ostream& o, const polygon_45_set_data<Unit>& p) {
- o << "Polygon45Set ";
- o << " " << !p.sorted() << " " << p.dirty() << " { ";
- for(typename polygon_45_set_data<Unit>::iterator_type itr = p.begin();
- itr != p.end(); ++itr) {
- o << (*itr).pt << ":";
- for(unsigned int i = 0; i < 4; ++i) {
- o << (*itr).count[i] << ",";
- } o << " ";
- //o << (*itr).first << ":" << (*itr).second << "; ";
- }
- o << "} ";
- return o;
- }
-
- template <typename Unit>
- inline std::istream& operator>> (std::istream& i, polygon_45_set_data<Unit>& p) {
- //TODO
- return i;
- }
- template <typename T>
- std::ostream& operator << (std::ostream& o, const polygon_90_data<T>& r)
- {
- o << "Polygon { ";
- for(typename polygon_90_data<T>::iterator_type itr = r.begin(); itr != r.end(); ++itr) {
- o << *itr << ", ";
- }
- return o << "} ";
- }
-
- template <typename T>
- std::istream& operator >> (std::istream& i, polygon_90_data<T>& r)
- {
- std::size_t size;
- i >> size;
- std::vector<T> vec;
- vec.reserve(size);
- for(std::size_t ii = 0; ii < size; ++ii) {
- T coord;
- i >> coord;
- vec.push_back(coord);
- }
- r.set_compact(vec.begin(), vec.end());
- return i;
- }
-
- template <typename T>
- std::ostream& operator << (std::ostream& o, const std::vector<polygon_90_data<T> >& r) {
- o << r.size() << ' ';
- for(std::size_t ii = 0; ii < r.size(); ++ii) {
- o << (r[ii]);
- }
- return o;
- }
- template <typename T>
- std::istream& operator >> (std::istream& i, std::vector<polygon_90_data<T> >& r) {
- std::size_t size;
- i >> size;
- r.clear();
- r.reserve(size);
- for(std::size_t ii = 0; ii < size; ++ii) {
- polygon_90_data<T> tmp;
- i >> tmp;
- r.push_back(tmp);
- }
- return i;
- }
- template <typename T>
- std::ostream& operator<<(std::ostream& o, const polygon_data<T>& poly) {
- o << "Polygon { ";
- for(typename polygon_data<T>::iterator_type itr = poly.begin();
- itr != poly.end(); ++itr) {
- if(itr != poly.begin()) o << ", ";
- o << (*itr).get(HORIZONTAL) << " " << (*itr).get(VERTICAL);
- }
- o << " } ";
- return o;
- }
- template <typename T>
- std::ostream& operator << (std::ostream& o, const polygon_set_data<T>& r)
- {
- o << "Polygon Set Data { ";
- for(typename polygon_set_data<T>::iterator_type itr = r.begin(); itr != r.end(); ++itr) {
- o << "<" << (*itr).first.first << ", " << (*itr).first.second << ">:" << (*itr).second << " ";
- }
- o << "} ";
- return o;
- }
- template <typename T>
- std::ostream& operator<<(std::ostream& o, const polygon_90_with_holes_data<T>& poly) {
- o << "Polygon With Holes { ";
- for(typename polygon_90_with_holes_data<T>::iterator_type itr = poly.begin();
- itr != poly.end(); ++itr) {
- if(itr != poly.begin()) o << ", ";
- o << (*itr).get(HORIZONTAL) << " " << (*itr).get(VERTICAL);
- } o << " { ";
- for(typename polygon_90_with_holes_data<T>::iterator_holes_type itr = poly.begin_holes();
- itr != poly.end_holes(); ++itr) {
- o << (*itr);
- }
- o << " } } ";
- return o;
- }
- template <typename T>
- std::ostream& operator<<(std::ostream& o, const polygon_45_with_holes_data<T>& poly) {
- o << "Polygon With Holes { ";
- for(typename polygon_45_with_holes_data<T>::iterator_type itr = poly.begin();
- itr != poly.end(); ++itr) {
- if(itr != poly.begin()) o << ", ";
- o << (*itr).get(HORIZONTAL) << " " << (*itr).get(VERTICAL);
- } o << " { ";
- for(typename polygon_45_with_holes_data<T>::iterator_holes_type itr = poly.begin_holes();
- itr != poly.end_holes(); ++itr) {
- o << (*itr);
- }
- o << " } } ";
- return o;
- }
- template <typename T>
- std::ostream& operator<<(std::ostream& o, const polygon_with_holes_data<T>& poly) {
- o << "Polygon With Holes { ";
- for(typename polygon_with_holes_data<T>::iterator_type itr = poly.begin();
- itr != poly.end(); ++itr) {
- if(itr != poly.begin()) o << ", ";
- o << (*itr).get(HORIZONTAL) << " " << (*itr).get(VERTICAL);
- } o << " { ";
- for(typename polygon_with_holes_data<T>::iterator_holes_type itr = poly.begin_holes();
- itr != poly.end_holes(); ++itr) {
- o << (*itr);
- }
- o << " } } ";
- return o;
- }
- template <class T>
- std::ostream& operator << (std::ostream& o, const rectangle_data<T>& r)
- {
- return o << r.get(HORIZONTAL) << ' ' << r.get(VERTICAL);
- }
-
-
- template <typename T>
- typename enable_if<typename is_polygon_90_set_type<T>::type, void>::type
- print_is_polygon_90_set_concept(const T& ) { std::cout << "is polygon 90 set concept\n"; }
- template <typename T>
- typename enable_if<typename is_mutable_polygon_90_set_type<T>::type, void>::type
- print_is_mutable_polygon_90_set_concept(const T& ) { std::cout << "is mutable polygon 90 set concept\n"; }
- namespace boolean_op {
- //self contained unit test for BooleanOr algorithm
- template <typename Unit>
- inline bool testBooleanOr() {
- BooleanOp<int, Unit> booleanOr;
- //test one rectangle
- std::vector<std::pair<interval_data<Unit>, int> > container;
- booleanOr.processInterval(container, interval_data<Unit>(0, 10), 1);
- booleanOr.advanceScan();
- booleanOr.processInterval(container, interval_data<Unit>(0, 10), -1);
- if(container.size() != 2) {
- std::cout << "Test one rectangle, wrong output size\n";
- return false;
- }
- if(container[0] != std::pair<interval_data<Unit>, int>(interval_data<Unit>(0, 10), 1)) {
- std::cout << "Test one rectangle, first output wrong: Interval(" <<
- container[0].first << "), " << container[0].second << std::endl;
- }
- if(container[1] != std::pair<interval_data<Unit>, int>(interval_data<Unit>(0, 10), -1)) {
- std::cout << "Test one rectangle, second output wrong: Interval(" <<
- container[1].first << "), " << container[1].second << std::endl;
- }
-
- //test two rectangles
- container.clear();
- booleanOr = BooleanOp<int, Unit>();
- booleanOr.processInterval(container, interval_data<Unit>(0, 10), 1);
- booleanOr.advanceScan();
- booleanOr.processInterval(container, interval_data<Unit>(5, 15), 1);
- booleanOr.advanceScan();
- booleanOr.processInterval(container, interval_data<Unit>(0, 10), -1);
- booleanOr.advanceScan();
- booleanOr.processInterval(container, interval_data<Unit>(5, 15), -1);
- if(container.size() != 4) {
- std::cout << "Test two rectangles, wrong output size\n";
- for(std::size_t i = 0; i < container.size(); ++i){
- std::cout << container[i].first << "), " << container[i].second << std::endl;
- }
- return false;
- }
- if(container[0] != std::pair<interval_data<Unit>, int>(interval_data<Unit>(0, 10), 1)) {
- std::cout << "Test two rectangles, first output wrong: Interval(" <<
- container[0].first << "), " << container[0].second << std::endl;
- }
- if(container[1] != std::pair<interval_data<Unit>, int>(interval_data<Unit>(10, 15), 1)) {
- std::cout << "Test two rectangles, second output wrong: Interval(" <<
- container[1].first << "), " << container[1].second << std::endl;
- }
- if(container[2] != std::pair<interval_data<Unit>, int>(interval_data<Unit>(0, 5), -1)) {
- std::cout << "Test two rectangles, third output wrong: Interval(" <<
- container[2].first << "), " << container[2].second << std::endl;
- }
- if(container[3] != std::pair<interval_data<Unit>, int>(interval_data<Unit>(5, 15), -1)) {
- std::cout << "Test two rectangles, fourth output wrong: Interval(" <<
- container[3].first << "), " << container[3].second << std::endl;
- }
-
- //test two rectangles
- container.clear();
- booleanOr = BooleanOp<int, Unit>();
- booleanOr.processInterval(container, interval_data<Unit>(5, 15), 1);
- booleanOr.advanceScan();
- booleanOr.processInterval(container, interval_data<Unit>(0, 10), 1);
- booleanOr.advanceScan();
- booleanOr.processInterval(container, interval_data<Unit>(5, 15), -1);
- booleanOr.advanceScan();
- booleanOr.processInterval(container, interval_data<Unit>(0, 10), -1);
- if(container.size() != 4) {
- std::cout << "Test other two rectangles, wrong output size\n";
- for(std::size_t i = 0; i < container.size(); ++i){
- std::cout << container[i].first << "), " << container[i].second << std::endl;
- }
- return false;
- }
- if(container[0] != std::pair<interval_data<Unit>, int>(interval_data<Unit>(5, 15), 1)) {
- std::cout << "Test other two rectangles, first output wrong: Interval(" <<
- container[0].first << "), " << container[0].second << std::endl;
- }
- if(container[1] != std::pair<interval_data<Unit>, int>(interval_data<Unit>(0, 5), 1)) {
- std::cout << "Test other two rectangles, second output wrong: Interval(" <<
- container[1].first << "), " << container[1].second << std::endl;
- }
- if(container[2] != std::pair<interval_data<Unit>, int>(interval_data<Unit>(10, 15), -1)) {
- std::cout << "Test other two rectangles, third output wrong: Interval(" <<
- container[2].first << "), " << container[2].second << std::endl;
- }
- if(container[3] != std::pair<interval_data<Unit>, int>(interval_data<Unit>(0, 10), -1)) {
- std::cout << "Test other two rectangles, fourth output wrong: Interval(" <<
- container[3].first << "), " << container[3].second << std::endl;
- }
-
- //test two nonoverlapping rectangles
- container.clear();
- booleanOr = BooleanOp<int, Unit>();
- booleanOr.processInterval(container, interval_data<Unit>(0, 10), 1);
- booleanOr.advanceScan();
- booleanOr.processInterval(container, interval_data<Unit>(15, 25), 1);
- booleanOr.advanceScan();
- booleanOr.processInterval(container, interval_data<Unit>(0, 10), -1);
- booleanOr.advanceScan();
- booleanOr.processInterval(container, interval_data<Unit>(15, 25), -1);
- if(container.size() != 4) {
- std::cout << "Test two nonoverlapping rectangles, wrong output size\n";
- return false;
- }
- if(container[0] != std::pair<interval_data<Unit>, int>(interval_data<Unit>(0, 10), 1)) {
- std::cout << "Test two nonoverlapping rectangles, first output wrong: Interval(" <<
- container[0].first << "), " << container[0].second << std::endl;
- }
- if(container[1] != std::pair<interval_data<Unit>, int>(interval_data<Unit>(15, 25), 1)) {
- std::cout << "Test two nonoverlapping rectangles, second output wrong: Interval(" <<
- container[1].first << "), " << container[1].second << std::endl;
- }
- if(container[2] != std::pair<interval_data<Unit>, int>(interval_data<Unit>(0, 10), -1)) {
- std::cout << "Test two nonoverlapping rectangles, third output wrong: Interval(" <<
- container[2].first << "), " << container[2].second << std::endl;
- }
- if(container[3] != std::pair<interval_data<Unit>, int>(interval_data<Unit>(15, 25), -1)) {
- std::cout << "Test two nonoverlapping rectangles, fourth output wrong: Interval(" <<
- container[3].first << "), " << container[3].second << std::endl;
- }
- return true;
- }
- }
-
- void test_assign() {
- using namespace gtl;
- std::vector<polygon_data<int> > ps;
- polygon_90_set_data<int> ps90;
- assign(ps, ps90);
- }
-
- //this is a compile time test, if it compiles it passes
- void test_view_as() {
- using namespace gtl;
- polygon_data<int> p;
- polygon_45_data<int> p45;
- polygon_90_data<int> p90;
- polygon_with_holes_data<int> pwh;
- polygon_45_with_holes_data<int> p45wh;
- polygon_90_with_holes_data<int> p90wh;
- rectangle_data<int> rect(0, 1, 10, 11);
- polygon_90_set_data<int> ps90;
- polygon_45_set_data<int> ps45;
- polygon_set_data<int> ps;
-
- assign(p, rect);
- assign(p90, view_as<polygon_90_concept>(p));
- if(!equivalence(p90, rect))
- std::cout << "fail 1\n";
- assign(p45, view_as<polygon_45_concept>(p));
- if(!equivalence(p45, rect))
- std::cout << "fail 2\n";
- assign(p90, view_as<polygon_90_concept>(p45));
- if(!equivalence(p90, rect))
- std::cout << "fail 3\n";
- if(!equivalence(rect, view_as<rectangle_concept>(p)))
- std::cout << "fail 4\n";
- if(!equivalence(rect, view_as<rectangle_concept>(p45)))
- std::cout << "fail 5\n";
- if(!equivalence(rect, view_as<rectangle_concept>(p90)))
- std::cout << "fail 6\n";
- assign(pwh, rect);
- assign(p90wh, rect);
- assign(p45wh, rect);
- if(!equivalence(rect, view_as<rectangle_concept>(pwh)))
- std::cout << "fail 7\n";
- if(!equivalence(rect, view_as<rectangle_concept>(p45wh)))
- std::cout << "fail 8\n";
- if(!equivalence(rect, view_as<rectangle_concept>(p90wh)))
- std::cout << "fail 9\n";
- assign(p90wh, view_as<polygon_90_with_holes_concept>(pwh));
- if(!equivalence(p90wh, rect))
- std::cout << "fail 10\n";
- assign(p45wh, view_as<polygon_45_with_holes_concept>(pwh));
- if(!equivalence(p45wh, rect))
- std::cout << "fail 11\n";
- assign(p90wh, view_as<polygon_90_with_holes_concept>(p45wh));
- if(!equivalence(p90wh, rect))
- std::cout << "fail 12\n";
- assign(p90, view_as<polygon_90_concept>(pwh));
- if(!equivalence(p90, rect))
- std::cout << "fail 13\n";
- assign(p45, view_as<polygon_45_concept>(pwh));
- if(!equivalence(p45, rect))
- std::cout << "fail 14\n";
- assign(p90, view_as<polygon_90_concept>(p45wh));
- if(!equivalence(p90, rect))
- std::cout << "fail 15\n";
- assign(ps, rect);
- assign(ps90, view_as<polygon_90_set_concept>(ps));
- if(!equivalence(ps90, rect))
- std::cout << "fail 16\n";
- assign(ps45, view_as<polygon_45_set_concept>(ps));
- if(!equivalence(ps45, rect))
- std::cout << "fail 17\n";
- assign(ps90, view_as<polygon_90_set_concept>(ps45));
- if(!equivalence(ps90, rect))
- std::cout << "fail 18\n";
- }
-
- inline bool testPolygon45SetRect() {
- std::vector<point_data<int> > points;
- points.push_back(point_data<int>(0,0));
- points.push_back(point_data<int>(0,10));
- points.push_back(point_data<int>(10,10));
- points.push_back(point_data<int>(10,0));
- polygon_45_data<int> poly;
- poly.set(points.begin(), points.end());
- polygon_45_set_data<int> ps;
- ps.insert(poly);
- std::vector<polygon_45_data<int> > polys;
- ps.get_polygons(polys);
- std::cout << polys.size() << std::endl;
- for(unsigned int i = 0; i < polys.size(); ++i) {
- std::cout << polys[i] << std::endl;
- }
- return true;
- }
-
- inline bool testPolygon45Set() {
- polygon_45_formation<int>::Polygon45Formation pf(true);
- typedef boolean_op_45<int>::Vertex45 Vertex45;
- std::vector<Vertex45> data;
- // result == 0 8 -1 1
- data.push_back(Vertex45(point_data<int>(0, 8), -1, 1));
- // result == 0 8 1 -1
- data.push_back(Vertex45(point_data<int>(0, 8), 1, -1));
- // result == 4 0 1 1
- data.push_back(Vertex45(point_data<int>(4, 0), 1, 1));
- // result == 4 0 2 1
- data.push_back(Vertex45(point_data<int>(4, 0), 2, 1));
- // result == 4 4 2 -1
- data.push_back(Vertex45(point_data<int>(4, 4), 2, -1));
- // result == 4 4 -1 -1
- data.push_back(Vertex45(point_data<int>(4, 4), -1, -1));
- // result == 4 12 1 1
- data.push_back(Vertex45(point_data<int>(4, 12), 1, 1));
- // result == 4 12 2 1
- data.push_back(Vertex45(point_data<int>(4, 12), 2, 1));
- // result == 4 16 2 -1
- data.push_back(Vertex45(point_data<int>(4, 16), 2, 1));
- // result == 4 16 -1 -1
- data.push_back(Vertex45(point_data<int>(4, 16), -1, -1));
- // result == 6 2 1 -1
- data.push_back(Vertex45(point_data<int>(6, 2), 1, -1));
- // result == 6 14 -1 1
- data.push_back(Vertex45(point_data<int>(6, 14), -1, 1));
- // result == 6 2 -1 1
- data.push_back(Vertex45(point_data<int>(6, 2), -1, 1));
- // result == 6 14 1 -1
- data.push_back(Vertex45(point_data<int>(6, 14), 1, -1));
- // result == 8 0 -1 -1
- data.push_back(Vertex45(point_data<int>(8, 0), -1, -1));
- // result == 8 0 2 -1
- data.push_back(Vertex45(point_data<int>(8, 0), 2, -1));
- // result == 8 4 2 1
- data.push_back(Vertex45(point_data<int>(8, 4), 2, 1));
- // result == 8 4 1 1
- data.push_back(Vertex45(point_data<int>(8, 4), 1, 1));
- // result == 8 12 -1 -1
- data.push_back(Vertex45(point_data<int>(8, 12), -1, -1));
- // result == 8 12 2 -1
- data.push_back(Vertex45(point_data<int>(8, 12), 2, -1));
- // result == 8 16 2 1
- data.push_back(Vertex45(point_data<int>(8, 16), 2, 1));
- // result == 8 16 1 1
- data.push_back(Vertex45(point_data<int>(8, 16), 1, 1));
- // result == 12 8 1 -1
- data.push_back(Vertex45(point_data<int>(12, 8), 1, -1));
- // result == 12 8 -1 1
- data.push_back(Vertex45(point_data<int>(12, 8), -1, 1));
-
- data.push_back(Vertex45(point_data<int>(6, 4), 1, -1));
- data.push_back(Vertex45(point_data<int>(6, 4), 2, -1));
- data.push_back(Vertex45(point_data<int>(6, 12), -1, 1));
- data.push_back(Vertex45(point_data<int>(6, 12), 2, 1));
- data.push_back(Vertex45(point_data<int>(10, 8), -1, -1));
- data.push_back(Vertex45(point_data<int>(10, 8), 1, 1));
-
- std::sort(data.begin(), data.end());
- std::vector<polygon_45_data<int> > polys;
- pf.scan(polys, data.begin(), data.end());
- polygon_45_set_data<int> ps;
- std::cout << "inserting1\n";
- //std::vector<point_data<int> > points;
- //points.push_back(point_data<int>(0,0));
- //points.push_back(point_data<int>(0,10));
- //points.push_back(point_data<int>(10,10));
- //points.push_back(point_data<int>(10,0));
- //Polygon45 poly;
- //poly.set(points.begin(), points.end());
- //ps.insert(poly);
- ps.insert(polys[0]);
-
- polygon_45_set_data<int> ps2;
- std::cout << "inserting2\n";
- ps2.insert(polys[0]);
- std::cout << "applying boolean\n";
- ps |= ps2;
- std::vector<polygon_45_data<int> > polys2;
- std::cout << "getting result\n";
- ps.get_polygons(polys2);
- std::cout << ps2 << std::endl;
- std::cout << ps << std::endl;
- std::cout << polys[0] << std::endl;
- std::cout << polys2[0] << std::endl;
- if(polys != polys2) std::cout << "test Polygon45Set failed\n";
- return polys == polys2;
- }
-
- inline bool testPolygon45SetPerterbation() {
- polygon_45_formation<int>::Polygon45Formation pf(true);
- typedef boolean_op_45<int>::Vertex45 Vertex45;
- std::vector<Vertex45> data;
- // result == 0 8 -1 1
- data.push_back(Vertex45(point_data<int>(0, 80), -1, 1));
- // result == 0 8 1 -1
- data.push_back(Vertex45(point_data<int>(0, 80), 1, -1));
- // result == 4 0 1 1
- data.push_back(Vertex45(point_data<int>(40, 0), 1, 1));
- // result == 4 0 2 1
- data.push_back(Vertex45(point_data<int>(40, 0), 2, 1));
- // result == 4 4 2 -1
- data.push_back(Vertex45(point_data<int>(40, 40), 2, -1));
- // result == 4 4 -1 -1
- data.push_back(Vertex45(point_data<int>(40, 40), -1, -1));
- // result == 4 12 1 1
- data.push_back(Vertex45(point_data<int>(40, 120), 1, 1));
- // result == 4 12 2 1
- data.push_back(Vertex45(point_data<int>(40, 120), 2, 1));
- // result == 4 16 2 -1
- data.push_back(Vertex45(point_data<int>(40, 160), 2, 1));
- // result == 4 16 -1 -1
- data.push_back(Vertex45(point_data<int>(40, 160), -1, -1));
- // result == 6 2 1 -1
- data.push_back(Vertex45(point_data<int>(60, 20), 1, -1));
- // result == 6 14 -1 1
- data.push_back(Vertex45(point_data<int>(60, 140), -1, 1));
- // result == 6 2 -1 1
- data.push_back(Vertex45(point_data<int>(60, 20), -1, 1));
- // result == 6 14 1 -1
- data.push_back(Vertex45(point_data<int>(60, 140), 1, -1));
- // result == 8 0 -1 -1
- data.push_back(Vertex45(point_data<int>(80, 0), -1, -1));
- // result == 8 0 2 -1
- data.push_back(Vertex45(point_data<int>(80, 0), 2, -1));
- // result == 8 4 2 1
- data.push_back(Vertex45(point_data<int>(80, 40), 2, 1));
- // result == 8 4 1 1
- data.push_back(Vertex45(point_data<int>(80, 40), 1, 1));
- // result == 8 12 -1 -1
- data.push_back(Vertex45(point_data<int>(80, 120), -1, -1));
- // result == 8 12 2 -1
- data.push_back(Vertex45(point_data<int>(80, 120), 2, -1));
- // result == 8 16 2 1
- data.push_back(Vertex45(point_data<int>(80, 160), 2, 1));
- // result == 8 16 1 1
- data.push_back(Vertex45(point_data<int>(80, 160), 1, 1));
- // result == 12 8 1 -1
- data.push_back(Vertex45(point_data<int>(120, 80), 1, -1));
- // result == 12 8 -1 1
- data.push_back(Vertex45(point_data<int>(120, 80), -1, 1));
-
- data.push_back(Vertex45(point_data<int>(60, 40), 1, -1));
- data.push_back(Vertex45(point_data<int>(60, 40), 2, -1));
- data.push_back(Vertex45(point_data<int>(60, 120), -1, 1));
- data.push_back(Vertex45(point_data<int>(60, 120), 2, 1));
- data.push_back(Vertex45(point_data<int>(100, 80), -1, -1));
- data.push_back(Vertex45(point_data<int>(100, 80), 1, 1));
-
- std::sort(data.begin(), data.end());
- std::vector<polygon_45_data<int> > polys;
- pf.scan(polys, data.begin(), data.end());
- polygon_45_set_data<int> ps;
- std::cout << "inserting1\n";
- //std::vector<point_data<int> > points;
- //points.push_back(point_data<int>(0,0));
- //points.push_back(point_data<int>(0,10));
- //points.push_back(point_data<int>(10,10));
- //points.push_back(point_data<int>(10,0));
- //Polygon45 poly;
- //poly.set(points.begin(), points.end());
- //ps.insert(poly);
- polygon_45_set_data<int> preps(polys[0]);
-
- ps.insert(polys[0]);
- convolve(polys[0], point_data<int>(0, 1) );
-
- polygon_45_set_data<int> ps2;
- std::cout << "inserting2\n";
- ps2.insert(polys[0]);
- std::cout << "applying boolean\n";
- ps |= ps2;
- std::vector<polygon_45_data<int> > polys2;
- std::cout << "getting result\n";
- ps.get_polygons(polys2);
- std::cout << preps << std::endl;
- std::cout << ps2 << std::endl;
- std::cout << ps << std::endl;
- std::cout << polys[0] << std::endl;
- std::cout << polys2[0] << std::endl;
- if(polys != polys2) std::cout << "test Polygon45Set failed\n";
- return polys == polys2;
- //return true;
- }
-
- inline int testPolygon45SetDORA() {
- std::cout << "testPolygon45SetDORA" << std::endl;
- std::vector<point_data<int> > pts;
- pts.push_back(point_data<int>(0, 0));
- pts.push_back(point_data<int>(10, 0));
- pts.push_back(point_data<int>(10, 10));
- pts.push_back(point_data<int>(0, 10));
- polygon_45_data<int> apoly;
- apoly.set(pts.begin(), pts.end());
- polygon_45_set_data<int> ps(apoly);
- polygon_45_set_data<int> ps2(ps);
- ps2 = apoly;
- std::vector<polygon_45_data<int> > apolys;
- apolys.push_back(apoly);
- ps2.insert(apolys.begin(), apolys.end());
- apolys.clear();
- ps2.get(apolys);
- std::cout << apolys.size() << std::endl;
- std::cout << (ps == ps2) << std::endl;
- std::cout << !(ps != ps2) << std::endl;
- ps2.clear();
- std::cout << (ps2.value().empty()) << std::endl;
- ps2.set(apolys.begin(), apolys.end());
- ps2.set(ps.value());
- ps.clean();
- ps2.set_clean(ps.value());
- ps2.insert(ps.value().begin(), ps.value().end());
- ps2.clear();
- for(polygon_45_set_data<int>::iterator_type itr = ps.begin();
- itr != ps.end(); ++itr) {
- ps2.insert(*itr);
- }
- std::vector<polygon_45_with_holes_data<int> > apolywhs;
- ps2.get_polygons_with_holes(apolywhs);
- std::cout << apolywhs.size() << std::endl;
- ps2 += 1;
- apolywhs.clear();
- ps2.get_polygons_with_holes(apolywhs);
- if(apolywhs.size()) std::cout << apolywhs[0] << std::endl;
- ps2 -= 1;
- apolywhs.clear();
- ps2.get_polygons_with_holes(apolywhs);
- if(apolywhs.size()) std::cout << apolywhs[0] << std::endl;
- else {
- std::cout << "test failed\n";
- return 1;
- }
- rectangle_data<int> rect;
- extents(rect, apolywhs[0]);
- ps2.clear();
- ps2.insert(rect);
- ps2.extents(rect);
- ps2.clear();
- ps2.insert(rect);
- ps2.clear();
- ps2.insert(apolywhs[0]);
- apolywhs.clear();
- ps2.get_trapezoids(apolywhs);
- if(apolywhs.size()) std::cout << apolywhs[0] << std::endl;
- else {
- std::cout << "test failed\n";
- return 1;
- }
- ps2 *= ps;
- std::cout << (ps2 == ps) << std::endl;
- ps2 ^= ps;
- std::cout << ps2.empty() << std::endl;
- axis_transformation atr(axis_transformation::WS);
- ps2 = ps;
- ps.transform(atr);
- transformation<int> tr(atr);
- tr.invert();
- ps.transform(tr);
- ps.scale_up(2);
- ps.scale_down(2);
- std::cout << (ps2 == ps) << std::endl;
- pts.clear();
- pts.push_back(point_data<int>(0,0));
- pts.push_back(point_data<int>(10,10));
- pts.push_back(point_data<int>(10,11));
- pts.push_back(point_data<int>(0,21));
- apoly.set(pts.begin(), pts.end());
- ps2.clear();
- ps2.insert(apoly);
- ps2 -= 1;
- apolywhs.clear();
- ps2.get_polygons_with_holes(apolywhs);
- if(apolywhs.size()) std::cout << apolywhs[0] << std::endl;
- else {
- std::cout << "test failed\n";
- return 1;
- }
- pts.clear();
- pts.push_back(point_data<int>(0, 0));
- pts.push_back(point_data<int>(10, 10));
- pts.push_back(point_data<int>(0, 20));
- apoly.set(pts.begin(), pts.end());
- ps2.clear();
- ps2.insert(apoly);
- pts.clear();
- pts.push_back(point_data<int>(0, 5));
- pts.push_back(point_data<int>(10, 15));
- pts.push_back(point_data<int>(0, 25));
- apoly.set(pts.begin(), pts.end());
- ps2.insert(apoly);
- apolywhs.clear();
- ps2.get_polygons_with_holes(apolywhs);
- if(apolywhs.size()) std::cout << apolywhs[0] << std::endl;
- else {
- std::cout << "test failed\n";
- return 1;
- }
- return 0;
-
- }
-}
-}
-using namespace gtl;
-
-bool testInterval() {
- interval_data<int> interval(0, 10), interval2(10, 20);
- if(!abuts(interval, interval2)) return false;
- if(!boundaries_intersect(interval, interval2)) return false;
- if(boundaries_intersect(interval, interval2, false)) return false;
- if(intersect(interval, interval2, false)) return false;
- if(!intersect(interval, interval2)) return false;
- if(euclidean_distance(interval, interval2) != 0) return false;
- encompass(interval, interval2);
- set(interval, LOW, 0);
- high(interval, 10);
- scale(interval, 2.0f);
- scale(interval, 0.5f);
- if(low(interval) != 0) return false;
- if(high(interval) != 10) return false;
- move(interval, 10);
- if(!equivalence(interval, interval2)) return false;
- flip(interval, 10);
- bloat(interval, -2);
- shrink(interval, -2);
- flip(interval, 10);
- if(!equivalence(interval, interval2)) return false;
- interval_data<int> half = get_half(interval, LOW);
- if(high(half) != 15) return false;
- convolve(interval, interval2);
- if(high(interval) != 40) return false;
- deconvolve(interval, interval2);
- if(!equivalence(interval, interval2)) return false;
- reflected_convolve(interval, interval2);
- if(low(interval) != -10) return false;
- reflected_deconvolve(interval, interval2);
- if(!equivalence(interval, interval2)) return false;
- euclidean_distance(interval, 0);
- move(interval, 20);
- if(euclidean_distance(interval, interval2) != 10) return false;
- interval = interval2;
- move(interval, -5);
- if(!intersects(interval, interval2)) return false;
- move(interval, 15);
- if(!abuts(interval, interval2)) return false;
- if(abuts(interval, interval2, HIGH)) return false;
- move(interval, 10);
- generalized_intersect(interval, interval2);
- move(interval, -10);
- if(!equivalence(interval, interval2)) return false;
- if(get(interval, LOW) != low(interval)) return false;
- if(get(interval, HIGH) != high(interval)) return false;
- if(center(interval2) != 15) return false;
- if(delta(interval2) != 10) return false;
- assign(interval, interval2);
- low(interval, 0);
- if(low(interval) != 0) return false;
- high(interval, 10);
- join_with(interval, interval2);
- if(high(interval) != high(interval2)) return false;
- return true;
-}
-
-bool testRectangle() {
- rectangle_data<int> rect, rect2;
-#ifdef BOOST_POLYGON_MSVC
- horizontal(rect, interval_data<int>(0, 10));
- vertical(rect, interval_data<int>(20, 30));
-#else
- horizontal(rect, interval_data<long long>(0, 10));
- vertical(rect, interval_data<long long>(20, 30));
-#endif
- xl(rect2, 0);
- xh(rect2, 10);
- yl(rect2, 20);
- yh(rect2, 30);
- if(euclidean_distance(rect, rect2) != 0) return false;
- if(euclidean_distance(rect2, rect) != 0) return false;
-#ifdef BOOST_POLYGON_MSVC
- set(rect, HORIZONTAL, interval_data<int>(0, 10));
- if(!equivalence(horizontal(rect), interval_data<int>(0, 10))) return false;
- if(!equivalence(vertical(rect2), interval_data<int>(20, 30))) return false;
-#else
- set(rect, HORIZONTAL, interval_data<long long>(0, 10));
- if(!equivalence(horizontal(rect), interval_data<long long>(0, 10))) return false;
- if(!equivalence(vertical(rect2), interval_data<long long>(20, 30))) return false;
-#endif
- if(xl(rect) != 0) return false;
- if(xh(rect) != 10) return false;
- if(yl(rect) != 20) return false;
- if(yh(rect) != 30) return false;
- move(rect, HORIZONTAL, 10);
- if(xl(rect) != 10) return false;
-#ifdef BOOST_POLYGON_MSVC
- set_points(rect, point_data<int>(0, 20), point_data<int>(10, 30));
-#else
- set_points(rect, point_data<int>(0, 20), point_data<long long>(10, 30));
-#endif
- if(xl(rect) != 0) return false;
- convolve(rect, rect2);
- if(xh(rect) != 20) return false;
- deconvolve(rect, rect2);
- if(xh(rect) != 10) return false;
- reflected_convolve(rect, rect2);
- reflected_deconvolve(rect, rect2);
- if(!equivalence(rect, rect2)) return false;
-#ifdef BOOST_POLYGON_MSVC
- convolve(rect, point_data<int>(100, 200));
-#else
- convolve(rect, point_data<long long>(100, 200));
-#endif
- if(xh(rect) != 110) return false;
- deconvolve(rect, point_data<int>(100, 200));
- if(!equivalence(rect, rect2)) return false;
- xh(rect, 100);
- if(delta(rect, HORIZONTAL) != 100) return false;
- if(area(rect) != 1000) return false;
- if(half_perimeter(rect) != 110) return false;
- if(perimeter(rect) != 220) return false;
- if(guess_orientation(rect) != HORIZONTAL) return false;
- return true;
-}
-
-
-bool testPolygon() {
- int rect[4] = {0, 10, 20, 30};
- iterator_compact_to_points<int*, point_data<int> > itr(rect, rect+4);
- iterator_compact_to_points<int*, point_data<int> > itr_end(rect, rect+4);
- std::vector<point_data<int> > points;
- points.insert(points.end(), itr, itr_end);
- polygon_90_data<int> p90;
- assign(p90, rectangle_data<int>(interval_data<int>(0, 10), interval_data<int>(20, 30)));
- if(winding(p90) != COUNTERCLOCKWISE) return false;
- polygon_45_data<int> p45;
- assign(p45, rectangle_data<int>(interval_data<int>(0, 10), interval_data<int>(20, 30)));
- if(winding(p45) != COUNTERCLOCKWISE) return false;
- polygon_data<int> p;
- assign(p, rectangle_data<int>(interval_data<int>(0, 10), interval_data<int>(20, 30)));
- if(winding(p) != COUNTERCLOCKWISE) return false;
- set_compact(p90, rect, rect+4);
- if(winding(p90) != COUNTERCLOCKWISE) return false;
- points.clear();
- points.push_back(point_data<int>(0, 0));
- points.push_back(point_data<int>(10, 10));
- points.push_back(point_data<int>(0, 20));
- points.push_back(point_data<int>(-10, 10));
- set_points(p45, points.begin(), points.end());
- if(winding(p45) != COUNTERCLOCKWISE) return false;
- std::swap(points[1], points[3]);
- set_points(p, points.begin(), points.end());
- if(winding(p) == COUNTERCLOCKWISE) return false;
- point_data<int> cp;
- center(cp, p);
- if(cp != point_data<int>(0, 10)) return false;
- move(p, HORIZONTAL, 3);
- rectangle_data<int> bounding_box;
- extents(bounding_box, p);
- if(bounding_box != rectangle_data<int>(interval_data<int>(-7, 13), interval_data<int>(0, 20))) return false;
- if(area(p90) != 400) return false;
- if(area(p45) != 200) return false;
- if(perimeter(p90) != 80) return false;
- return true;
-}
-
-bool testPolygonAssign() {
- polygon_data<int> p;
- polygon_data<int> p1;
- polygon_45_data<int> p_45;
- polygon_45_data<int> p_451;
- polygon_90_data<int> p_90;
- polygon_90_data<int> p_901;
- polygon_with_holes_data<int> p_wh;
- polygon_with_holes_data<int> p_wh1;
- polygon_45_with_holes_data<int> p_45_wh;
- polygon_45_with_holes_data<int> p_45_wh1;
- polygon_90_with_holes_data<int> p_90_wh;
- polygon_90_with_holes_data<int> p_90_wh1;
- assign(p, p1);
- assign(p, p_45);
- assign(p, p_90);
- //assign(p, p_wh);
- //assign(p, p_45_wh);
- //assign(p, p_90_wh);
- //assign(p_45, p);
- assign(p_451, p_45);
- assign(p_45, p_90);
- //assign(p_45, p_wh);
- //assign(p_45, p_45_wh);
- //assign(p_45, p_90_wh);
- //assign(p_90, p);
- //assign(p_90, p_45);
- assign(p_901, p_90);
- //assign(p_90, p_wh);
- //assign(p_90, p_45_wh);
- //assign(p_90, p_90_wh);
- assign(p_wh, p);
- assign(p_wh, p_45);
- assign(p_wh, p_90);
- assign(p_wh1, p_wh);
- assign(p_wh, p_45_wh);
- assign(p_wh, p_90_wh);
- //assign(p_45_wh, p);
- assign(p_45_wh, p_45);
- assign(p_45_wh, p_90);
- //assign(p_45_wh, p_wh);
- assign(p_45_wh1, p_45_wh);
- //assign(p_90_wh, p);
- //assign(p_90_wh, p_45);
- assign(p_90_wh, p_90);
- assign(p_90_wh1, p_90_wh);
- return true;
-}
-
-int testPropertyMerge() {
- rectangle_data<int> rect1 = construct<rectangle_data<int> >(0, 1, 10, 11);
- rectangle_data<int> rect2 = construct<rectangle_data<int> >(5, 6, 17, 18);
- property_merge_90<int, int> pm;
- pm.insert(rect1, 0);
- pm.insert(rect2, 1);
- std::map<std::set<int>, polygon_90_set_data<int> > result;
- pm.merge(result);
- std::vector<rectangle_data<int> > rects;
- std::set<int> key;
- key.insert(0);
- result[key].get(rects);
- std::cout << rects.size() << std::endl;
- std::vector<polygon_data<int> > polys;
- result[key].get(polys);
- std::cout << polys.size() << std::endl;
- std::vector<polygon_90_with_holes_data<int> > polywhs;
- result[key].get(polywhs);
- std::cout << polys.size() << std::endl;
- return result.size();
-}
-
-bool testPolygonWithHoles() {
- int rect[4] = {0, 10, 20, 30};
- iterator_compact_to_points<int*, point_data<int> > itr(rect, rect+4);
- iterator_compact_to_points<int*, point_data<int> > itr_end(rect, rect+4);
- std::vector<point_data<int> > points;
- points.insert(points.end(), itr, itr_end);
- polygon_45_with_holes_data<int> p45wh;
- assign(p45wh, rectangle_data<int>(interval_data<int>(0, 10), interval_data<int>(20, 30)));
- if(winding(p45wh) != COUNTERCLOCKWISE) return false;
- polygon_45_with_holes_data<int> p45;
- assign(p45, rectangle_data<int>(interval_data<int>(0, 10), interval_data<int>(20, 30)));
- if(winding(p45) != COUNTERCLOCKWISE) return false;
- polygon_45_with_holes_data<int> p;
- assign(p, rectangle_data<int>(interval_data<int>(0, 10), interval_data<int>(20, 30)));
- if(winding(p) != COUNTERCLOCKWISE) return false;
- set_compact(p45wh, rect, rect+4);
- if(winding(p45wh) != COUNTERCLOCKWISE) return false;
- points.clear();
- points.push_back(point_data<int>(0, 0));
- points.push_back(point_data<int>(10, 10));
- points.push_back(point_data<int>(0, 20));
- points.push_back(point_data<int>(-10, 10));
- set_points(p45, points.begin(), points.end());
- if(winding(p45) != COUNTERCLOCKWISE) return false;
- std::swap(points[1], points[3]);
- set_points(p, points.begin(), points.end());
- if(winding(p) == COUNTERCLOCKWISE) return false;
- point_data<int> cp;
- center(cp, p);
- if(cp != point_data<int>(0, 10)) return false;
- move(p, HORIZONTAL, 3);
- rectangle_data<int> bounding_box;
- extents(bounding_box, p);
- if(bounding_box != rectangle_data<int>(interval_data<int>(-7, 13), interval_data<int>(0, 20))) return false;
- if(area(p45wh) != 400) return false;
- if(area(p45) != 200) return false;
- if(perimeter(p45wh) != 80) return false;
- return true;
-}
-
-using namespace gtl;
-
-typedef int Unit;
-typedef point_data<int> Point;
-typedef interval_data<int> Interval;
-typedef rectangle_data<int> Rectangle;
-typedef polygon_90_data<int> Polygon;
-typedef polygon_90_with_holes_data<int> PolygonWithHoles;
-typedef polygon_45_data<int> Polygon45;
-typedef polygon_45_with_holes_data<int> Polygon45WithHoles;
-typedef polygon_90_set_data<int> PolygonSet;
-typedef polygon_45_set_data<int> Polygon45Set;
-typedef axis_transformation AxisTransform;
-typedef transformation<int> Transform;
-
-bool getRandomBool() {
- return rand()%2 != 0;
-}
-int getRandomInt() {
- return rand()%6-2;
-}
-Point getRandomPoint() {
- int x = rand()%8;
- int y = rand()%8;
- return Point(x, y);
-}
-Polygon45 getRandomTriangle() {
- Point pts[3];
- pts[0] = getRandomPoint();
- pts[1] = pts[2] = pts[0];
- int disp = getRandomInt();
- bool dir = getRandomBool();
- x(pts[2], x(pts[2]) + disp);
- x(pts[1], x(pts[1]) + disp);
- if(dir)
- y(pts[1], y(pts[1]) + disp);
- else
- y(pts[1], y(pts[1]) - disp);
- return Polygon45(pts, pts+3);
-}
-
-bool nonInteger45StessTest() {
- for(unsigned int tests = 0; tests < 10; ++tests) {
- Polygon45Set ps1, ps2;
- std::vector<Polygon45> p45s;
- for(unsigned int i = 0; i < 10; ++i) {
- Polygon45 p45 = getRandomTriangle();
- p45s.push_back(p45);
- ps1.insert(p45);
- scale_up(p45, 2);
- ps2.insert(p45);
- }
- std::vector<Polygon45> polys;
- ps1.get(polys);
- Polygon45Set ps3;
- for(unsigned int i = 0; i < polys.size(); ++i) {
- scale_up(polys[i], 2);
- ps3.insert(polys[i]);
- }
- Polygon45Set ps4 = ps3 ^ ps2;
- std::vector<Polygon45> polys_error;
- ps4.get(polys_error);
- for(unsigned int i = 0; i < polys_error.size(); ++i) {
- //if(polys_error[i].size() > 3) return false;
- if(area(polys_error[i]) != 1) {
- if(area(polys_error[i]) == 2) {
- //if two area 1 errors merge it will have area 2
- continue;
- }
- std::cout << "test failed\n";
- for(unsigned int j =0; j < p45s.size(); ++j) {
- std::cout << p45s[j] << std::endl;
- }
- return false;
- }
- }
- }
- return true;
-}
-
-bool validate_polygon_set_op(Polygon45Set& ps45_o,
- const Polygon45Set& ps45_1,
- const Polygon45Set& ps45_2,
- int op_type) {
- Polygon45Set s_ps_45_o(ps45_o);
- Polygon45Set s_ps_45_1(ps45_1);
- Polygon45Set s_ps_45_2(ps45_2);
- s_ps_45_o.scale_up(2);
- s_ps_45_1.scale_up(2);
- s_ps_45_2.scale_up(2);
- Polygon45Set s_ps_45_validate;
- if(op_type == 0) {
- s_ps_45_validate = s_ps_45_1 + s_ps_45_2;
- s_ps_45_validate += Rectangle(4, 4, 6, 6);
- } else if(op_type == 1) {
- s_ps_45_validate = s_ps_45_1 * s_ps_45_2;
- s_ps_45_validate -= Rectangle(4, 4, 6, 6);
- } else if(op_type == 2) {
- s_ps_45_validate = s_ps_45_1 ^ s_ps_45_2;
- s_ps_45_validate -= Rectangle(4, 4, 6, 6);
- } else {
- s_ps_45_validate = s_ps_45_1 - s_ps_45_2;
- s_ps_45_validate -= Rectangle(4, 4, 6, 6);
- }
- if(s_ps_45_validate != s_ps_45_o) {
- std::cout << "TEST FAILED\n";
- std::vector<Polygon45> polys;
- s_ps_45_o.get(polys);
- std::cout << "Result:\n";
- for(unsigned int i = 0; i < polys.size(); ++i) {
- std::cout << polys[i] << std::endl;
- }
- polys.clear();
- s_ps_45_validate.get(polys);
- std::cout << "Expected Result:\n";
- for(unsigned int i = 0; i < polys.size(); ++i) {
- std::cout << polys[i] << std::endl;
- }
- //redo the operation, set breakpoints here
- switch (op_type) {
- case 0:
- ps45_o = ps45_1 + ps45_2;
- ps45_o.get(polys);//needed to force clean
- break;
- case 1:
- ps45_o = ps45_1 * ps45_2;
- break;
- case 2:
- ps45_o = ps45_1 ^ ps45_2;
- break;
- default:
- ps45_o = ps45_1 - ps45_2;
- };
- //redo the check, set breakpoints here
- if(op_type == 0) {
- s_ps_45_validate = s_ps_45_1 + s_ps_45_2;
- s_ps_45_validate += Rectangle(4, 4, 6, 6);
- s_ps_45_validate.get(polys);
- } else if(op_type == 1) {
- s_ps_45_validate = s_ps_45_1 * s_ps_45_2;
- s_ps_45_validate -= Rectangle(4, 4, 6, 6);
- } else if(op_type == 2) {
- s_ps_45_validate = s_ps_45_1 ^ s_ps_45_2;
- s_ps_45_validate -= Rectangle(4, 4, 6, 6);
- } else {
- s_ps_45_validate = s_ps_45_1 - s_ps_45_2;
- s_ps_45_validate -= Rectangle(4, 4, 6, 6);
- }
- return false;
- }
- return true;
-}
-
-bool test_two_polygon_sets(const Polygon45Set& ps45_1,
- const Polygon45Set& ps45_2) {
- std::cout << "test two polygon sets \n";
- std::vector<Polygon45> polys;
- ps45_1.get(polys);
- std::cout << "LVALUE:\n";
- for(unsigned int i = 0; i < polys.size(); ++i) {
- std::cout << polys[i] << std::endl;
- }
- polys.clear();
- ps45_2.get(polys);
- std::cout << "RVALUE:\n";
- for(unsigned int i = 0; i < polys.size(); ++i) {
- std::cout << polys[i] << std::endl;
- }
- Polygon45Set ps45_o;
- std::cout << "OR\n";
- ps45_o = ps45_1 + ps45_2;
- polys.clear();
- ps45_o.get(polys);
- for(unsigned int i = 0; i < polys.size(); ++i) {
- std::cout << polys[i] << std::endl;
- }
- if(!validate_polygon_set_op(ps45_o, ps45_1, ps45_2, 0)) return false;
- std::cout << "AND\n";
- ps45_o = ps45_1 * ps45_2;
- polys.clear();
- ps45_o.get(polys);
- for(unsigned int i = 0; i < polys.size(); ++i) {
- std::cout << polys[i] << std::endl;
- }
- if(!validate_polygon_set_op(ps45_o, ps45_1, ps45_2, 1)) return false;
- std::cout << "XOR\n";
- ps45_o = ps45_1 ^ ps45_2;
- polys.clear();
- ps45_o.get(polys);
- for(unsigned int i = 0; i < polys.size(); ++i) {
- std::cout << polys[i] << std::endl;
- }
- if(!validate_polygon_set_op(ps45_o, ps45_1, ps45_2, 2)) return false;
- std::cout << "SUBTRACT\n";
- ps45_o = ps45_1 - ps45_2;
- polys.clear();
- ps45_o.get(polys);
- for(unsigned int i = 0; i < polys.size(); ++i) {
- std::cout << polys[i] << std::endl;
- }
- if(!validate_polygon_set_op(ps45_o, ps45_1, ps45_2, 3)) return false;
- return true;
-}
-
-bool test_two_polygons(const Polygon45& p45_1,
- const Polygon45& p45_2) {
- Polygon45Set ps45_1, ps45_2;
- ps45_1.insert(p45_1);
- ps45_2.insert(p45_2);
- ps45_1.insert(rectangle_data<int>(10, -100, 20, 100));
- ps45_2.insert(rectangle_data<int>(0, 10, 100, 20));
- if(!test_two_polygon_sets(ps45_1, ps45_2)) return false;
- Polygon45Set ps45_1_c = ps45_1 - Rectangle(0, 0, 2, 5);
- Polygon45Set ps45_2_c = ps45_2 - Rectangle(0, 0, 2, 5);
- if(!test_two_polygon_sets(ps45_1_c, ps45_2_c)) return false;
- if(!test_two_polygon_sets(ps45_1_c, ps45_2)) return false;
- if(!test_two_polygon_sets(ps45_1, ps45_2_c)) return false;
- return true;
-}
-
-bool test_45_touch() {
- using namespace gtl;
- connectivity_extraction_45<int> ce;
- rectangle_data<int> rect1(0, 0, 10, 10);
- rectangle_data<int> rect2(5, 5, 15, 15);
- rectangle_data<int> rect3(5, 20, 15, 25);
- ce.insert(rect1);
- ce.insert(rect2);
- ce.insert(rect3);
- std::vector<std::set<int> > graph(3);
- ce.extract(graph);
- if(graph[0].size() == 1 && graph[1].size() == 1 && graph[2].size() == 0) {
- std::set<int>::iterator itr = graph[0].begin();
- std::cout << *itr << std::endl;
- std::set<int>::iterator itr1 = graph[1].begin();
- std::cout << *itr1 << std::endl;
- return true;
- }
- std::cout << "test failed\n";
- return false;
-}
-
-bool test_45_touch_ur() {
- using namespace gtl;
- connectivity_extraction_45<int> ce;
- rectangle_data<int> rect1(0, 0, 5, 5);
- rectangle_data<int> rect2(5, 5, 10, 10);
- ce.insert(rect1);
- ce.insert(rect2);
- std::vector<std::set<int> > graph(2);
- ce.extract(graph);
- if(graph[0].size() == 1 && graph[1].size() == 1) {
- std::set<int>::iterator itr = graph[0].begin();
- std::cout << *itr << std::endl;
- std::set<int>::iterator itr1 = graph[1].begin();
- std::cout << *itr1 << std::endl;
- return true;
- }
- std::cout << "test failed\n";
- return false;
-}
-
-bool test_45_touch_r() {
- using namespace gtl;
- connectivity_extraction_45<int> ce;
- rectangle_data<int> rect1(0, 0, 5, 5);
- rectangle_data<int> rect2(5, 0, 10, 5);
- ce.insert(rect1);
- ce.insert(rect2);
- std::vector<std::set<int> > graph(2);
- ce.extract(graph);
- if(graph[0].size() == 1 && graph[1].size() == 1) {
- std::set<int>::iterator itr = graph[0].begin();
- std::cout << *itr << std::endl;
- std::set<int>::iterator itr1 = graph[1].begin();
- std::cout << *itr1 << std::endl;
- return true;
- }
- std::cout << "test failed\n";
- return false;
-}
-
-bool test_45_touch_boundaries() {
- using namespace gtl;
- connectivity_extraction_45<int> ce;
- rectangle_data<int> rect1(0, 0, 10, 10);
- rectangle_data<int> rect2(10, 0, 20, 10);
- rectangle_data<int> rect3(20, 0, 30, 10);
- rectangle_data<int> rect4(0, 10, 10, 20);
- rectangle_data<int> rect5(10, 10, 20, 20);
- rectangle_data<int> rect6(20, 10, 30, 20);
- rectangle_data<int> rect7(0, 20, 10, 30);
- rectangle_data<int> rect8(10, 20, 20, 30);
- rectangle_data<int> rect9(20, 20, 30, 30);
- ce.insert(rect1);
- ce.insert(rect2);
- ce.insert(rect3);
- ce.insert(rect4);
- ce.insert(rect5);
- ce.insert(rect6);
- ce.insert(rect7);
- ce.insert(rect8);
- ce.insert(rect9);
- std::vector<std::set<int> > graph(9);
- ce.extract(graph);
- for(unsigned int i = 0; i < 9; ++i) {
- std::cout << i << ": ";
- for(std::set<int>::iterator itr = graph[i].begin(); itr != graph[i].end(); ++itr) {
- std::cout << *itr << " ";
- } std::cout << std::endl;
- }
- if(graph[0].size() == 3 && graph[1].size() == 5 && graph[2].size() == 3 &&
- graph[3].size() == 5 && graph[4].size() == 8 && graph[5].size() == 5 &&
- graph[6].size() == 3 && graph[7].size() == 5 && graph[8].size() == 3) {
- return true;
- }
- std::cout << "test failed\n";
- return false;
-}
-
-bool test_45_concept_interact() {
- using namespace gtl;
- std::vector<polygon_45_data<int> > polys;
- polys += rectangle_data<int>(10, 10, 20, 20);
- polys += rectangle_data<int>(15, 15, 25, 25);
- polys += rectangle_data<int>(5, 25, 10, 35);
- interact(polys, rectangle_data<int>(0, 0, 13, 13));
- if(polys.size() != 1) return false;
- return true;
-}
-
-bool test_aa_touch() {
- using namespace gtl;
- connectivity_extraction<int> ce;
- rectangle_data<int> rect1(0, 0, 10, 10);
- rectangle_data<int> rect2(5, 5, 15, 15);
- rectangle_data<int> rect3(5, 20, 15, 25);
- ce.insert(rect1);
- ce.insert(rect2);
- ce.insert(rect3);
- std::vector<std::set<int> > graph(3);
- ce.extract(graph);
- if(graph[0].size() == 1 && graph[1].size() == 1 && graph[2].size() == 0) {
- std::set<int>::iterator itr = graph[0].begin();
- std::cout << *itr << std::endl;
- std::set<int>::iterator itr1 = graph[1].begin();
- std::cout << *itr1 << std::endl;
- return true;
- }
- std::cout << "test failed\n";
- return false;
-}
-
-bool test_aa_touch_ur() {
- using namespace gtl;
- connectivity_extraction<int> ce;
- rectangle_data<int> rect1(0, 0, 5, 5);
- rectangle_data<int> rect2(5, 5, 10, 10);
- ce.insert(rect1);
- ce.insert(rect2);
- std::vector<std::set<int> > graph(2);
- ce.extract(graph);
- if(graph[0].size() == 1 && graph[1].size() == 1) {
- std::set<int>::iterator itr = graph[0].begin();
- std::cout << *itr << std::endl;
- std::set<int>::iterator itr1 = graph[1].begin();
- std::cout << *itr1 << std::endl;
- return true;
- }
- std::cout << "test failed\n";
- return false;
-}
-
-bool test_aa_touch_ur2() {
- using namespace gtl;
- connectivity_extraction<int> ce;
- rectangle_data<int> rect2(5, 5, 10, 10);
- point_data<int> pts[3] = {
- point_data<int>(0, 0),
- point_data<int>(5, 5),
- point_data<int>(0, 5)
- };
- polygon_data<int> poly;
- poly.set(pts, pts+3);
- ce.insert(poly);
- ce.insert(rect2);
- std::vector<std::set<int> > graph(2);
- ce.extract(graph);
- if(graph[0].size() == 1 && graph[1].size() == 1) {
- std::set<int>::iterator itr = graph[0].begin();
- std::cout << *itr << std::endl;
- std::set<int>::iterator itr1 = graph[1].begin();
- std::cout << *itr1 << std::endl;
- return true;
- }
- std::cout << "test failed\n";
- return false;
-}
-
-bool test_aa_touch_r() {
- using namespace gtl;
- connectivity_extraction<int> ce;
- rectangle_data<int> rect1(0, 0, 5, 5);
- rectangle_data<int> rect2(5, 0, 10, 5);
- ce.insert(rect1);
- ce.insert(rect2);
- std::vector<std::set<int> > graph(2);
- ce.extract(graph);
- if(graph[0].size() == 1 && graph[1].size() == 1) {
- std::set<int>::iterator itr = graph[0].begin();
- std::cout << *itr << std::endl;
- std::set<int>::iterator itr1 = graph[1].begin();
- std::cout << *itr1 << std::endl;
- return true;
- }
- std::cout << "test failed\n";
- return false;
-}
-
-bool test_aa_touch_boundaries() {
- using namespace gtl;
- connectivity_extraction<int> ce;
- rectangle_data<int> rect1(0, 0, 10, 10);
- rectangle_data<int> rect2(10, 0, 20, 10);
- rectangle_data<int> rect3(20, 0, 30, 10);
- rectangle_data<int> rect4(0, 10, 10, 20);
- rectangle_data<int> rect5(10, 10, 20, 20);
- rectangle_data<int> rect6(20, 10, 30, 20);
- rectangle_data<int> rect7(0, 20, 10, 30);
- rectangle_data<int> rect8(10, 20, 20, 30);
- rectangle_data<int> rect9(20, 20, 30, 30);
- ce.insert(rect1);
- ce.insert(rect2);
- ce.insert(rect3);
- ce.insert(rect4);
- ce.insert(rect5);
- ce.insert(rect6);
- ce.insert(rect7);
- ce.insert(rect8);
- ce.insert(rect9);
- std::vector<std::set<int> > graph(9);
- ce.extract(graph);
- for(unsigned int i = 0; i < 9; ++i) {
- std::cout << i << ": ";
- for(std::set<int>::iterator itr = graph[i].begin(); itr != graph[i].end(); ++itr) {
- std::cout << *itr << " ";
- } std::cout << std::endl;
- }
- if(graph[0].size() == 3 && graph[1].size() == 5 && graph[2].size() == 3 &&
- graph[3].size() == 5 && graph[4].size() == 8 && graph[5].size() == 5 &&
- graph[6].size() == 3 && graph[7].size() == 5 && graph[8].size() == 3) {
- return true;
- }
- std::cout << "test failed\n";
- return false;
-}
-
-bool test_aa_concept_interact() {
- using namespace gtl;
- std::vector<polygon_data<int> > polys;
- polys += rectangle_data<int>(10, 10, 20, 20);
- polys += rectangle_data<int>(15, 15, 25, 25);
- polys += rectangle_data<int>(5, 25, 10, 35);
- interact(polys, rectangle_data<int>(0, 0, 13, 13));
- if(polys.size() != 1) return false;
- return true;
-}
-
-bool test_get_rectangles() {
- using namespace gtl;
- polygon_90_set_data<int> ps(VERTICAL);
- ps += rectangle_data<int>(0, 0, 10, 10);
- ps += rectangle_data<int>(5, 5, 15, 15);
- std::vector<polygon_90_data<int> > polys;
- ps.get_rectangles(polys, HORIZONTAL);
- for(unsigned int i = 0; i < polys.size(); ++i) {
- std::cout << polys[i] << std::endl;
- }
- if(polys.size() != 3) return false;
- std::vector<rectangle_data<int> > rects;
- ps.get_rectangles(rects, HORIZONTAL);
- for(unsigned int i = 0; i < rects.size(); ++i) {
- std::cout << rects[i] << std::endl;
- }
- if(rects.size() != 3) return false;
- if(!equivalence(rects[2], rectangle_data<int>(5,10,15,15))) return false;
-
- get_rectangles(polys, rects, VERTICAL);
- get_rectangles(rects, polys, HORIZONTAL);
- return equivalence(rects, polys);
-}
-
-bool test_get_trapezoids() {
- using namespace gtl;
- polygon_45_set_data<int> ps;
- ps += rectangle_data<int>(0, 0, 10, 10);
- ps += rectangle_data<int>(5, 5, 15, 15);
- std::vector<polygon_45_data<int> > polys;
- ps.get_trapezoids(polys, HORIZONTAL);
- for(unsigned int i = 0; i < polys.size(); ++i) {
- std::cout << polys[i] << std::endl;
- }
- if(polys.size() != 3) return false;
- std::vector<polygon_45_data<int> > rects;
- ps.get_trapezoids(rects, HORIZONTAL);
- for(unsigned int i = 0; i < rects.size(); ++i) {
- std::cout << rects[i] << std::endl;
- }
- if(rects.size() != 3) return false;
- if(!equivalence(rects[2], rectangle_data<int>(5,10,15,15))) return false;
- get_trapezoids(polys, rects, VERTICAL);
- get_trapezoids(rects, polys, HORIZONTAL);
- return equivalence(rects, polys);
-}
-
-bool test_SQRT1OVER2() {
- Point pts[] = {
- Point(100, 100),
- Point(0, 100),
- Point(100, 200),
- Point(0, 300),
- Point(100, 400),
- Point(0, 500),
- Point(100, 500),
- Point(100, 600),
- Point(200, 500),
- Point(300, 600),
- Point(400, 500),
- Point(500, 600),
- Point(500, 500),
- Point(600, 500),
- Point(500, 400),
- Point(600, 300),
- Point(500, 200),
- Point(600, 100),
- Point(500, 100),
- Point(500, 0),
- Point(400, 100),
- Point(300, 0),
- Point(200, 100),
- Point(100, 0),
- Point(100, 100)
- };
- Polygon45 p45(pts, pts+25);
- std::cout << is_45(p45) << std::endl;
- std::cout << p45 << std::endl;
- Polygon45Set ps45;
- ps45 += p45;
- ps45.resize(10, SQRT1OVER2, ORTHOGONAL);
- std::vector<Polygon45> polys;
- ps45.get(polys);
- if(polys.size() != 1) return false;
- Point pts2[] = {
- Point(90, 90),
- Point(-10, 90),
- Point(-10, 100),
- Point(90, 200),
- Point(-10, 300),
- Point(90, 400),
- Point(-10, 500),
- Point(-10, 510),
- Point(90, 510),
- Point(90, 610),
- Point(100, 610),
- Point(200, 510),
- Point(300, 610),
- Point(400, 510),
- Point(500, 610),
- Point(510, 610),
- Point(510, 510),
- Point(610, 510),
- Point(610, 500),
- Point(510, 400),
- Point(610, 300),
- Point(510, 200),
- Point(610, 100),
- Point(610, 90),
- Point(510, 90),
- Point(510, -10),
- Point(500, -10),
- Point(400, 90),
- Point(300, -10),
- Point(200, 90),
- Point(100, -10),
- Point(90, -10),
- Point(90, 90)
- };
- Polygon45 p45reference(pts2, pts2+33);
- std::cout << is_45(polys[0]) << std::endl;
- std::cout << polys[0] << std::endl;
- std::cout << p45reference << std::endl;
- std::cout << is_45(p45reference) << std::endl;
- if(!equivalence(polys[0], p45reference)) {
- std::cout << "polys don't match\n";
- return false;
- }
- ps45.resize(-10, SQRT1OVER2, ORTHOGONAL);
- polys.clear();
- ps45.get(polys);
- if(polys.size() != 1) return false;
- std::cout << is_45(polys[0]) << std::endl;
- std::cout << polys[0] << std::endl;
- if(!equivalence(polys[0], p45)) {
- std::cout << "polys don't match\n";
- return false;
- }
- ps45.resize(11, SQRT1OVER2, UNFILLED);
- polys.clear();
- ps45.get(polys);
- if(polys.size() != 1) return false;
- std::cout << is_45(polys[0]) << std::endl;
- std::cout << polys[0] << std::endl;
- return true;
-}
-
-bool test_scaling_by_floating(){
- Point pts[] = {
- Point(1, 1),
- Point(10, 1),
- Point(1, 10)
- };
- Polygon45 poly(pts, pts+3);
- Polygon45Set ps45;
- ps45 += poly;
- ps45.scale(double(2.5));
- std::vector<Polygon45> polys;
- ps45.get(polys);
- for(unsigned int i = 0; i < polys.size(); ++i) {
- std::cout << polys[i] << std::endl;
- std::cout << area(polys[i]) << std::endl;
- }
- if(polys.size() != 1) return false;
- if(area(polys[0]) != 242) return false;
- scale(ps45, double(1)/double(2.5));
- polys.clear();
- ps45.get(polys);
- for(unsigned int i = 0; i < polys.size(); ++i) {
- std::cout << polys[i] << std::endl;
- }
- return equivalence(polys, poly);
-}
-
-bool test_directional_resize() {
- std::vector<Rectangle> rects;
- rects.push_back(Rectangle(0, 0, 100, 100));
- resize(rects, -10, 10, -10, 10);
- for(unsigned int i = 0; i < rects.size(); ++i) {
- std::cout << rects[i] << std::endl;
- }
- if(rects.size() != 1) return false;
- if(rects[0] != Rectangle(10, 10, 110, 110)) return false;
-
- return true;
-}
-
-bool test_self_xor() {
- std::vector<Rectangle> rects;
- rects.push_back(Rectangle(0, 0, 10, 10));
- rects.push_back(Rectangle(5, 5, 15, 15));
- self_xor(rects);
- for(unsigned int i = 0; i < rects.size(); ++i) {
- std::cout << rects[i] << std::endl;
- }
- if(rects.size() == 4) return true;
- else return false;
-}
-
-bool test_grow_and_45() {
- polygon_45_set_data<int> ps;
- ps.insert(Rectangle(0, 0, 5, 5));
- ps.insert(Rectangle(5, 5, 15, 15));
- grow_and(ps, 2);
- std::vector<polygon_45_data<int> > rects;
- ps.get_trapezoids(rects);
- for(unsigned int i = 0; i < rects.size(); ++i) {
- std::cout << rects[i] << std::endl;
- }
- if(rects.size() != 1) return false;
- return equivalence(rects, Rectangle(3, 3, 7, 7));
-}
-
-bool test_self_xor_45() {
- polygon_45_set_data<int> ps;
- ps.insert(Rectangle(0, 0, 10, 10));
- ps.insert(Rectangle(5, 5, 15, 15));
- self_xor(ps);
- std::vector<polygon_45_data<int> > rects;
- ps.get_trapezoids(rects);
- for(unsigned int i = 0; i < rects.size(); ++i) {
- std::cout << rects[i] << std::endl;
- }
- if(rects.size() == 4) return true;
- else return false;
-}
-
-bool testViewCopyConstruct() {
- PolygonSet ps1, ps2;
- ps1.insert(Rectangle(0, 0, 10, 10));
- ps2.insert(Rectangle(5, 5, 15, 15));
- PolygonSet psr = ps1 - ps2;
- std::vector<Rectangle> rects;
- rects += psr;
- for(unsigned int i = 0; i < rects.size(); ++i)
- std::cout << rects[i] << std::endl;
- if( rects.size() != 2) return false;
- Polygon45Set ps45_1, ps45_2;
- ps45_1.insert(Rectangle(0, 0, 10, 10));
- ps45_2.insert(Rectangle(5, 5, 15, 15));
- Polygon45Set ps45_r = ps45_1 - ps45_2;
- std::vector<Polygon45> polys;
- ps45_r.get_trapezoids(polys);
- for(unsigned int i = 0; i < polys.size(); ++i)
- std::cout << polys[i] << std::endl;
- if( polys.size() != 2) return false;
- return true;
-}
-
-bool testpip() {
- std::vector<Point> pts;
- pts.push_back(Point(0, 0));
- pts.push_back(Point(10, 0));
- pts.push_back(Point(20, 10));
- pts.push_back(Point(0, 20));
- pts.push_back(Point(30, 40));
- pts.push_back(Point(-10, 50));
- pts.push_back(Point(-20, -20));
- pts.push_back(Point(0, 0));
- polygon_data<int> poly;
- polygon_with_holes_data<int> poly2;
- polygon_45_data<int> poly45;
- polygon_45_with_holes_data<int> poly245;
- polygon_90_data<int> poly90;
- polygon_90_with_holes_data<int> poly290;
- poly.set(pts.begin(), pts.end());
- poly2.set(pts.begin(), pts.end());
- assign(poly45, Rectangle(0, 0, 100, 100));
- assign(poly245, Rectangle(0, 0, 100, 100));
- assign(poly90, Rectangle(0, 0, 100, 100));
- assign(poly290, Rectangle(0, 0, 100, 100));
- for(unsigned int i = 0; i < pts.size(); ++i) {
- if(!contains(poly, pts[i], true)) return false;
- if(contains(poly, pts[i], false)) return false;
- if(!contains(poly2, pts[i], true)) return false;
- if(contains(poly2, pts[i], false)) return false;
- }
- if(!contains(poly45, pts[0], true)) return false;
- if(contains(poly245, pts[0], false)) return false;
- if(!contains(poly90, pts[0], true)) return false;
- if(contains(poly290, pts[0], false)) return false;
- Point pt(0, -10);
- if(contains(poly, pt)) return false;
- Point p2(0, 1);
- if(!contains(poly, p2)) return false;
- return true;
-}
-
-void testHand() {
- using namespace gtl;
- int handcoords[] = {
-12375, 11050, 13175, 10200, 15825, 9275, 18750, 8525, 24150, 8300, 27575, 8400, 31775, 7800,
-35975, 7200, 41375, 4800, 42575, 4200, 43175, 4200, 47375, 2400, 49175, 1800, 51150, 2200,
-52275, 2825, 52625, 4150, 52375, 4975, 51575, 6000, 49275, 6850, 45700, 7950, 43175, 9600,
-39575, 10800, 37775, 12000, 37775, 12600, 37775, 13800, 38975, 14400, 41375, 14400, 45575, 13200,
-48600, 13000, 51575, 13200, 55175, 12600, 58775, 12600, 61175, 13200, 62375, 14400, 62550, 15700,
-61975, 16875, 60775, 17600, 60100, 17675, 58525, 17675, 56150, 17575, 52175, 18000, 47975, 18600,
-45575, 19200, 44375, 19200, 42675, 19325, 41600, 19775, 41600, 20500, 42100, 20825, 44975, 20400,
-48575, 20400, 52775, 21000, 53975, 21000, 57575, 21000, 62375, 21000, 65450, 22000, 66300, 23100,
-66100, 24550, 64750, 25925, 62975, 26400, 61175, 26400, 58775, 26400, 56025, 26050, 53450, 26025,
-50975, 26400, 48575, 26400, 46775, 26400, 43650, 26075, 41375, 26400, 40775, 27000, 40775, 27600,
-42225, 28650, 44375, 29400, 48575, 30000, 50975, 31200, 53975, 31800, 58775, 33000, 61200, 34300,
-62375, 35400, 62375, 37200, 61175, 38400, 60000, 38700, 57575, 38400, 54550, 37575, 50975, 36600,
-49075, 36125, 47750, 36125, 45700, 35425, 42350, 34350, 38900, 33775, 30575, 33000, 26975, 33600,
-25975, 34900, 26375, 36600, 28175, 38400, 30575, 40800, 32375, 43800, 33200, 46200, 33200, 48000,
-32650, 49300, 31425, 50000, 29950, 50125, 28825, 49375, 27575, 48000, 25825, 46000, 23975, 44100,
-22175, 42600, 19775, 39600, 17325, 37300, 14975, 34800, 13175, 31800, 10775, 29400, 9600, 27400,
-10175, 27000, 11375, 27600, 12575, 28800, 14375, 31800, 16175, 34800, 18575, 37200, 21575, 39000,
-22775, 40200, 23975, 41400, 24575, 42600, 26375, 44400, 28325, 46000, 29850, 46775, 31175, 46200,
-31550, 44575, 30575, 43200, 28775, 40800, 25775, 38400, 24575, 34800, 24750, 33175, 26975, 31800,
-29975, 31800, 33575, 31800, 37775, 32400, 39575, 33000, 41975, 33600, 45150, 34175, 46975, 34750,
-48575, 35400, 50975, 35400, 51575, 34800, 51875, 33725, 50775, 32575, 48575, 31800, 45750, 30875,
-43775, 30600, 41375, 29400, 38975, 28800, 35975, 28200, 34775, 27600, 34175, 27000, 34775, 25800,
-37175, 25200, 40175, 25200, 43175, 25200, 46775, 25200, 50975, 25425, 53375, 25200, 55175, 24600,
-55525, 23450, 53975, 22200, 52775, 22200, 49075, 21850, 45950, 21925, 40775, 21600, 37775, 21600,
-35150, 21350, 34325, 20950, 34175, 19800, 35975, 19200, 38375, 19200, 40750, 18900, 42575, 18600,
-44375, 18000, 47975, 17400, 50375, 17125, 52025, 16625, 52775, 15600, 52100, 14625, 49675, 14125,
-48625, 14125, 46775, 14400, 44375, 15000, 41375, 15150, 37700, 15275, 34775, 15600, 32850, 15925,
-31775, 15600, 31425, 14875, 32375, 13800, 36575, 11400, 38975, 10200, 41375, 9000, 43075, 8150,
-43650, 7200, 43325, 6250, 42225, 5825, 40800, 6275, 38900, 6925, 35375, 8400, 32375, 10200,
-27575, 11400, 22775, 12600, 19775, 13225, 16775, 13800, 14975, 14400, 13050, 14000, 11975, 12600,
- 0, 0 };
- std::vector<Point> handpoints;
- for(unsigned int i = 0; i < 100000; i += 2) {
- Point pt(handcoords[i], handcoords[i+1]);
- if(pt == Point(0, 0)) break;
- handpoints.push_back(pt);
- }
- polygon_data<int> handpoly;
- handpoly.set(handpoints.begin(), handpoints.end());
- int spiralcoords [] = {
-37200, 3600, 42075, 4025, 47475, 5875, 51000, 7800, 55800, 12300, 59000, 17075, 60000, 20400,
-61200, 25800, 61200, 29400, 60600, 33600, 58800, 38400, 55800, 42600, 53200, 45625,
-49200, 48600, 43200, 51000, 35400, 51600, 29400, 50400, 23400, 47400, 19200, 43800,
-16200, 39600, 14400, 35400, 13200, 29400, 13200, 24000, 15000, 18600, 17400, 13800,
-20525, 10300, 24600, 7200, 29400, 4800, 32450, 4000, 34825, 3675, 35625, 3625,
-35825, 7275, 39600, 7200, 43800, 8400, 46800, 9600, 50400, 12000, 53400, 15000,
-55800, 18600, 57000, 23400, 57600, 27000, 57000, 32400, 55200, 37200, 52200, 41400,
-48000, 45000, 42000, 47400, 35400, 48000, 30000, 46800, 24600, 43800, 20325, 39100,
-17850, 34275, 16800, 27600, 17400, 22200, 20400, 16200, 24600, 11400, 28800, 9000,
-32400, 7800, 33200, 7575, 33925, 11050, 35400, 10800, 37200, 10800, 41400, 11400,
-46200, 13200, 49800, 16200, 51600, 19200, 53400, 23400, 54000, 29400, 52800, 33600,
-49800, 39000, 45000, 42600, 39000, 44400, 33600, 43800, 28200, 42000, 24000, 37800,
-21000, 33000, 20400, 26400, 21600, 21000, 24600, 16200, 28200, 13200, 31875, 11625,
-33200, 15625, 36000, 15000, 39000, 15000, 43800, 16800, 46800, 19200, 49200, 23400,
-49800, 27600, 48750, 32700, 46350, 36275, 42600, 39000, 38400, 40200, 31800, 39000,
-28200, 36600, 25200, 31200, 24600, 26400, 26025, 21800, 28200, 18600, 30600, 16800,
-32575, 19875, 34200, 19200, 36000, 18600, 37200, 18600, 40375, 19125, 43200, 21000,
-45600, 24000, 46200, 27600, 45600, 30600, 43800, 33600, 41475, 35625, 37800, 36600,
-33600, 36000, 30000, 33600, 28200, 28800, 28800, 24600, 30000, 22200, 31200, 23400,
-30600, 25200, 30000, 27000, 30600, 30000, 31800, 32400, 34200, 34200, 38400, 34800,
-41400, 33000, 44025, 30225, 44400, 26400, 43200, 23400, 40900, 21200, 37800, 20400,
-34950, 20675, 32400, 22200, 30175, 19475, 28425, 21300, 27000, 24000, 26400, 27600,
-27000, 31800, 31200, 36600, 36600, 38400, 42600, 37200, 46200, 33600, 48000, 30000,
-47650, 24425, 45600, 20400, 42650, 18200, 39000, 16800, 35400, 16800, 33600, 17400,
-32875, 17675, 31100, 13850, 28200, 15600, 25200, 18600, 22800, 22800, 22200, 27000,
-23400, 33600, 26400, 38400, 31675, 41575, 37800, 42600, 40850, 42150, 42800, 41550,
-47050, 39025, 50100, 35375, 52200, 29400, 51675, 23950, 49800, 19200, 46200, 15600,
-41400, 13200, 37800, 12600, 35025, 12750, 33350, 13050, 32400, 9600, 30025, 10325,
-25925, 12725, 22200, 16800, 19800, 21000, 18600, 25800, 18600, 30000, 20400, 35400,
-22575, 39250, 25225, 41825, 28200, 43800, 33600, 46200, 39000, 46200, 44400, 45000,
-48650, 42350, 52800, 37800, 55200, 32400, 55800, 26400, 54600, 21000, 53400, 18000,
-50400, 14400, 47400, 12000, 42600, 9600, 39000, 9000, 36000, 9000, 34775, 9125,
-34300, 5600, 30000, 6600, 25800, 8400, 22025, 11350, 18725, 15125, 16200, 20400,
-15000, 24600, 15000, 30600, 16800, 36600, 20400, 42600, 25800, 46800, 31200, 49200,
-38400, 49800, 45000, 48600, 51000, 45000, 55475, 40225, 58200, 34800, 59400, 30000,
-59400, 25200, 58200, 19800, 55200, 14400, 52225, 11150, 47400, 7800, 44175, 6500,
-40200, 5400, 38400, 5400, 37200, 5400, 0, 0 };
- std::vector<Point> spiralpoints;
- for(unsigned int i = 0; i < 100000; i += 2) {
- Point pt(spiralcoords[i], spiralcoords[i+1]);
- if(pt == Point(0, 0)) break;
- spiralpoints.push_back(pt);
- }
- polygon_data<int> spiralpoly;
- spiralpoly.set(spiralpoints.begin(), spiralpoints.end());
- polygon_set_data<int> handset;
- handset += handpoly;
- polygon_set_data<int> spiralset;
- spiralset += spiralpoly;
- polygon_set_data<int> xorset = handset ^ spiralset;
- std::vector<polygon_data<int> > polys;
- polys += xorset;
- std::cout << polys.size() << std::endl;
- for(unsigned int i = 0; i < polys.size(); ++i)
- std::cout << polys[i] << std::endl;
-}
-
-//void testHandFloat() {
-// using namespace gtl;
-// double handcoords[] = {
-//12375, 11050, 13175, 10200, 15825, 9275, 18750, 8525, 24150, 8300, 27575, 8400, 31775, 7800,
-//35975, 7200, 41375, 4800, 42575, 4200, 43175, 4200, 47375, 2400, 49175, 1800, 51150, 2200,
-//52275, 2825, 52625, 4150, 52375, 4975, 51575, 6000, 49275, 6850, 45700, 7950, 43175, 9600,
-//39575, 10800, 37775, 12000, 37775, 12600, 37775, 13800, 38975, 14400, 41375, 14400, 45575, 13200,
-//48600, 13000, 51575, 13200, 55175, 12600, 58775, 12600, 61175, 13200, 62375, 14400, 62550, 15700,
-//61975, 16875, 60775, 17600, 60100, 17675, 58525, 17675, 56150, 17575, 52175, 18000, 47975, 18600,
-//45575, 19200, 44375, 19200, 42675, 19325, 41600, 19775, 41600, 20500, 42100, 20825, 44975, 20400,
-//48575, 20400, 52775, 21000, 53975, 21000, 57575, 21000, 62375, 21000, 65450, 22000, 66300, 23100,
-//66100, 24550, 64750, 25925, 62975, 26400, 61175, 26400, 58775, 26400, 56025, 26050, 53450, 26025,
-//50975, 26400, 48575, 26400, 46775, 26400, 43650, 26075, 41375, 26400, 40775, 27000, 40775, 27600,
-//42225, 28650, 44375, 29400, 48575, 30000, 50975, 31200, 53975, 31800, 58775, 33000, 61200, 34300,
-//62375, 35400, 62375, 37200, 61175, 38400, 60000, 38700, 57575, 38400, 54550, 37575, 50975, 36600,
-//49075, 36125, 47750, 36125, 45700, 35425, 42350, 34350, 38900, 33775, 30575, 33000, 26975, 33600,
-//25975, 34900, 26375, 36600, 28175, 38400, 30575, 40800, 32375, 43800, 33200, 46200, 33200, 48000,
-//32650, 49300, 31425, 50000, 29950, 50125, 28825, 49375, 27575, 48000, 25825, 46000, 23975, 44100,
-//22175, 42600, 19775, 39600, 17325, 37300, 14975, 34800, 13175, 31800, 10775, 29400, 9600, 27400,
-//10175, 27000, 11375, 27600, 12575, 28800, 14375, 31800, 16175, 34800, 18575, 37200, 21575, 39000,
-//22775, 40200, 23975, 41400, 24575, 42600, 26375, 44400, 28325, 46000, 29850, 46775, 31175, 46200,
-//31550, 44575, 30575, 43200, 28775, 40800, 25775, 38400, 24575, 34800, 24750, 33175, 26975, 31800,
-//29975, 31800, 33575, 31800, 37775, 32400, 39575, 33000, 41975, 33600, 45150, 34175, 46975, 34750,
-//48575, 35400, 50975, 35400, 51575, 34800, 51875, 33725, 50775, 32575, 48575, 31800, 45750, 30875,
-//43775, 30600, 41375, 29400, 38975, 28800, 35975, 28200, 34775, 27600, 34175, 27000, 34775, 25800,
-//37175, 25200, 40175, 25200, 43175, 25200, 46775, 25200, 50975, 25425, 53375, 25200, 55175, 24600,
-//55525, 23450, 53975, 22200, 52775, 22200, 49075, 21850, 45950, 21925, 40775, 21600, 37775, 21600,
-//35150, 21350, 34325, 20950, 34175, 19800, 35975, 19200, 38375, 19200, 40750, 18900, 42575, 18600,
-//44375, 18000, 47975, 17400, 50375, 17125, 52025, 16625, 52775, 15600, 52100, 14625, 49675, 14125,
-//48625, 14125, 46775, 14400, 44375, 15000, 41375, 15150, 37700, 15275, 34775, 15600, 32850, 15925,
-//31775, 15600, 31425, 14875, 32375, 13800, 36575, 11400, 38975, 10200, 41375, 9000, 43075, 8150,
-//43650, 7200, 43325, 6250, 42225, 5825, 40800, 6275, 38900, 6925, 35375, 8400, 32375, 10200,
-//27575, 11400, 22775, 12600, 19775, 13225, 16775, 13800, 14975, 14400, 13050, 14000, 11975, 12600,
-// 0, 0 };
-// std::vector<point_data<double> > handpoints;
-// for(unsigned int i = 0; i < 100000; i += 2) {
-// point_data<double> pt(handcoords[i], handcoords[i+1]);
-// if(pt == point_data<double> (0, 0)) break;
-// handpoints.push_back(pt);
-// }
-// polygon_data<double> handpoly;
-// handpoly.set(handpoints.begin(), handpoints.end());
-// double spiralcoords [] = {
-//37200, 3600, 42075, 4025, 47475, 5875, 51000, 7800, 55800, 12300, 59000, 17075, 60000, 20400,
-//61200, 25800, 61200, 29400, 60600, 33600, 58800, 38400, 55800, 42600, 53200, 45625,
-//49200, 48600, 43200, 51000, 35400, 51600, 29400, 50400, 23400, 47400, 19200, 43800,
-//16200, 39600, 14400, 35400, 13200, 29400, 13200, 24000, 15000, 18600, 17400, 13800,
-//20525, 10300, 24600, 7200, 29400, 4800, 32450, 4000, 34825, 3675, 35625, 3625,
-//35825, 7275, 39600, 7200, 43800, 8400, 46800, 9600, 50400, 12000, 53400, 15000,
-//55800, 18600, 57000, 23400, 57600, 27000, 57000, 32400, 55200, 37200, 52200, 41400,
-//48000, 45000, 42000, 47400, 35400, 48000, 30000, 46800, 24600, 43800, 20325, 39100,
-//17850, 34275, 16800, 27600, 17400, 22200, 20400, 16200, 24600, 11400, 28800, 9000,
-//32400, 7800, 33200, 7575, 33925, 11050, 35400, 10800, 37200, 10800, 41400, 11400,
-//46200, 13200, 49800, 16200, 51600, 19200, 53400, 23400, 54000, 29400, 52800, 33600,
-//49800, 39000, 45000, 42600, 39000, 44400, 33600, 43800, 28200, 42000, 24000, 37800,
-//21000, 33000, 20400, 26400, 21600, 21000, 24600, 16200, 28200, 13200, 31875, 11625,
-//33200, 15625, 36000, 15000, 39000, 15000, 43800, 16800, 46800, 19200, 49200, 23400,
-//49800, 27600, 48750, 32700, 46350, 36275, 42600, 39000, 38400, 40200, 31800, 39000,
-//28200, 36600, 25200, 31200, 24600, 26400, 26025, 21800, 28200, 18600, 30600, 16800,
-//32575, 19875, 34200, 19200, 36000, 18600, 37200, 18600, 40375, 19125, 43200, 21000,
-//45600, 24000, 46200, 27600, 45600, 30600, 43800, 33600, 41475, 35625, 37800, 36600,
-//33600, 36000, 30000, 33600, 28200, 28800, 28800, 24600, 30000, 22200, 31200, 23400,
-//30600, 25200, 30000, 27000, 30600, 30000, 31800, 32400, 34200, 34200, 38400, 34800,
-//41400, 33000, 44025, 30225, 44400, 26400, 43200, 23400, 40900, 21200, 37800, 20400,
-//34950, 20675, 32400, 22200, 30175, 19475, 28425, 21300, 27000, 24000, 26400, 27600,
-//27000, 31800, 31200, 36600, 36600, 38400, 42600, 37200, 46200, 33600, 48000, 30000,
-//47650, 24425, 45600, 20400, 42650, 18200, 39000, 16800, 35400, 16800, 33600, 17400,
-//32875, 17675, 31100, 13850, 28200, 15600, 25200, 18600, 22800, 22800, 22200, 27000,
-//23400, 33600, 26400, 38400, 31675, 41575, 37800, 42600, 40850, 42150, 42800, 41550,
-//47050, 39025, 50100, 35375, 52200, 29400, 51675, 23950, 49800, 19200, 46200, 15600,
-//41400, 13200, 37800, 12600, 35025, 12750, 33350, 13050, 32400, 9600, 30025, 10325,
-//25925, 12725, 22200, 16800, 19800, 21000, 18600, 25800, 18600, 30000, 20400, 35400,
-//22575, 39250, 25225, 41825, 28200, 43800, 33600, 46200, 39000, 46200, 44400, 45000,
-//48650, 42350, 52800, 37800, 55200, 32400, 55800, 26400, 54600, 21000, 53400, 18000,
-//50400, 14400, 47400, 12000, 42600, 9600, 39000, 9000, 36000, 9000, 34775, 9125,
-//34300, 5600, 30000, 6600, 25800, 8400, 22025, 11350, 18725, 15125, 16200, 20400,
-//15000, 24600, 15000, 30600, 16800, 36600, 20400, 42600, 25800, 46800, 31200, 49200,
-//38400, 49800, 45000, 48600, 51000, 45000, 55475, 40225, 58200, 34800, 59400, 30000,
-//59400, 25200, 58200, 19800, 55200, 14400, 52225, 11150, 47400, 7800, 44175, 6500,
-//40200, 5400, 38400, 5400, 37200, 5400, 0, 0 };
-// std::vector<point_data<double> > spiralpoints;
-// for(unsigned int i = 0; i < 100000; i += 2) {
-// point_data<double> pt(spiralcoords[i], spiralcoords[i+1]);
-// if(pt == point_data<double> (0, 0)) break;
-// spiralpoints.push_back(pt);
-// }
-// polygon_data<double> spiralpoly;
-// spiralpoly.set(spiralpoints.begin(), spiralpoints.end());
-// polygon_set_data<double> handset;
-// handset += handpoly;
-// polygon_set_data<double> spiralset;
-// spiralset += spiralpoly;
-// polygon_set_data<double> xorset = handset ^ spiralset;
-// std::vector<polygon_data<double> > polys;
-// polys += xorset;
-// std::cout << polys.size() << std::endl;
-// for(unsigned int i = 0; i < polys.size(); ++i)
-// std::cout << polys[i] << std::endl;
-//}
-
-bool testDirectionalSize() {
- {
- PolygonSet ps(VERTICAL);
- ps += Rectangle(0, 0, 100, 100);
- ps.resize(0, -10, 0, -10);
- std::vector<Rectangle> rects;
- ps.get(rects);
- if(rects.size() != 1) return false;
- std::cout << rects[0] << std::endl;
- std::cout << Rectangle(0, 0, 90, 90) << std::endl;
- if(rects[0] != Rectangle(0, 0, 90, 90)) return false;
- }
- {
- PolygonSet ps(VERTICAL);
- ps += Rectangle(0, 0, 100, 100);
- ps.resize(0, 0, 0, -10);
- std::vector<Rectangle> rects;
- ps.get(rects);
- if(rects.size() != 1) return false;
- std::cout << rects[0] << std::endl;
- std::cout << Rectangle(0, 0, 100, 90) << std::endl;
- if(rects[0] != Rectangle(0, 0, 100, 90)) return false;
- }
- {
- PolygonSet ps;
- ps += Rectangle(0, 0, 100, 100);
- ps.resize(0, -10, 0, 0);
- std::vector<Rectangle> rects;
- ps.get(rects);
- if(rects.size() != 1) return false;
- std::cout << rects[0] << std::endl;
- std::cout << Rectangle(0, 0, 90, 100) << std::endl;
- if(rects[0] != Rectangle(0, 0, 90, 100)) return false;
- }
- {
- PolygonSet ps;
- ps += Rectangle(0, 0, 100, 100);
- ps.resize(0, 0, -10, 0);
- std::vector<Rectangle> rects;
- ps.get(rects);
- if(rects.size() != 1) return false;
- std::cout << rects[0] << std::endl;
- std::cout << Rectangle(0, 10, 100, 100) << std::endl;
- if(rects[0] != Rectangle(0, 10, 100, 100)) return false;
- }
- {
- PolygonSet ps;
- ps += Rectangle(0, 0, 100, 100);
- ps.resize(-10, 0, 0, 0);
- std::vector<Rectangle> rects;
- ps.get(rects);
- if(rects.size() != 1) return false;
- std::cout << rects[0] << std::endl;
- std::cout << Rectangle(10, 0, 100, 100) << std::endl;
- if(rects[0] != Rectangle(10, 0, 100, 100)) return false;
- }
- {
- PolygonSet ps;
- ps += Rectangle(0, 0, 100, 100);
- ps.resize(-10, 10, 0, 0);
- std::vector<Rectangle> rects;
- ps.get(rects);
- if(rects.size() != 1) return false;
- std::cout << rects[0] << std::endl;
- std::cout << Rectangle(10, 0, 110, 100) << std::endl;
- if(rects[0] != Rectangle(10, 0, 110, 100)) return false;
- }
- {
- PolygonSet ps;
- ps += Rectangle(0, 0, 100, 100);
- ps.resize(-10, 10, 10, -10);
- std::vector<Rectangle> rects;
- ps.get(rects);
- if(rects.size() != 1) return false;
- std::cout << rects[0] << std::endl;
- std::cout << Rectangle(10, -10, 110, 90) << std::endl;
- if(rects[0] != Rectangle(10, -10, 110, 90)) return false;
- }
- {
- PolygonSet ps;
- ps += Rectangle(0, 0, 100, 100);
- ps.resize(10, 10, -10, -10);
- std::vector<Rectangle> rects;
- ps.get(rects);
- if(rects.size() != 1) return false;
- std::cout << rects[0] << std::endl;
- std::cout << Rectangle(-10, 10, 110, 90) << std::endl;
- if(rects[0] != Rectangle(-10, 10, 110, 90)) return false;
- }
- return true;
-}
-
-bool testMaxCover() {
- std::vector<Rectangle> rects;
- rects.push_back(Rectangle(Interval(60, 124), Interval( 1, 3)));
- rects.push_back(Rectangle(Interval(59, 83), Interval( 9, 28)));
- rects.push_back(Rectangle(Interval(90, 124), Interval( 3, 29)));
- rects.push_back(Rectangle(Interval(64, 124), Interval( 29, 35)));
- rects.push_back(Rectangle(Interval(64, 102), Interval( 35, 49)));
- rects.push_back(Rectangle(Interval(1, 20), Interval( 44, 60)));
- rects.push_back(Rectangle(Interval(50, 102), Interval( 49, 71)));
- rects.push_back(Rectangle(Interval(49, 102), Interval( 71, 72)));
- rects.push_back(Rectangle(Interval(49, 94), Interval( 72, 75)));
- rects.push_back(Rectangle(Interval(50, 74), Interval( 75, 81)));
- rects.push_back(Rectangle(Interval(90, 127), Interval( 75, 81)));
- rects.push_back(Rectangle(Interval(50, 127), Interval( 81, 82)));
- rects.push_back(Rectangle(Interval(3, 7), Interval( 60, 88)));
- rects.push_back(Rectangle(Interval(50, 92), Interval( 82, 94)));
- rects.push_back(Rectangle(Interval(58, 92), Interval( 94, 111)));
- std::vector<Rectangle> expected_result;
- expected_result.push_back(Rectangle(Interval(60, 124), Interval( 1, 3)));
- expected_result.push_back(Rectangle(Interval(90, 124), Interval( 1, 35)));
- expected_result.push_back(Rectangle(Interval(90, 102), Interval( 1, 72)));
- expected_result.push_back(Rectangle(Interval(90, 94 ), Interval(1 ,82)));
- expected_result.push_back(Rectangle(Interval(90, 92), Interval( 1, 111)));
- expected_result.push_back(Rectangle(Interval(59, 83 ), Interval(9, 28)));
- expected_result.push_back(Rectangle(Interval(64, 124), Interval( 29, 35)));
- expected_result.push_back(Rectangle(Interval(64, 102), Interval( 29, 72)));
- expected_result.push_back(Rectangle(Interval(64, 94), Interval( 29, 75)));
- expected_result.push_back(Rectangle(Interval(64, 74), Interval( 29, 111)));
- expected_result.push_back(Rectangle(Interval(1, 20), Interval( 44, 60)));
- expected_result.push_back(Rectangle(Interval(3, 7), Interval( 44, 88)));
- expected_result.push_back(Rectangle(Interval(50, 102 ), Interval(49, 72)));
- expected_result.push_back(Rectangle(Interval(50, 94), Interval( 49, 75)));
- expected_result.push_back(Rectangle(Interval(50, 74), Interval( 49, 94)));
- expected_result.push_back(Rectangle(Interval(58, 74), Interval( 49, 111)));
- expected_result.push_back(Rectangle(Interval(49, 102 ), Interval(71, 72)));
- expected_result.push_back(Rectangle(Interval(49, 94 ), Interval(71, 75)));
- expected_result.push_back(Rectangle(Interval(90, 127), Interval( 75, 82)));
- expected_result.push_back(Rectangle(Interval(50, 127), Interval( 81, 82)));
- expected_result.push_back(Rectangle(Interval(50, 92), Interval( 81, 94)));
- expected_result.push_back(Rectangle(Interval(58, 92), Interval( 81, 111)));
- std::vector<Rectangle> result;
- get_max_rectangles(result, rects);
- std::cout << "result XOR clean: " << equivalence(result, rects) << std::endl;
- std::cout << "expected result XOR clean: " << equivalence(expected_result, rects) << std::endl;
- std::vector<Rectangle>& output = result;
- std::vector<Rectangle>& voutput = expected_result;
- std::sort(output.begin(), output.end(), less_rectangle_concept< Rectangle, Rectangle>());
- std::sort(voutput.begin(), voutput.end(), less_rectangle_concept< Rectangle, Rectangle>());
- if(output != voutput) {
- std::cerr << "Max Rectangle TEST failed\n";
- for(unsigned int i = 0; i < output.size(); ++i) {
- std::cerr << output[i] << std::endl;
- }
- std::cerr << "Incorrect result\n";
- for(unsigned int i = 0; i < voutput.size(); ++i) {
- std::cerr << voutput[i] << std::endl;
- }
- std::cerr << "Max Rectangle TEST failed\n";
- for(unsigned int i = 0; i < rects.size(); ++i) {
- std::cout << rects[i] << std::endl;
- }
- return false;
- }
- return true;
-}
-
-void max_cover_stress_test() {
- for(unsigned int k = 3; k < 20; k++) {
- for(unsigned int i = 0; i < k * k; ++i) {
- std::vector<Rectangle> rects, result;
- //std::cout << "test " << i << std::endl;
- for(unsigned int j = 0; j < k; ++j) {
- int x1 = rand() % 100;
- int x2 = rand() % 50;
- int y1 = rand() % 100;
- int y2 = rand() % 50;
- rects.push_back(Rectangle(x1, y1, x1+x2, y1+y2));
- //std::cout << rects.back() << std::endl;
- }
- get_max_rectangles(result, rects);
- }
- }
-}
-
-// namespace boost { namespace polygon{
-// template <typename GCT, typename T>
-// struct view_of {};
-
-// template <typename T>
-// struct view_of<polygon_45_concept, T> {
-// const T* t;
-// view_of(const T& obj) : t(&obj) {}
-// typedef typename polygon_traits<T>::coordinate_type coordinate_type;
-// typedef typename polygon_traits<T>::iterator_type iterator_type;
-// typedef typename polygon_traits<T>::point_type point_type;
-
-// /// Get the begin iterator
-// inline iterator_type begin() const {
-// return polygon_traits<T>::begin_points(*t);
-// }
-
-// /// Get the end iterator
-// inline iterator_type end() const {
-// return polygon_traits<T>::end_points(*t);
-// }
-
-// /// Get the number of sides of the polygon
-// inline unsigned int size() const {
-// return polygon_traits<T>::size(*t);
-// }
-
-// /// Get the winding direction of the polygon
-// inline winding_direction winding() const {
-// return polygon_traits<T>::winding(*t);
-// }
-// };
-
-// template <typename T1, typename T2>
-// view_of<T1, T2> view_as(const T2& obj) { return view_of<T1, T2>(obj); }
-
-// template <typename T>
-// struct geometry_concept<view_of<polygon_45_concept, T> > {
-// typedef polygon_45_concept type;
-// };
-
-// template <typename T>
-// struct view_of<polygon_90_concept, T> {
-// const T* t;
-// view_of(const T& obj) : t(&obj) {}
-// typedef typename polygon_traits<T>::coordinate_type coordinate_type;
-// typedef typename polygon_traits<T>::iterator_type iterator_type;
-// typedef typename polygon_traits<T>::point_type point_type;
-// typedef iterator_points_to_compact<iterator_type, point_type> compact_iterator_type;
-
-// /// Get the begin iterator
-// inline compact_iterator_type begin_compact() const {
-// return compact_iterator_type(polygon_traits<T>::begin_points(*t),
-// polygon_traits<T>::end_points(*t));
-// }
-
-// /// Get the end iterator
-// inline compact_iterator_type end_compact() const {
-// return compact_iterator_type(polygon_traits<T>::end_points(*t),
-// polygon_traits<T>::end_points(*t));
-// }
-
-// /// Get the number of sides of the polygon
-// inline unsigned int size() const {
-// return polygon_traits<T>::size(*t);
-// }
-
-// /// Get the winding direction of the polygon
-// inline winding_direction winding() const {
-// return polygon_traits<T>::winding(*t);
-// }
-// };
-
-// template <typename T>
-// struct geometry_concept<view_of<polygon_90_concept, T> > {
-// typedef polygon_90_concept type;
-// };
-// }}
-using namespace gtl;
-
-//this test fails and I'd like to get it to pass
-bool test_colinear_duplicate_points() {
- Point pts[6] = { Point(0, 10), Point(0, 0), Point(100, 0), Point(100, 100), Point(0, 100), Point(0, 10)};
- Polygon45 p1;
- p1.set(pts, pts+5);
- Polygon45 pg;
- pg.set(pts, pts+6);
- Polygon45 p2;
- p2.set(pts+1, pts+6);
- std::cout << p2 << std::endl;
- if(!equivalence(view_as<polygon_90_concept>(p2), view_as<polygon_90_concept>(pg))) return false;
- std::cout << p1 << std::endl;
- if(!equivalence(view_as<polygon_90_concept>(p1), view_as<polygon_90_concept>(pg))) return false;
- return true;
-}
-
-bool test_extents() {
- PolygonSet psT(gtl::VERTICAL);
- //int xy[] = { 126, 69, 54, 69, 54, 81, 126, 81 };
- //CPolygonQuery polygon(0, 4, xy);
- //Rectangle rectIn(54, 69, 126, 81);
- polygon_data<int> polygon;
- std::vector<Point> pts;
- pts.push_back(Point(126, 69));
- pts.push_back(Point(54, 69));
- pts.push_back(Point(54, 81));
- pts.push_back(Point(126, 81));
- psT.insert(view_as<polygon_90_concept>(polygon));
-
- Rectangle rect, rect2;
- psT.extents(rect2);
- gtl::extents(rect, psT);
-
- if (rect != rect2) {
- std::cout << "gtl::Rectangles differ: " << gtl::xl(rect) << " " << gtl::xh(rect) << " " << gtl::yl(rect) << " " << gtl::yh(rect) << std::endl;
- std::cout << " " << gtl::xl(rect2) << " " << gtl::xh(rect2) << " " << gtl::yl(rect2) << " " << gtl::yh(rect2) << std::endl;
- return false;
- }
- return true;
-}
-
-bool test_extents2() {
- Polygon45Set psT;
- Point xy[] = { Point(130, 50), Point(50, 50), Point(50, 100), Point(119, 100),
- Point(119, 59), Point(89, 89), Point(59, 59), Point(119, 59), Point(119, 100), Point(130, 100) };
- Polygon45 polygon(xy, xy+10);
-
- psT.insert(polygon);
- psT += 2;
-
- Rectangle rect, rect2;
- psT.extents(rect2);
- gtl::extents(rect, psT);
- std::cout << "Extents: " << gtl::xl(rect) << " " << gtl::xh(rect) << " " << gtl::yl(rect) << " " << gtl::yh(rect) << std::endl;
- std::cout << "Extents: " << gtl::xl(rect2) << " " << gtl::xh(rect2) << " " << gtl::yl(rect2) << " " << gtl::yh(rect2) << std::endl;
- std::vector<Polygon45WithHoles> pwhs;
- psT.get(pwhs);
- for(unsigned int i = 0; i < pwhs.size(); ++i) {
- std::cout << pwhs[i] << std::endl;
- }
- return gtl::equivalence(rect, rect2);
-}
-
-int main() {
- test_view_as();
- //this test fails and I'd like to get it to pass
- //if(!test_colinear_duplicate_points()) return 1;
- if(!test_extents2()) return 1;
- if(!test_extents()) return 1;
- if(!testMaxCover()) return 1;
- //max_cover_stress_test(); //does not include functional testing
- if(!testDirectionalSize()) return 1;
- testHand();
- //testHandFloat();
- if(!testpip()) return 1;
- {
- PolygonSet ps;
- Polygon p;
- assign(ps, p);
- }
- if(!testViewCopyConstruct()) return 1;
- if(!test_grow_and_45()) return 1;
- if(!test_self_xor_45()) return 1;
- if(!test_self_xor()) return 1;
- if(!test_directional_resize()) return 1;
- if(!test_scaling_by_floating()) return 1;
- if(!test_SQRT1OVER2()) return 1;
- if(!test_get_trapezoids()) return 1;
- if(!test_get_rectangles()) return 1;
- if(!test_45_concept_interact()) return 1;
- if(!test_45_touch_r()) return 1;
- if(!test_45_touch_ur()) return 1;
- if(!test_45_touch()) return 1;
- if(!test_45_touch_boundaries()) return 1;
- {
- Point pts[] = {Point(0,0), Point(5, 5), Point(5, 0)};
- Polygon45 p45(pts, pts+3);
- pts[1] = Point(0, 5);
- Polygon45 p452(pts, pts+3);
- if(!test_two_polygons(p45,p452)) return 1;
- pts[2] = Point(5,5);
- p45.set(pts, pts+3);
- if(!test_two_polygons(p45,p452)) return 1;
- pts[0] = Point(5,0);
- p452.set(pts, pts+3);
- if(!test_two_polygons(p45, p452)) return 1;
- Point pts2[] = {Point(0,5), Point(5, 5), Point(5, 0)};
- Point pts3[] = {Point(0,0), Point(5, 5), Point(5, 0)};
- p45.set(pts2, pts2 + 3);
- p452.set(pts3, pts3+3);
- if(!test_two_polygons(p45, p452)) return 1;
- Point pts4[] = {Point(0, 5), Point(3, 2), Point(3,5)};
- Point pts5[] = {Point(0,0), Point(5, 5), Point(5, 0)};
- p45.set(pts4, pts4+3);
- p452.set(pts5, pts5+3);
- if(!test_two_polygons(p45, p452)) return 1;
- }
- {
- std::vector<point_data<int> > pts;
- pts.push_back(point_data<int>(0, 0));
- pts.push_back(point_data<int>(10, 0));
- pts.push_back(point_data<int>(10, 10));
- pts.push_back(point_data<int>(0, 10));
- std::vector<point_data<int> > pts2;
- pts2.push_back(point_data<int>(0, 0));
- pts2.push_back(point_data<int>(10, 10));
- pts2.push_back(point_data<int>(0, 20));
- pts2.push_back(point_data<int>(-10, 10));
- std::vector<point_data<int> > pts3;
- pts3.push_back(point_data<int>(0, 0));
- pts3.push_back(point_data<int>(10, 11));
- pts3.push_back(point_data<int>(0, 20));
- pts3.push_back(point_data<int>(-100, 8));
- polygon_data<int> p, p1; p.set(pts3.begin(), pts3.end());
- polygon_45_data<int> p45, p451; p45.set(pts2.begin(), pts2.end());
- polygon_90_data<int> p90, p901; p90.set(pts.begin(), pts.end());
- polygon_with_holes_data<int> pwh, pwh1; pwh.set(pts3.begin(), pts3.end());
- polygon_45_with_holes_data<int> p45wh, p45wh1; p45wh.set(pts2.begin(), pts2.end());
- polygon_90_with_holes_data<int> p90wh, p90wh1; p90wh.set(pts.begin(), pts.end());
- assign(p, p90);
- assign(p, p45);
- assign(p1, p);
- //illegal: assign(p, p90wh);
- //illegal: assign(p, p45wh);
- //illegal: assign(p, pwh);
-
- assign(p45, p90);
- assign(p451, p45);
- //illegal: assign(p45, p);
- //illegal: assign(p45, p90wh);
- //illegal: assign(p45, p45wh);
- //illegal: assign(p45, pwh);
-
- assign(p901, p90);
- //illegal: assign(p90, p45);
- //illegal: assign(p90, p);
- //illegal: assign(p90, p90wh);
- //illegal: assign(p90, p45wh);
- //illegal: assign(p90, pwh);
-
- assign(pwh, p90);
- assign(pwh, p45);
- assign(pwh, p);
- assign(pwh, p90wh);
- assign(pwh, p45wh);
- assign(pwh1, pwh);
-
- assign(p45wh, p90);
- assign(p45wh, p45);
- //illegal: assign(p45wh, p);
- assign(p45wh, p90wh);
- assign(p45wh1, p45wh);
- //illegal: assign(p45wh, pwh);
-
- assign(p90wh, p90);
- //illegal: assign(p90wh, p45);
- //illegal: assign(p90wh, p);
- assign(p90wh1, p90wh);
- //illegal: assign(p90wh, p45wh);
- //illegal: assign(p90wh, pwh);
- pts.clear();
- pts.push_back(point_data<int>(0, 0));
- pts.push_back(point_data<int>(3, 0));
- pts.push_back(point_data<int>(0, 1));
- p.set(pts.begin(), pts.end());
- std::cout << std::endl; std::cout << (area(p90));
- std::cout << std::endl; std::cout << (area(p45));
- std::cout << std::endl; std::cout << (area(p));
- std::cout << std::endl; std::cout << (area(p90wh));
- std::cout << std::endl; std::cout << (area(p45wh));
- std::cout << std::endl; std::cout << (area(pwh));
- std::cout << std::endl;
- point_data<int> pt(1, 1);
- std::cout << contains(p, pt) << std::endl;
- std::cout << contains(p90, pt) << std::endl;
-
- interval_data<int> ivl = construct<interval_data<int> >(0, 10);
- std::cout << get(ivl, LOW) << std::endl;
- set(ivl, HIGH, 20);
-
- std::cout << perimeter(p) << std::endl;
- if(winding(p) == LOW) std::cout << "LOW" << std::endl;
- if(winding(p) == HIGH) std::cout << "HIGH" << std::endl;
- rectangle_data<long long> rd;
- std::cout << extents(rd, p) << std::endl;
- std::cout << rd << std::endl;
-
- boolean_op::testBooleanOr<int>();
-
- std::vector<rectangle_data<int> > rects1, rects2;
- rects2.push_back(rectangle_data<int>(0, 0, 10, 10));
- print_is_polygon_90_set_concept((polygon_90_set_data<int>()));
- print_is_mutable_polygon_90_set_concept((polygon_90_set_data<int>()));
- print_is_polygon_90_set_concept((polygon_90_data<int>()));
- print_is_polygon_90_set_concept((std::vector<polygon_90_data<int> >()));
- assign(rects1, rects2);
- polygon_90_set_data<int> ps90;
- assign(ps90, rects2);
- assign(rects2, ps90);
- assign(ps90, p90);
- assign(rects2, p90);
- std::cout << p90 << std::endl;
- for(unsigned int i = 0; i < rects2.size(); ++i) {
- std::cout << rects2[i] << std::endl;
- }
- bloat(rects2, 10);
- shrink(rects2[0], 10);
- for(unsigned int i = 0; i < rects2.size(); ++i) {
- std::cout << rects2[i] << std::endl;
- }
- move(rects2[0], HORIZONTAL, 30);
- assign(rects1, rects2 + p90);
- std::cout << "result of boolean or\n";
- for(unsigned int i = 0; i < rects1.size(); ++i) {
- std::cout << rects1[i] << std::endl;
- }
- rects1 -= p90;
- std::cout << "result of boolean not\n";
- for(unsigned int i = 0; i < rects1.size(); ++i) {
- std::cout << rects1[i] << std::endl;
- }
- rects1 += p90;
- std::cout << "result of boolean OR\n";
- for(unsigned int i = 0; i < rects1.size(); ++i) {
- std::cout << rects1[i] << std::endl;
- }
- rects1 *= p90;
- std::cout << "result of boolean AND\n";
- for(unsigned int i = 0; i < rects1.size(); ++i) {
- std::cout << rects1[i] << std::endl;
- }
- rects1 ^= rects2;
- std::cout << "result of boolean XOR\n";
- for(unsigned int i = 0; i < rects1.size(); ++i) {
- std::cout << rects1[i] << std::endl;
- }
- rects2.clear();
- get_max_rectangles(rects2, p90);
- std::cout << "result of max rectangles\n";
- for(unsigned int i = 0; i < rects2.size(); ++i) {
- std::cout << rects2[i] << std::endl;
- }
- rects2.clear();
- //operator += and -= don't support polygons, so + and - should not exist
-// rects2 += p90 + 6;
-// std::cout << "result of resize\n";
-// for(unsigned int i = 0; i < rects2.size(); ++i) {
-// std::cout << rects2[i] << std::endl;
-// }
-// std::cout << "result of resize\n";
- std::vector<polygon_90_with_holes_data<int> > polyswh1, polyswh2;
-// polyswh1 += p90 -2;
-// for(unsigned int i = 0; i < polyswh1.size(); ++i) {
-// std::cout << polyswh1[i] << std::endl;
-// }
-// std::cout << "result of resize\n";
- std::vector<polygon_90_data<int> > polys1, polys2;
- polys1 += p90;
- polys1 -= 2;
-// polys1 += p90 -2;
- for(unsigned int i = 0; i < polys1.size(); ++i) {
- std::cout << polys1[i] << std::endl;
- }
-
- boolean_op_45<int>::testScan45(std::cout);
- polygon_45_formation<int>::testPolygon45Formation(std::cout);
- polygon_45_formation<int>::testPolygon45Tiling(std::cout);
-
- axis_transformation atr;
- transform(p, atr);
- transform(p45, atr);
- transform(p90, atr);
- transform(pwh, atr);
- transform(p45wh, atr);
- transform(p90wh, atr);
- scale_up(p, 2);
- scale_up(p45, 2);
- scale_up(p90, 2);
- scale_up(pwh, 2);
- scale_up(p45wh, 2);
- scale_up(p90wh, 2);
- scale_down(p, 2);
- scale_down(p45, 2);
- scale_down(p90, 2);
- scale_down(pwh, 2);
- scale_down(p45wh, 2);
- scale_down(p90wh, 2);
- std::vector<polygon_45_data<int> > p45s1, p45s2;
- std::cout << equivalence(p45s1, p45s2) << std::endl;
- std::cout << equivalence(p45, p45wh) << std::endl;
- std::cout << equivalence(p90, p45wh) << std::endl;
- gtl::assign(p45s1, p90);
- p90 = polys1[0];
- move(p90, orientation_2d(HORIZONTAL), 8);
- std::cout << p90 << std::endl << p45wh << std::endl;
- polygon_45_set_data<int> ps45 = p90 + p45wh;
- assign(p45s1, ps45);
- std::cout << "result\n";
- for(unsigned int i = 0; i < p45s1.size(); ++i) {
- std::cout << p45s1[i] << std::endl;
- }
- std::cout << equivalence(p, pwh) << std::endl;
- std::cout << equivalence(p90, pwh) << std::endl;
- std::cout << equivalence(p45, pwh) << std::endl;
- std::cout << equivalence(pwh, pwh) << std::endl;
- p + pwh;
- p90 + pwh;
- p45 + pwh;
- std::cout << testInterval() << std::endl;
- std::cout << testRectangle() << std::endl;
- std::cout << testPolygon() << std::endl;
- std::cout << testPropertyMerge() << std::endl;
- std::cout << testPolygonAssign() << std::endl;
- std::cout << testPolygonWithHoles() << std::endl;
- std::cout << (polygon_arbitrary_formation<int>::testPolygonArbitraryFormationRect(std::cout)) << std::endl;
- std::cout << (polygon_arbitrary_formation<int>::testPolygonArbitraryFormationP1(std::cout)) << std::endl;
- std::cout << (polygon_arbitrary_formation<int>::testPolygonArbitraryFormationP2(std::cout)) << std::endl;
- std::cout << (polygon_arbitrary_formation<int>::testPolygonArbitraryFormationPolys(std::cout)) << std::endl;
- std::cout << (polygon_arbitrary_formation<int>::testPolygonArbitraryFormationSelfTouch1(std::cout)) << std::endl;
- std::cout << (polygon_arbitrary_formation<int>::testPolygonArbitraryFormationSelfTouch2(std::cout)) << std::endl;
- std::cout << (polygon_arbitrary_formation<int>::testPolygonArbitraryFormationSelfTouch3(std::cout)) << std::endl;
- std::cout << (polygon_arbitrary_formation<int>::testSegmentIntersection(std::cout)) << std::endl;
- std::cout << (property_merge<int, int>::test_insertion(std::cout)) << std::endl;
- std::cout << (line_intersection<int>::test_verify_scan(std::cout)) << std::endl;
- std::cout << (line_intersection<int>::test_validate_scan(std::cout)) << std::endl;
- std::cout << (scanline<int, int>::test_scanline(std::cout)) << std::endl;
- std::cout << (property_merge<int, int>::test_merge(std::cout)) << std::endl;
- std::cout << (property_merge<int, int>::test_intersection(std::cout)) << std::endl;
- std::cout << (polygon_arbitrary_formation<int>::testPolygonArbitraryFormationColinear(std::cout)) << std::endl;
- std::cout << (property_merge<int, int>::test_manhattan_intersection(std::cout)) << std::endl;
- std::cout << (test_arbitrary_boolean_op<int>(std::cout)) << std::endl;
- }
- {
- polygon_set_data<int> psd;
- rectangle_data<int> rect;
- set_points(rect, point_data<int>(0, 0), point_data<int>(10, 10));
- psd.insert(rect);
- polygon_set_data<int> psd2;
- set_points(rect, point_data<int>(5, 5), point_data<int>(15, 15));
- psd2.insert(rect);
- std::vector<polygon_data<int> > pv;
- polygon_set_data<int> psd3;
- psd3 = psd + psd2;
- psd3.get(pv);
- for(unsigned int i = 0; i < pv.size(); ++i) {
- std::cout << pv[i] << std::endl;
- }
- psd += psd2;
- pv.clear();
- psd3.get(pv);
- for(unsigned int i = 0; i < pv.size(); ++i) {
- std::cout << pv[i] << std::endl;
- }
- }
- {
- polygon_90_set_data<int> psd;
- rectangle_data<int> rect;
- set_points(rect, point_data<int>(0, 0), point_data<int>(10, 10));
- psd.insert(rect);
- polygon_90_set_data<int> psd2;
- set_points(rect, point_data<int>(5, 5), point_data<int>(15, 15));
- psd2.insert(rect);
- std::vector<polygon_90_data<int> > pv;
- interact(psd, psd2);
- assign(pv, psd);
- for(unsigned int i = 0; i < pv.size(); ++i) {
- std::cout << pv[i] << std::endl;
- }
-
- connectivity_extraction_90<int> ce;
- ce.insert(pv[0]);
- ce.insert(psd2);
- std::vector<std::set<int> > graph(2);
- ce.extract(graph);
- if(graph[0].size() == 1) std::cout << "connectivity extraction is alive\n";
-
- //std::vector<rectangle_data<long long> > lobs;
- //get_max_rectangles(lobs, psd);
- //if(lobs.size() == 1) std::cout << "max rectangles is alive\n";
-
- std::vector<rectangle_data<int> > rv;
- rv.push_back(rect);
- set_points(rect, point_data<int>(0, 0), point_data<int>(10, 10));
- rv.push_back(rect);
- self_intersect(rv);
- if(rv.size() == 1) {
- assign(rect, rv.back());
- std::cout << rect << std::endl;
- }
-
- assign(rv, rv + 1);
- std::cout << rv.size() << std::endl;
- if(rv.size() == 1) {
- assign(rect, rv.back());
- std::cout << rect << std::endl;
- }
- assign(rv, rv - 1);
- if(rv.size() == 1) {
- assign(rect, rv.back());
- std::cout << rect << std::endl;
- }
- rv += 1;
- if(rv.size() == 1) {
- assign(rect, rv.back());
- std::cout << rect << std::endl;
- }
- rv -= 1;
- if(rv.size() == 1) {
- assign(rect, rv.back());
- std::cout << rect << std::endl;
- }
- rv.clear();
- set_points(rect, point_data<int>(0, 0), point_data<int>(10, 10));
- rv.push_back(rect);
- set_points(rect, point_data<int>(12, 12), point_data<int>(20, 20));
- rv.push_back(rect);
- grow_and(rv, 7);
- if(rv.size() == 1) {
- assign(rect, rv.back());
- std::cout << rect << std::endl;
- }
- std::cout << area(rv) << std::endl;
- std::cout << area(rv) << std::endl;
-
- scale_up(rv, 10);
- std::cout << area(rv) << std::endl;
- scale_down(rv, 7);
- std::cout << area(rv) << std::endl;
- if(rv.size() == 1) {
- assign(rect, rv.back());
- std::cout << rect << std::endl;
- }
- keep(rv, 290, 300, 7, 24, 7, 24);
- if(rv.size() == 1) {
- assign(rect, rv.back());
- std::cout << rect << std::endl;
- }
- keep(rv, 300, 310, 7, 24, 7, 24);
- if(rv.empty()) std::cout << "keep is alive\n";
- }
- {
-// typedef int Unit;
-// typedef point_data<int> Point;
-// typedef interval_data<int> Interval;
-// typedef rectangle_data<int> Rectangle;
-// typedef polygon_90_data<int> Polygon;
-// typedef polygon_90_with_holes_data<int> PolygonWithHoles;
-// typedef polygon_45_data<int> Polygon45;
-// typedef polygon_45_with_holes_data<int> Polygon45WithHoles;
-// typedef polygon_90_set_data<int> PolygonSet;
-// //typedef polygon_45_set_data<int> Polygon45Set;
-// typedef axis_transformation AxisTransform;
-// typedef transformation<int> Transform;
- //test polygon45 area, polygon45 with holes area
- std::vector<Point> pts;
- pts.clear();
- pts.push_back(Point(10, 10));
- pts.push_back(Point(15, 10));
- pts.push_back(Point(10, 15));
- Polygon45 polyHole;
- polyHole.set(pts.begin(), pts.end());
- pts.clear();
- pts.push_back(Point(10, 0));
- pts.push_back(Point(20, 10));
- pts.push_back(Point(20, 30));
- pts.push_back(Point(0, 50));
- pts.push_back(Point(0, 10));
- Polygon45WithHoles polyWHoles;
- polyWHoles.set(pts.begin(), pts.end());
- polyWHoles.set_holes(&polyHole, (&polyHole)+1);
- std::cout << polyWHoles << std::endl;
- std::cout << area(polyWHoles) << std::endl;
- std::cout << area(polyWHoles) << std::endl;
- //test polygon45, polygon45with holes transform
- AxisTransform atr(AxisTransform::EAST_SOUTH);
- Polygon45WithHoles p45wh(polyWHoles);
- transform(polyWHoles, atr);
- std::cout << polyWHoles << std::endl;
- Transform tr(atr);
- tr.invert();
- transform(polyWHoles, tr);
- std::cout << polyWHoles << std::endl;
- if(area(polyWHoles) != 687.5) return 1;
- //test polygon, polygon with holes transform
- Polygon ph;
- assign(ph, Rectangle(10, 10, 20, 20));
- PolygonWithHoles pwh;
- assign(pwh, Rectangle(0, 0, 100, 100));
- pwh.set_holes(&ph, (&ph)+1);
- std::cout << area(pwh) << std::endl;
- transform(pwh, atr);
- std::cout << pwh << std::endl;
- std::cout << area(pwh) << std::endl;
- transform(pwh, tr);
- std::cout << pwh << std::endl;
- std::cout << area(pwh) << std::endl;
- if(area(pwh) != 9900) return 1;
-
- //test point scale up / down
- Point pt(10, 10);
- scale_up(pt, 25);
- if(pt != Point(250, 250)) return 1;
- std::cout << pt << std::endl;
- scale_down(pt, 25);
- if(pt != Point(10, 10)) return 1;
- std::cout << pt << std::endl;
- scale_down(pt, 25);
- if(pt != Point(0, 0)) return 1;
- std::cout << pt << std::endl;
-
- //test polygon, polygon with holes scale up down
- PolygonWithHoles tmpPwh(pwh);
- scale_up(pwh, 25);
- std::cout << pwh << std::endl;
- scale_down(pwh, 25);
- if(area(pwh) != area(tmpPwh)) return 1;
- std::cout << pwh << std::endl;
- scale_down(pwh, 25);
- std::cout << pwh << std::endl;
- //test polygon45, polygon45 with holes is45
- std::cout << is_45(polyHole) << std::endl;
- if(is_45(polyHole) != true) return 1;
- pts.clear();
- pts.push_back(Point(10, 10));
- pts.push_back(Point(15, 10));
- pts.push_back(Point(10, 16));
- polyHole.set(pts.begin(), pts.end());
- std::cout << is_45(polyHole) << std::endl;
- if(is_45(polyHole) != false) return 1;
- //test polygon45, polygon45 with holes snap 45
- snap_to_45(polyHole);
- std::cout << is_45(polyHole) << std::endl;
- if(is_45(polyHole) != true) return 1;
- std::cout << polyHole << std::endl;
- //test polygon45, polygon45 with holes scalue up down
- scale_up(polyHole, 10000);
- std::cout << polyHole << std::endl;
- scale_down(polyHole, 3);
- std::cout << is_45(polyHole) << " " << polyHole << std::endl;
- if(is_45(polyHole) != true) return 1;
- scale_down(polyHole, 5);
- std::cout << is_45(polyHole) << " " << polyHole << std::endl;
- if(is_45(polyHole) != true) return 1;
- scale_down(polyHole, 7);
- std::cout << is_45(polyHole) << " " << polyHole << std::endl;
- if(is_45(polyHole) != true) return 1;
- scale_down(polyHole, 13);
- std::cout << is_45(polyHole) << " " << polyHole << std::endl;
- if(is_45(polyHole) != true) return 1;
- scale_down(polyHole, 2);
- std::cout << is_45(polyHole) << " " << polyHole << std::endl;
- if(is_45(polyHole) != true) return 1;
- scale_down(polyHole, 2);
- std::cout << is_45(polyHole) << " " << polyHole << std::endl;
- if(is_45(polyHole) != true) return 1;
- scale_down(polyHole, 2);
- std::cout << is_45(polyHole) << " " << polyHole << std::endl;
- if(is_45(polyHole) != true) return 1;
- scale_down(polyHole, 2);
- std::cout << is_45(polyHole) << " " << polyHole << std::endl;
- if(is_45(polyHole) != true) return 1;
- scale_down(polyHole, 2);
- std::cout << is_45(polyHole) << " " << polyHole << std::endl;
- if(is_45(polyHole) != true) return 1;
- scale_up(polyHole, 3);
- std::cout << is_45(polyHole) << " " << polyHole << std::endl;
- if(is_45(polyHole) != true) return 1;
- scale_down(polyHole, 2);
- std::cout << is_45(polyHole) << " " << polyHole << std::endl;
- if(is_45(polyHole) != true) return 1;
- scale_down(polyHole, 2);
- std::cout << is_45(polyHole) << " " << polyHole << std::endl;
- if(is_45(polyHole) != true) return 1;
- scale_down(polyHole, 2);
- std::cout << is_45(polyHole) << " " << polyHole << std::endl;
- if(is_45(polyHole) != true) return 1;
- scale_down(polyHole, 2);
- std::cout << is_45(polyHole) << " " << polyHole << std::endl;
- if(is_45(polyHole) != true) return 1;
- pts.clear();
- pts.push_back(Point(11, 1));
- pts.push_back(Point(21, 11));
- pts.push_back(Point(11, 21));
- pts.push_back(Point(1, 11));
- polyHole.set(pts.begin(), pts.end());
- std::cout << is_45(polyHole) << " " << polyHole << std::endl;
- if(is_45(polyHole) != true) return 1;
- scale_down(polyHole, 3);
- std::cout << is_45(polyHole) << " " << polyHole << std::endl;
- if(is_45(polyHole) != true) return 1;
- scale_up(polyHole, 10000);
- std::cout << polyHole << std::endl;
- scale_down(polyHole, 3);
- std::cout << is_45(polyHole) << " " << polyHole << std::endl;
- if(is_45(polyHole) != true) return 1;
- scale_down(polyHole, 5);
- std::cout << is_45(polyHole) << " " << polyHole << std::endl;
- if(is_45(polyHole) != true) return 1;
- scale_down(polyHole, 7);
- std::cout << is_45(polyHole) << " " << polyHole << std::endl;
- if(is_45(polyHole) != true) return 1;
- scale_down(polyHole, 13);
- std::cout << is_45(polyHole) << " " << polyHole << std::endl;
- if(is_45(polyHole) != true) return 1;
- scale_down(polyHole, 2);
- std::cout << is_45(polyHole) << " " << polyHole << std::endl;
- if(is_45(polyHole) != true) return 1;
- scale_down(polyHole, 2);
- std::cout << is_45(polyHole) << " " << polyHole << std::endl;
- if(is_45(polyHole) != true) return 1;
- scale_down(polyHole, 2);
- std::cout << is_45(polyHole) << " " << polyHole << std::endl;
- if(is_45(polyHole) != true) return 1;
- scale_down(polyHole, 2);
- std::cout << is_45(polyHole) << " " << polyHole << std::endl;
- if(is_45(polyHole) != true) return 1;
- scale_down(polyHole, 2);
- std::cout << is_45(polyHole) << " " << polyHole << std::endl;
- if(is_45(polyHole) != true) return 1;
- scale_up(polyHole, 3);
- std::cout << is_45(polyHole) << " " << polyHole << std::endl;
- if(is_45(polyHole) != true) return 1;
- scale_down(polyHole, 2);
- std::cout << is_45(polyHole) << " " << polyHole << std::endl;
- if(is_45(polyHole) != true) return 1;
- scale_down(polyHole, 2);
- std::cout << is_45(polyHole) << " " << polyHole << std::endl;
- if(is_45(polyHole) != true) return 1;
- scale_down(polyHole, 2);
- std::cout << is_45(polyHole) << " " << polyHole << std::endl;
- if(is_45(polyHole) != true) return 1;
- scale_down(polyHole, 2);
- std::cout << is_45(polyHole) << " " << polyHole << std::endl;
- if(is_45(polyHole) != true) return 1;
-
- std::cout << is_45(polyWHoles) << " " << polyWHoles << std::endl;
- if(is_45(polyWHoles) != true) return 1;
- scale_up(polyWHoles, 100013);
- std::cout << polyWHoles << std::endl;
- scale_down(polyWHoles, 3);
- std::cout << is_45(polyWHoles) << " " << polyWHoles << std::endl;
- if(is_45(polyWHoles) != true) return 1;
- scale_down(polyWHoles, 2);
- std::cout << is_45(polyWHoles) << " " << polyWHoles << std::endl;
- if(is_45(polyWHoles) != true) return 1;
- scale_down(polyWHoles, 3);
- std::cout << is_45(polyWHoles) << " " << polyWHoles << std::endl;
- if(is_45(polyWHoles) != true) return 1;
- scale_down(polyWHoles, 2);
- std::cout << is_45(polyWHoles) << " " << polyWHoles << std::endl;
- if(is_45(polyWHoles) != true) return 1;
- scale_down(polyWHoles, 3);
- std::cout << is_45(polyWHoles) << " " << polyWHoles << std::endl;
- if(is_45(polyWHoles) != true) return 1;
- scale_down(polyWHoles, 2);
- std::cout << is_45(polyWHoles) << " " << polyWHoles << std::endl;
- if(is_45(polyWHoles) != true) return 1;
- scale_down(polyWHoles, 3);
- std::cout << is_45(polyWHoles) << " " << polyWHoles << std::endl;
- if(is_45(polyWHoles) != true) return 1;
- scale_down(polyWHoles, 2);
- std::cout << is_45(polyWHoles) << " " << polyWHoles << std::endl;
- if(is_45(polyWHoles) != true) return 1;
- scale_down(polyWHoles, 3);
- std::cout << is_45(polyWHoles) << " " << polyWHoles << std::endl;
- if(is_45(polyWHoles) != true) return 1;
- scale_down(polyWHoles, 2);
- std::cout << is_45(polyWHoles) << " " << polyWHoles << std::endl;
- if(is_45(polyWHoles) != true) return 1;
- scale_down(polyWHoles, 3);
- std::cout << is_45(polyWHoles) << " " << polyWHoles << std::endl;
- if(is_45(polyWHoles) != true) return 1;
- scale_down(polyWHoles, 3);
- std::cout << is_45(polyWHoles) << " " << polyWHoles << std::endl;
- if(is_45(polyWHoles) != true) return 1;
- scale_down(polyWHoles, 2);
- std::cout << is_45(polyWHoles) << " " << polyWHoles << std::endl;
- if(is_45(polyWHoles) != true) return 1;
- scale_down(polyWHoles, 3);
- std::cout << is_45(polyWHoles) << " " << polyWHoles << std::endl;
- if(is_45(polyWHoles) != true) return 1;
- scale_down(polyWHoles, 2);
- std::cout << is_45(polyWHoles) << " " << polyWHoles << std::endl;
- if(is_45(polyWHoles) != true) return 1;
- scale_down(polyWHoles, 3);
- std::cout << is_45(polyWHoles) << " " << polyWHoles << std::endl;
- if(is_45(polyWHoles) != true) return 1;
- scale_down(polyWHoles, 2);
- std::cout << is_45(polyWHoles) << " " << polyWHoles << std::endl;
- if(is_45(polyWHoles) != true) return 1;
-
- std::cout << (boolean_op_45<Unit>::testScan45(std::cout)) << std::endl;
- std::cout << (polygon_45_formation<Unit>::testPolygon45Formation(std::cout)) << std::endl;
- std::cout << (polygon_45_formation<Unit>::testPolygon45Tiling(std::cout)) << std::endl;
-
-
- {
- PolygonSet ps;
- Rectangle rect;
- ps.insert(Rectangle(0, 0, 10, 10));
- std::cout << area(ps) << std::endl;
- if(area(ps) != 100) return 1;
- scale_up(ps, 3);
- std::cout << area(ps) << std::endl;
- if(area(ps) != 900) return 1;
- scale_down(ps, 2);
- std::cout << area(ps) << std::endl;
- if(area(ps) != 225) return 1;
- transform(ps, atr);
- std::vector<Rectangle> rv;
- rv.clear();
- ps.get(rv);
- if(rv.size() == 1) {
- assign(rect, rv.back());
- std::cout << rect << std::endl;
- }
- transform(ps, tr);
- rv.clear();
- ps.get(rv);
- if(rv.size() == 1) {
- assign(rect, rv.back());
- std::cout << rect << std::endl;
- }
- }
- //test polygon45set transform
- pts.clear();
- pts.push_back(Point(10, 10));
- pts.push_back(Point(15, 10));
- pts.push_back(Point(10, 15));
- polyHole.set(pts.begin(), pts.end());
- Polygon45Set ps451, ps452;
- ps451.insert(polyHole);
- ps452 = ps451;
- std::cout << (ps451 == ps452) << std::endl;
- if(ps451 != ps452) return 1;
- ps451.transform(atr);
- std::cout << (ps451 == ps452) << std::endl;
- if(ps451 == ps452) return 1;
- ps451.transform(tr);
- std::cout << (ps451 == ps452) << std::endl;
- if(ps451 != ps452) return 1;
-
- //test polygon45set area
- std::cout << area(ps451) << std::endl;
- if(area(ps451) != 12.5) return 1;
- //test polygon45set scale up down
- ps451.scale_up(3);
- std::cout << area(ps451) << std::endl;
- if(area(ps451) != 112.5) return 1;
- ps451.scale_down(2);
- std::cout << area(ps451) << std::endl;
- if(area(ps451) != 32) return 1;
- //test polygonset scalue up down
- }
- {
- std::cout << (testPolygon45SetRect()) << std::endl;
- testPolygon45SetPerterbation(); //re-enable after non-intersection fix
- testPolygon45Set();
- testPolygon45SetDORA(); //re-enable after non-intersection fix
- polygon_45_set_data<int> ps45_1, ps45_2, ps45_3;
- ps45_1.insert(rectangle_data<int>(0, 0, 10, 10));
- ps45_2.insert(rectangle_data<int>(5, 5, 15, 15));
- std::vector<polygon_45_data<int> > p45s;
- ps45_3 = ps45_1 | ps45_2;
- ps45_3.get(p45s);
- if(p45s.size()) std::cout << p45s[0] << std::endl;
- else {
- std::cout << "test failed\n";
- return 1;
- }
- p45s.clear();
- ps45_3 = ps45_1 + ps45_2;
- ps45_3.get(p45s);
- if(p45s.size()) std::cout << p45s[0] << std::endl;
- else {
- std::cout << "test failed\n";
- return 1;
- }
- p45s.clear();
- ps45_3 = ps45_1 * ps45_2;
- ps45_3.get(p45s);
- if(p45s.size()) std::cout << p45s[0] << std::endl;
- else {
- std::cout << "test failed\n";
- return 1;
- }
- p45s.clear();
- ps45_3 = ps45_1 - ps45_2;
- ps45_3.get(p45s);
- if(p45s.size()) std::cout << p45s[0] << std::endl;
- else {
- std::cout << "test failed\n";
- return 1;
- }
- p45s.clear();
- ps45_3 = ps45_1 ^ ps45_2;
- ps45_3.get(p45s);
- if(p45s.size() == 2) std::cout << p45s[0] << " " << p45s[1] << std::endl;
- else {
- std::cout << "test failed\n";
- return 1;
- }
- std::vector<point_data<int> > pts;
- pts.clear();
- pts.push_back(point_data<int>(7, 0));
- pts.push_back(point_data<int>(20, 13));
- pts.push_back(point_data<int>(0, 13));
- pts.push_back(point_data<int>(0, 0));
- polygon_45_data<int> p45_1(pts.begin(), pts.end());
- ps45_3.clear();
- ps45_3.insert(p45_1);
- p45s.clear();
- ps45_3.get(p45s);
- if(p45s.size()) std::cout << p45s[0] << std::endl;
- else {
- std::cout << "test failed\n";
- return 1;
- }
- ps45_3 += 1;
- p45s.clear();
- ps45_3.get(p45s);
- if(p45s.size()) std::cout << p45s[0] << std::endl;
- else {
- std::cout << "test failed\n";
- return 1;
- }
- ps45_3 -= 1;
- p45s.clear();
- ps45_3.get(p45s);
- if(p45s.size()) std::cout << p45s[0] << std::endl;
- else {
- std::cout << "test failed\n";
- return 1;
- }
- }
- {
- polygon_90_set_data<int> p90sd;
- p90sd.insert(rectangle_data<int>(0, 0, 10, 10));
- std::vector<rectangle_data<int> > rects;
- std::vector<polygon_90_data<int> > polys90;
- std::vector<polygon_90_with_holes_data<int> > pwhs90;
- assign(rects, p90sd);
- assign(polys90, p90sd);
- assign(pwhs90, p90sd);
- std::cout << equivalence(rects, polys90) << std::endl;
- std::cout << equivalence(pwhs90, polys90) << std::endl;
- pwhs90.clear();
- assign(pwhs90, polys90);
- std::cout << equivalence(pwhs90, polys90) << std::endl;
- }
- {
- polygon_45_set_data<int> p45sd;
- p45sd.insert(rectangle_data<int>(0, 0, 10, 10));
- std::vector<rectangle_data<int> > rects;
- std::vector<polygon_45_data<int> > polys45;
- std::vector<polygon_45_with_holes_data<int> > pwhs45;
- get_trapezoids(polys45, p45sd);
- assign(polys45, p45sd);
- assign(pwhs45, p45sd);
- std::cout << equivalence(pwhs45, polys45) << std::endl;
- pwhs45.clear();
- assign(pwhs45, polys45);
- std::cout << equivalence(pwhs45, polys45) << std::endl;
- }
- {
- polygon_set_data<int> psd;
- psd.insert(rectangle_data<int>(0, 0, 10, 10));
- std::vector<polygon_data<int> > polys;
- std::vector<polygon_with_holes_data<int> > pwhs;
- assign(polys, psd);
- assign(pwhs, psd);
- std::cout << equivalence(pwhs, polys) << std::endl;
- pwhs.clear();
- assign(pwhs, polys);
- std::cout << equivalence(pwhs, polys) << std::endl;
- }
- {
- typedef point_3d_data<int> Point3D;
- Point3D p3d1(0, 1, 3), p3d2(0, 1, 2);
- if(equivalence(p3d1, p3d2)) return 1;
- if(euclidean_distance(p3d1, p3d2) != 1) return 1;
- if(euclidean_distance(p3d1, p3d2, PROXIMAL) != 1) return 1;
- if(manhattan_distance(p3d1, p3d2) != 1) return 1;
- assign(p3d1, p3d2);
- if(!equivalence(p3d1, p3d2)) return 1;
- p3d1 = construct<Point3D>(x(p3d1), y(p3d1), z(p3d1));
- if(!equivalence(p3d1, p3d2)) return 1;
- convolve(p3d1, p3d2);
- if(equivalence(p3d1, p3d2)) return 1;
- deconvolve(p3d1, p3d2);
- if(!equivalence(p3d1, p3d2)) return 1;
- if(get(p3d1, PROXIMAL) != 2) return 1;
- scale(p3d1, anisotropic_scale_factor<double>(2, 2, 2));
- if(equivalence(p3d1, p3d2)) return 1;
- scale_down(p3d1, 2);
- if(!equivalence(p3d1, p3d2)) return 1;
- scale_up(p3d1, 2);
- if(equivalence(p3d1, p3d2)) return 1;
- scale_down(p3d1, 2);
- set(p3d1, PROXIMAL, 3);
- if(equivalence(p3d1, p3d2)) return 1;
- axis_transformation atr = axis_transformation::END;
- transform(p3d1, atr);
- if(z(p3d1) != -3) return 1;
- z(p3d1, 2);
- if(!equivalence(p3d1, p3d2)) return 1;
- }
- {
- polygon_90_set_data<int> ps1(HORIZONTAL), ps2(VERTICAL);
- ps1 += rectangle_data<int>(0, 0, 10, 120);
- assign(ps1, ps2);
- std::cout << equivalence(ps1, ps2) << std::endl;
- }
- {
- std::vector<rectangle_data<long long> > lobs, input;
- input.push_back(rectangle_data<long long>(0, 0, 10, 10));
- input.push_back(rectangle_data<long long>(10, 5, 15, 15));
- get_max_rectangles(lobs, input);
- if(lobs.size() == 3) std::cout << "max rectangles is correct\n";
- }
- {
- polygon_set_data<int> ps1, ps2, ps3;
- ps1.insert(rectangle_data<int>(0, 0, 10, 10));
- ps2.insert(rectangle_data<int>(0, 0, 15, 5));
- ps3.insert(rectangle_data<int>(0, 0, 20, 2));
- std::cout << area(ps1 + ps2) << std::endl;
- keep(ps1, 0, 100, 0, 100, 0, 100);
- if(empty(ps1)) return 1;
- rectangle_data<int> bbox;
- extents(bbox, ps1);
- std::cout << bbox << std::endl;
- //resize(ps1, 1);
- //shrink(ps1, 1);
- //bloat(ps1, 1);
- scale_up(ps1, 2);
- scale_down(ps1, 2);
- axis_transformation atr;
- transform(ps1, atr);
- std::cout << area(ps1) << std::endl;
- if(area(ps1) != 100) return 1;
- clear(ps1);
- if(!empty(ps1)) return 1;
- ps1 = ps2 * ps3;
- ps1 *= ps2;
- ps1 - ps2;
- ps1 -= ps2;
- ps1 ^ ps2;
- ps1 ^= ps2;
- ps1 | ps2;
- ps1 |= ps2;
- }
- {
- polygon_45_set_data<int> ps45_1, ps45_2;
- ps45_1.insert(rectangle_data<int>(0, 0, 10, 10));
- keep(ps45_1, 0, 1000, 0, 1000, 0, 1000);
- std::cout << area(ps45_1) << std::endl;
- std::cout << empty(ps45_1) << std::endl;
- rectangle_data<int> bbox;
- extents(bbox, ps45_1);
- std::cout << bbox << std::endl;
- resize(ps45_1, 1);
- shrink(ps45_1, 1);
- bloat(ps45_1, 1);
- scale_up(ps45_1, 2);
- scale_down(ps45_1, 2);
- axis_transformation atr;
- transform(ps45_1, atr);
- std::cout << area(ps45_1) << std::endl;
- if(area(ps45_1) != 144) return 1;
- clear(ps45_1);
- if(!empty(ps45_1)) return 1;
- }
- {
- std::vector<polygon_45_data<int> > p45v;
- p45v + p45v;
- p45v *= p45v;
- p45v += p45v;
- p45v - p45v;
- p45v -= p45v;
- p45v ^ p45v;
- p45v ^= p45v;
- p45v | p45v;
- p45v |= p45v;
- p45v + 1;
- p45v += 1;
- p45v - 1;
- p45v -= 1;
- p45v + (p45v + p45v);
- }
- {
- polygon_45_set_data<int> ps45;
- polygon_90_set_data<int> ps90;
- std::vector<polygon_90_with_holes_data<int> > p90whv;
- ps45.insert(ps90);
- ps45.insert(p90whv);
- ps45.insert(p90whv + p90whv);
-
- ps45.insert(polygon_90_with_holes_data<int>());
- polygon_with_holes_data<int> pwh;
- snap_to_45(pwh);
- }
- {
- point_data<int> pt(1,2);
- point_3d_data<int> pt3d(1,2,3);
- equivalence(pt, pt3d);
- deconvolve(pt, pt3d);
- manhattan_distance(pt, pt3d);
- move(pt, HORIZONTAL, 1);
- scale(pt, anisotropic_scale_factor<double>(2, 2, 2));
- pt = pt3d;
- }
- {
- polygon_90_set_data<int> ps90_1, ps90_2;
- ps90_1.insert(rectangle_data<int>(0, 0, 10, 10));
- keep(ps90_1, 0, 1000, 0, 1000, 0, 1000);
- std::cout << area(ps90_1) << std::endl;
- std::cout << empty(ps90_1) << std::endl;
- rectangle_data<int> bbox;
- extents(bbox, ps90_1);
- std::cout << bbox << std::endl;
- resize(ps90_1, 1);
- shrink(ps90_1, 1);
- bloat(ps90_1, 1);
- scale_up(ps90_1, 2);
- scale_down(ps90_1, 2);
- scale(ps90_1, anisotropic_scale_factor<double>(2, 2, 2));
- scale(ps90_1, anisotropic_scale_factor<double>(0.5, 0.5, 0.5));
- axis_transformation atr;
- transform(ps90_1, atr);
- std::cout << area(ps90_1) << std::endl;
- if(area(ps90_1) != 144) return 1;
- clear(ps90_1);
- if(!empty(ps90_1)) return 1;
- }
- if(!nonInteger45StessTest()) return 1;
- {
- using namespace gtl;
- typedef polygon_45_property_merge<int, int> p45pm;
- p45pm::MergeSetData msd;
- polygon_45_set_data<int> ps;
- ps += rectangle_data<int>(0, 0, 10, 10);
- p45pm::populateMergeSetData(msd, ps.begin(), ps.end(), 444);
- ps.clear();
- ps += rectangle_data<int>(5, 5, 15, 15);
- p45pm::populateMergeSetData(msd, ps.begin(), ps.end(), 333);
- std::map<std::set<int>, polygon_45_set_data<int> > result;
- p45pm::performMerge(result, msd);
- int i = 0;
- for(std::map<std::set<int>, polygon_45_set_data<int> >::iterator itr = result.begin();
- itr != result.end(); ++itr) {
- for(std::set<int>::const_iterator itr2 = (*itr).first.begin();
- itr2 != (*itr).first.end(); ++itr2) {
- std::cout << *itr2 << " ";
- } std::cout << " : ";
- std::cout << area((*itr).second) << std::endl;
- if(i == 1) {
- if(area((*itr).second) != 100) return 1;
- } else
- if(area((*itr).second) != 300) return 1;
- ++i;
- }
-
-
- property_merge_45<int, int> pm;
- pm.insert(rectangle_data<int>(0, 0, 10, 10), 444);
- pm.insert(rectangle_data<int>(5, 5, 15, 15), 333);
- std::map<std::set<int>, polygon_45_set_data<int> > mp;
- pm.merge(mp);
- i = 0;
- for(std::map<std::set<int>, polygon_45_set_data<int> >::iterator itr = mp.begin();
- itr != mp.end(); ++itr) {
- for(std::set<int>::const_iterator itr2 = (*itr).first.begin();
- itr2 != (*itr).first.end(); ++itr2) {
- std::cout << *itr2 << " ";
- } std::cout << " : ";
- std::cout << area((*itr).second) << std::endl;
- if(i == 1) {
- if(area((*itr).second) != 25) return 1;
- } else
- if(area((*itr).second) != 75) return 1;
- ++i;
- }
- std::map<std::vector<int>, polygon_45_set_data<int> > mp2;
- pm.merge(mp2);
- i = 0;
- for(std::map<std::vector<int>, polygon_45_set_data<int> >::iterator itr = mp2.begin();
- itr != mp2.end(); ++itr) {
- for(std::vector<int>::const_iterator itr2 = (*itr).first.begin();
- itr2 != (*itr).first.end(); ++itr2) {
- std::cout << *itr2 << " ";
- } std::cout << " : ";
- std::cout << area((*itr).second) << std::endl;
- if(i == 1) {
- if(area((*itr).second) != 25) return 1;
- } else
- if(area((*itr).second) != 75) return 1;
- ++i;
- }
- }
- {
- std::cout << trapezoid_arbitrary_formation<int>::testTrapezoidArbitraryFormationRect(std::cout) << std::endl;
- std::cout << trapezoid_arbitrary_formation<int>::testTrapezoidArbitraryFormationP1(std::cout) << std::endl;
- std::cout << trapezoid_arbitrary_formation<int>::testTrapezoidArbitraryFormationP2(std::cout) << std::endl;
- std::cout << trapezoid_arbitrary_formation<int>::testTrapezoidArbitraryFormationPolys(std::cout) << std::endl;
- std::cout << polygon_arbitrary_formation<int>::testPolygonArbitraryFormationSelfTouch1(std::cout) << std::endl;
- std::cout << trapezoid_arbitrary_formation<int>::testTrapezoidArbitraryFormationSelfTouch1(std::cout) << std::endl;
- typedef rectangle_data<int> Rectangle;
- polygon_set_data<int> ps;
- ps += Rectangle(0, 1, 10, 11);
- ps += Rectangle(5, 6, 15, 16);
- std::vector<polygon_data<int> > polys;
- ps.get_trapezoids(polys);
- for(unsigned int i = 0; i < polys.size(); ++i) {
- std::cout << polys[i] << std::endl;
- }
- ps.transform(axis_transformation(axis_transformation::FLIP_X));
- polys.clear();
- ps.get_trapezoids(polys);
- for(unsigned int i = 0; i < polys.size(); ++i) {
- std::cout << polys[i] << std::endl;
- }
- polys.clear();
- ps.get_trapezoids(polys, HORIZONTAL);
- for(unsigned int i = 0; i < polys.size(); ++i) {
- std::cout << polys[i] << std::endl;
- }
- }
-
- if(!test_aa_touch()) {
- std::cout << "test_aa_touch failed\n";
- return 1;
- }
- if(!test_aa_touch_ur()) {
- std::cout << "test_aa_touch_ur failed\n";
- return 1;
- }
- if(!test_aa_touch_ur()) {
- std::cout << "test_aa_touch_ur failed\n";
- return 1;
- }
- if(!test_aa_touch_r()) {
- std::cout << "test_aa_touch_r failed\n";
- return 1;
- }
- if(!test_aa_touch_boundaries()) {
- std::cout << "test_aa_touch_boundaries failed\n";
- return 1;
- }
- if(!test_aa_concept_interact()) {
- std::cout << "test_aa_concept_interact failed\n";
- return 1;
- }
-
- std::cout << "ALL TESTS COMPLETE\n";
- return 0;
-}

Modified: sandbox/gtl/boost/polygon/interval_concept.hpp
==============================================================================
--- sandbox/gtl/boost/polygon/interval_concept.hpp (original)
+++ sandbox/gtl/boost/polygon/interval_concept.hpp 2012-04-22 13:28:28 EDT (Sun, 22 Apr 2012)
@@ -47,65 +47,79 @@
             T, typename is_interval_concept<typename geometry_concept<T>::type>::type>::type type;
   };
 
+ struct y_i_get : gtl_yes {};
 
   template <typename T>
- typename interval_coordinate_type<T>::type
- get(const T& interval, direction_1d dir,
- typename enable_if<typename gtl_if<typename is_interval_concept<typename geometry_concept<T>::type>::type>::type>::type * = 0
- ) {
+ typename enable_if< typename gtl_and<
+ y_i_get,
+ typename is_interval_concept<typename geometry_concept<T>::type>::type>::type,
+ typename interval_coordinate_type<T>::type>::type
+ get(const T& interval, direction_1d dir) {
     return interval_traits<T>::get(interval, dir);
   }
 
+ struct y_i_set : gtl_yes {};
+
   template <typename T, typename coordinate_type>
- void
- set(T& interval, direction_1d dir, coordinate_type value,
- typename enable_if<typename is_mutable_interval_concept<typename geometry_concept<T>::type>::type>::type * = 0
- ) {
+ typename enable_if< typename gtl_and<
+ y_i_set,
+ typename is_mutable_interval_concept<typename geometry_concept<T>::type>::type>::type,
+ void>::type
+ set(T& interval, direction_1d dir, coordinate_type value) {
     //this may need to be refined
     interval_mutable_traits<T>::set(interval, dir, value);
     if(high(interval) < low(interval))
       interval_mutable_traits<T>::set(interval, dir.backward(), value);
   }
+
+ struct y_i_construct : gtl_yes {};
   
   template <typename T, typename T2, typename T3>
- T
- construct(T2 low_value, T3 high_value,
- typename enable_if<typename is_mutable_interval_concept<typename geometry_concept<T>::type>::type>::type * = 0
- ) {
+ typename enable_if< typename gtl_and<
+ y_i_construct,
+ typename is_mutable_interval_concept<typename geometry_concept<T>::type>::type>::type,
+ T>::type
+ construct(T2 low_value, T3 high_value) {
     if(low_value > high_value) std::swap(low_value, high_value);
     return interval_mutable_traits<T>::construct(low_value, high_value);
   }
+
+ struct y_i_copy_construct : gtl_yes {};
   
   template <typename T, typename T2>
- T
- copy_construct(const T2& interval,
- typename enable_if< typename gtl_and<typename is_mutable_interval_concept<typename geometry_concept<T>::type>::type,
- typename is_interval_concept<typename geometry_concept<T2>::type>::type>::type>::type * = 0
- ) {
- return construct<T>
- (get(interval, LOW ),
- get(interval, HIGH));
+ typename enable_if< typename gtl_and_3<
+ y_i_copy_construct,
+ typename is_mutable_interval_concept<typename geometry_concept<T>::type>::type,
+ typename is_interval_concept<typename geometry_concept<T2>::type>::type>::type,
+ T>::type
+ copy_construct(const T2& interval) {
+ return construct<T>(get(interval, LOW ), get(interval, HIGH));
   }
 
+ struct y_i_assign : gtl_yes {};
+
   template <typename T1, typename T2>
- T1 &
- assign(T1& lvalue, const T2& rvalue,
- typename enable_if< typename gtl_and< typename is_mutable_interval_concept<typename geometry_concept<T1>::type>::type,
- typename is_interval_concept<typename geometry_concept<T2>::type>::type>::type>::type * = 0) {
+ typename enable_if< typename gtl_and_3<
+ y_i_assign,
+ typename is_mutable_interval_concept<typename geometry_concept<T1>::type>::type,
+ typename is_interval_concept<typename geometry_concept<T2>::type>::type>::type,
+ T1>::type &
+ assign(T1& lvalue, const T2& rvalue) {
     lvalue = copy_construct<T1>(rvalue);
     return lvalue;
   }
 
+ struct y_i_equivalence : gtl_yes {};
+
   template <typename T, typename T2>
- bool
- equivalence(const T& interval1, const T2& interval2,
- typename enable_if< typename gtl_and< typename is_interval_concept<typename geometry_concept<T>::type>::type,
- typename is_interval_concept<typename geometry_concept<T2>::type>::type>::type>::type * = 0
- ) {
- return get(interval1, LOW) ==
- get(interval2, LOW) &&
- get(interval1, HIGH) ==
- get(interval2, HIGH);
+ typename enable_if< typename gtl_and_3<
+ y_i_equivalence,
+ typename is_interval_concept<typename geometry_concept<T>::type>::type,
+ typename is_interval_concept<typename geometry_concept<T2>::type>::type>::type,
+ bool>::type
+ equivalence(const T& interval1, const T2& interval2) {
+ return get(interval1, LOW) == get(interval2, LOW) &&
+ get(interval1, HIGH) == get(interval2, HIGH);
   }
   
   struct y_i_contains : gtl_yes {};
@@ -121,62 +135,78 @@
       return value < high(interval) && value > low(interval);
     }
   }
-
+
+ struct y_i_contains2 : gtl_yes {};
+
   template <typename interval_type, typename interval_type_2>
- bool
+ typename enable_if< typename gtl_and_3<
+ y_i_contains2,
+ typename is_interval_concept<typename geometry_concept<interval_type>::type>::type,
+ typename is_interval_concept<typename geometry_concept<interval_type_2>::type>::type>::type,
+ bool>::type
   contains(const interval_type& interval,
- const interval_type_2& value, bool consider_touch = true,
- typename enable_if< typename gtl_and< typename is_interval_concept<typename geometry_concept<interval_type>::type>::type,
- typename is_interval_concept<typename geometry_concept<interval_type_2>::type>::type>::type>::type * = 0
- ) {
+ const interval_type_2& value,
+ bool consider_touch = true) {
     return contains(interval, get(value, LOW), consider_touch) &&
       contains(interval, get(value, HIGH), consider_touch);
   }
-
+
+ struct y_i_low : gtl_yes {};
+
   // get the low coordinate
   template <typename interval_type>
- typename interval_traits<interval_type>::coordinate_type
- low(const interval_type& interval,
- typename enable_if< typename is_interval_concept<typename geometry_concept<interval_type>::type>::type>::type * = 0
- ) { return get(interval, LOW); }
+ typename enable_if< typename gtl_and<
+ y_i_low,
+ typename is_interval_concept<typename geometry_concept<interval_type>::type>::type>::type,
+ typename interval_traits<interval_type>::coordinate_type>::type
+ low(const interval_type& interval) { return get(interval, LOW); }
+
+ struct y_i_high : gtl_yes {};
 
   // get the high coordinate
   template <typename interval_type>
- typename interval_traits<interval_type>::coordinate_type
- high(const interval_type& interval,
- typename enable_if< typename is_interval_concept<typename geometry_concept<interval_type>::type>::type>::type * = 0
- ) { return get(interval, HIGH); }
+ typename enable_if< typename gtl_and<
+ y_i_high,
+ typename is_interval_concept<typename geometry_concept<interval_type>::type>::type>::type,
+ typename interval_traits<interval_type>::coordinate_type>::type
+ high(const interval_type& interval) { return get(interval, HIGH); }
+
+ struct y_i_center : gtl_yes {};
 
   // get the center coordinate
   template <typename interval_type>
- typename interval_traits<interval_type>::coordinate_type
- center(const interval_type& interval,
- typename enable_if< typename is_interval_concept<typename geometry_concept<interval_type>::type>::type>::type * = 0
- ) { return (high(interval) + low(interval))/2; }
+ typename enable_if< typename gtl_and<
+ y_i_center,
+ typename is_interval_concept<typename geometry_concept<interval_type>::type>::type>::type,
+ typename interval_traits<interval_type>::coordinate_type>::type
+ center(const interval_type& interval) { return (high(interval) + low(interval))/2; }
 
 
- struct y_i_low : gtl_yes {};
+ struct y_i_low2 : gtl_yes {};
 
   // set the low coordinate to v
   template <typename interval_type>
- typename enable_if<typename gtl_and<y_i_low, typename is_mutable_interval_concept<typename geometry_concept<interval_type>::type>::type>::type, void>::type
+ typename enable_if<typename gtl_and<y_i_low2, typename is_mutable_interval_concept<typename geometry_concept<interval_type>::type>::type>::type, void>::type
   low(interval_type& interval,
       typename interval_traits<interval_type>::coordinate_type v) { set(interval, LOW, v); }
   
- struct y_i_high : gtl_yes {};
+ struct y_i_high2 : gtl_yes {};
 
   // set the high coordinate to v
   template <typename interval_type>
- typename enable_if<typename gtl_and<y_i_high, typename is_mutable_interval_concept<typename geometry_concept<interval_type>::type>::type>::type, void>::type
+ typename enable_if<typename gtl_and<y_i_high2, typename is_mutable_interval_concept<typename geometry_concept<interval_type>::type>::type>::type, void>::type
   high(interval_type& interval,
       typename interval_traits<interval_type>::coordinate_type v) { set(interval, HIGH, v); }
-
+
+ struct y_i_delta : gtl_yes {};
+
   // get the magnitude of the interval
   template <typename interval_type>
- typename interval_difference_type<interval_type>::type
- delta(const interval_type& interval,
- typename enable_if< typename is_interval_concept<typename geometry_concept<interval_type>::type>::type>::type * = 0
- ) {
+ typename enable_if< typename gtl_and<
+ y_i_delta,
+ typename is_interval_concept<typename geometry_concept<interval_type>::type>::type>::type,
+ typename interval_difference_type<interval_type>::type >::type
+ delta(const interval_type& interval) {
     typedef typename coordinate_traits<typename interval_traits<interval_type>::coordinate_type>::coordinate_difference diffT;
     return (diffT)high(interval) - (diffT)low(interval); }
 
@@ -234,14 +264,16 @@
     high(interval, (newHigh));
     return interval;
   }
-
+
+ struct y_i_move : gtl_yes {};
+
   // move interval by delta
   template <typename interval_type>
- interval_type&
- move(interval_type& interval,
- typename interval_difference_type<interval_type>::type displacement,
- typename enable_if<typename is_mutable_interval_concept<typename geometry_concept<interval_type>::type>::type>::type * = 0
- ) {
+ typename enable_if< typename gtl_and<
+ y_i_move,
+ typename is_mutable_interval_concept<typename geometry_concept<interval_type>::type>::type>::type,
+ interval_type>::type &
+ move(interval_type& interval, typename interval_difference_type<interval_type>::type displacement) {
     typedef typename interval_traits<interval_type>::coordinate_type ctype;
     typedef typename coordinate_traits<ctype>::coordinate_difference Unit;
     Unit len = delta(interval);
@@ -520,25 +552,27 @@
     return bloat(interval, dir, -shrinking);
   }
 
+ struct y_i_encompass : gtl_yes {};
+
   // Enlarge `this` Interval to encompass the specified Interval
   template <typename interval_type, typename interval_type_2>
- bool
- encompass(interval_type& interval, const interval_type_2& b,
- typename enable_if<
- typename gtl_and< typename is_mutable_interval_concept<typename geometry_concept<interval_type>::type>::type,
- typename is_interval_concept<typename geometry_concept<interval_type_2>::type>::type>::type>::type * = 0
- ) {
+ typename enable_if< typename gtl_and_3<
+ y_i_encompass,
+ typename is_mutable_interval_concept<typename geometry_concept<interval_type>::type>::type,
+ typename is_interval_concept<typename geometry_concept<interval_type_2>::type>::type>::type,
+ bool>::type
+ encompass(interval_type& interval, const interval_type_2& b) {
     bool retval = !contains(interval, b, true);
     low(interval, (std::min)(low(interval), low(b)));
     high(interval, (std::max)(high(interval), high(b)));
     return retval;
   }
 
- struct y_i_encompass : gtl_yes {};
+ struct y_i_encompass2 : gtl_yes {};
 
   // Enlarge `this` Interval to encompass the specified Interval
   template <typename interval_type>
- typename enable_if< typename gtl_and<y_i_encompass, typename is_mutable_interval_concept<typename geometry_concept<interval_type>::type>::type>::type,
+ typename enable_if< typename gtl_and<y_i_encompass2, typename is_mutable_interval_concept<typename geometry_concept<interval_type>::type>::type>::type,
                        bool>::type
   encompass(interval_type& interval, typename interval_traits<interval_type>::coordinate_type b) {
     bool retval = !contains(interval, b, true);

Modified: sandbox/gtl/boost/polygon/point_concept.hpp
==============================================================================
--- sandbox/gtl/boost/polygon/point_concept.hpp (original)
+++ sandbox/gtl/boost/polygon/point_concept.hpp 2012-04-22 13:28:28 EDT (Sun, 22 Apr 2012)
@@ -62,36 +62,42 @@
             T, typename is_point_concept<typename geometry_concept<T>::type>::type>::type type;
   };
 
+ struct y_pt_get : gtl_yes {};
+
   template <typename T>
- typename point_coordinate_type<T>::type
- get(const T& point, orientation_2d orient,
- typename enable_if< typename gtl_if<typename is_point_concept<typename geometry_concept<T>::type>::type>::type>::type * = 0
- ) {
+ typename enable_if< typename gtl_and<y_pt_get, typename gtl_if<typename is_point_concept<typename geometry_concept<T>::type>::type>::type>::type,
+ typename point_coordinate_type<T>::type >::type
+ get(const T& point, orientation_2d orient) {
     return point_traits<T>::get(point, orient);
   }
-
+
+ struct y_pt_set : gtl_yes {};
+
   template <typename T, typename coordinate_type>
- void
- set(T& point, orientation_2d orient, coordinate_type value,
- typename enable_if<typename is_mutable_point_concept<typename geometry_concept<T>::type>::type>::type * = 0
- ) {
+ typename enable_if< typename gtl_and<y_pt_set, typename gtl_if<typename is_mutable_point_concept<typename geometry_concept<T>::type>::type>::type>::type,
+ void>::type
+ set(T& point, orientation_2d orient, coordinate_type value) {
     point_mutable_traits<T>::set(point, orient, value);
   }
-
+
+ struct y_pt_construct : gtl_yes {};
+
   template <typename T, typename coordinate_type1, typename coordinate_type2>
- T
- construct(coordinate_type1 x_value, coordinate_type2 y_value,
- typename enable_if<typename is_mutable_point_concept<typename geometry_concept<T>::type>::type>::type * = 0
- ) {
+ typename enable_if< typename gtl_and<y_pt_construct, typename gtl_if<typename is_mutable_point_concept<typename geometry_concept<T>::type>::type>::type>::type,
+ T>::type
+ construct(coordinate_type1 x_value, coordinate_type2 y_value) {
     return point_mutable_traits<T>::construct(x_value, y_value);
   }
 
+ struct y_pt_assign : gtl_yes {};
+
   template <typename T1, typename T2>
- T1&
- assign(T1& lvalue, const T2& rvalue,
- typename enable_if< typename gtl_and< typename is_mutable_point_concept<typename geometry_concept<T1>::type>::type,
- typename is_point_concept<typename geometry_concept<T2>::type>::type>::type>::type * = 0
- ) {
+ typename enable_if<typename gtl_and_3<
+ y_pt_assign,
+ typename is_mutable_point_concept<typename geometry_concept<T1>::type>::type,
+ typename is_point_concept<typename geometry_concept<T2>::type>::type>::type,
+ T1>::type &
+ assign(T1& lvalue, const T2& rvalue) {
     set(lvalue, HORIZONTAL, get(rvalue, HORIZONTAL));
     set(lvalue, VERTICAL, get(rvalue, VERTICAL));
     return lvalue;
@@ -133,12 +139,14 @@
     set(point, VERTICAL, value);
   }
 
+ struct y_pt_equiv : gtl_yes {};
+
   template <typename T, typename T2>
- bool
- equivalence(const T& point1, const T2& point2,
- typename enable_if< typename gtl_and<typename gtl_same_type<point_concept, typename geometry_concept<T>::type>::type,
- typename is_point_concept<typename geometry_concept<T2>::type>::type>::type>::type * = 0
- ) {
+ typename enable_if<typename gtl_and_3<y_pt_equiv,
+ typename gtl_same_type<point_concept, typename geometry_concept<T>::type>::type,
+ typename is_point_concept<typename geometry_concept<T2>::type>::type>::type,
+ bool>::type
+ equivalence(const T& point1, const T2& point2) {
     typename point_traits<T>::coordinate_type x1 = x(point1);
     typename point_traits<T2>::coordinate_type x2 = get(point2, HORIZONTAL);
     typename point_traits<T>::coordinate_type y1 = get(point1, VERTICAL);
@@ -146,18 +154,22 @@
     return x1 == x2 && y1 == y2;
   }
 
+ struct y_pt_man_dist : gtl_yes {};
+
   template <typename point_type_1, typename point_type_2>
- typename point_difference_type<point_type_1>::type
- manhattan_distance(const point_type_1& point1, const point_type_2& point2,
- typename enable_if< typename gtl_and<typename gtl_same_type<point_concept, typename geometry_concept<point_type_1>::type>::type,
- typename is_point_concept<typename geometry_concept<point_type_2>::type>::type>::type>::type * = 0) {
+ typename enable_if< typename gtl_and_3<
+ y_pt_man_dist,
+ typename gtl_same_type<point_concept, typename geometry_concept<point_type_1>::type>::type,
+ typename is_point_concept<typename geometry_concept<point_type_2>::type>::type>::type,
+ typename point_difference_type<point_type_1>::type>::type
+ manhattan_distance(const point_type_1& point1, const point_type_2& point2) {
     return euclidean_distance(point1, point2, HORIZONTAL) + euclidean_distance(point1, point2, VERTICAL);
   }
   
- struct y_i_ed1 : gtl_yes {};
+ struct y_pt_ed1 : gtl_yes {};
 
   template <typename point_type_1, typename point_type_2>
- typename enable_if< typename gtl_and_3<y_i_ed1, typename is_point_concept<typename geometry_concept<point_type_1>::type>::type,
+ typename enable_if< typename gtl_and_3<y_pt_ed1, typename is_point_concept<typename geometry_concept<point_type_1>::type>::type,
   typename is_point_concept<typename geometry_concept<point_type_2>::type>::type>::type,
   typename point_difference_type<point_type_1>::type>::type
   euclidean_distance(const point_type_1& point1, const point_type_2& point2, orientation_2d orient) {
@@ -166,23 +178,26 @@
     return return_value < 0 ? (typename coordinate_traits<typename point_traits<point_type_1>::coordinate_type>::coordinate_difference)-return_value : return_value;
   }
   
- struct y_i_ed2 : gtl_yes {};
+ struct y_pt_ed2 : gtl_yes {};
 
   template <typename point_type_1, typename point_type_2>
- typename enable_if< typename gtl_and_3<y_i_ed2, typename gtl_same_type<point_concept, typename geometry_concept<point_type_1>::type>::type,
+ typename enable_if< typename gtl_and_3<y_pt_ed2, typename gtl_same_type<point_concept, typename geometry_concept<point_type_1>::type>::type,
   typename gtl_same_type<point_concept, typename geometry_concept<point_type_2>::type>::type>::type,
   typename point_distance_type<point_type_1>::type>::type
   euclidean_distance(const point_type_1& point1, const point_type_2& point2) {
     typedef typename point_traits<point_type_1>::coordinate_type Unit;
     return sqrt((double)(distance_squared(point1, point2)));
   }
+
+ struct y_pt_eds : gtl_yes {};
   
   template <typename point_type_1, typename point_type_2>
- typename point_difference_type<point_type_1>::type
- distance_squared(const point_type_1& point1, const point_type_2& point2,
- typename enable_if< typename gtl_and<typename is_point_concept<typename geometry_concept<point_type_1>::type>::type,
- typename is_point_concept<typename geometry_concept<point_type_2>::type>::type>::type>::type * = 0
- ) {
+ typename enable_if< typename gtl_and_3<
+ y_pt_eds,
+ typename is_point_concept<typename geometry_concept<point_type_1>::type>::type,
+ typename is_point_concept<typename geometry_concept<point_type_2>::type>::type>::type,
+ typename point_difference_type<point_type_1>::type>::type
+ distance_squared(const point_type_1& point1, const point_type_2& point2) {
     typedef typename point_traits<point_type_1>::coordinate_type Unit;
     typename coordinate_traits<Unit>::coordinate_difference dx = euclidean_distance(point1, point2, HORIZONTAL);
     typename coordinate_traits<Unit>::coordinate_difference dy = euclidean_distance(point1, point2, VERTICAL);
@@ -191,44 +206,52 @@
     return dx + dy;
   }
 
+ struct y_pt_convolve : gtl_yes {};
+
   template <typename point_type_1, typename point_type_2>
- point_type_1 &
- convolve(point_type_1& lvalue, const point_type_2& rvalue,
- typename enable_if< typename gtl_and<typename is_mutable_point_concept<typename geometry_concept<point_type_1>::type>::type,
- typename is_point_concept<typename geometry_concept<point_type_2>::type>::type>::type>::type * = 0
- ) {
+ typename enable_if< typename gtl_and_3<
+ y_pt_convolve,
+ typename is_mutable_point_concept<typename geometry_concept<point_type_1>::type>::type,
+ typename is_point_concept<typename geometry_concept<point_type_2>::type>::type>::type,
+ point_type_1>::type &
+ convolve(point_type_1& lvalue, const point_type_2& rvalue) {
     x(lvalue, x(lvalue) + x(rvalue));
     y(lvalue, y(lvalue) + y(rvalue));
     return lvalue;
   }
-
+
+ struct y_pt_deconvolve : gtl_yes {};
+
   template <typename point_type_1, typename point_type_2>
- point_type_1 &
- deconvolve(point_type_1& lvalue, const point_type_2& rvalue,
- typename enable_if< typename gtl_and<typename is_mutable_point_concept<typename geometry_concept<point_type_1>::type>::type,
- typename is_point_concept<typename geometry_concept<point_type_2>::type>::type>::type>::type * = 0
- ) {
+ typename enable_if< typename gtl_and_3<
+ y_pt_deconvolve,
+ typename is_mutable_point_concept<typename geometry_concept<point_type_1>::type>::type,
+ typename is_point_concept<typename geometry_concept<point_type_2>::type>::type>::type,
+ point_type_1>::type &
+ deconvolve(point_type_1& lvalue, const point_type_2& rvalue) {
     x(lvalue, x(lvalue) - x(rvalue));
     y(lvalue, y(lvalue) - y(rvalue));
     return lvalue;
   }
+
+ struct y_pt_scale_up : gtl_yes {};
   
   template <typename point_type, typename coord_type>
- point_type &
- scale_up(point_type& point, coord_type factor,
- typename enable_if<typename is_mutable_point_concept<typename geometry_concept<point_type>::type>::type>::type * = 0
- ) {
+ typename enable_if< typename gtl_and<y_pt_scale_up, typename is_mutable_point_concept<typename geometry_concept<point_type>::type>::type>::type,
+ point_type>::type &
+ scale_up(point_type& point, coord_type factor) {
     typedef typename point_traits<point_type>::coordinate_type Unit;
     x(point, x(point) * (Unit)factor);
     y(point, y(point) * (Unit)factor);
     return point;
   }
 
+ struct y_pt_scale_down : gtl_yes {};
+
   template <typename point_type, typename coord_type>
- point_type &
- scale_down(point_type& point, coord_type factor,
- typename enable_if<typename is_mutable_point_concept<typename geometry_concept<point_type>::type>::type>::type * = 0
- ) {
+ typename enable_if< typename gtl_and<y_pt_scale_down, typename is_mutable_point_concept<typename geometry_concept<point_type>::type>::type>::type,
+ point_type>::type &
+ scale_down(point_type& point, coord_type factor) {
     typedef typename point_traits<point_type>::coordinate_type Unit;
     typedef typename coordinate_traits<Unit>::coordinate_distance dt;
     x(point, scaling_policy<Unit>::round((dt)((dt)(x(point)) / (dt)factor)));
@@ -236,12 +259,12 @@
     return point;
   }
 
+ struct y_pt_scale : gtl_yes {};
+
   template <typename point_type, typename scaling_type>
- point_type &
- scale(point_type& point,
- const scaling_type& scaling,
- typename enable_if<typename is_mutable_point_concept<typename geometry_concept<point_type>::type>::type>::type * = 0
- ) {
+ typename enable_if< typename gtl_and<y_pt_scale, typename is_mutable_point_concept<typename geometry_concept<point_type>::type>::type>::type,
+ point_type>::type &
+ scale(point_type& point, const scaling_type& scaling) {
     typedef typename point_traits<point_type>::coordinate_type Unit;
     Unit x_(x(point)), y_(y(point));
     scaling.scale(x_, y_);
@@ -250,11 +273,12 @@
     return point;
   }
 
+ struct y_pt_transform : gtl_yes {};
+
   template <typename point_type, typename transformation_type>
- point_type &
- transform(point_type& point, const transformation_type& transformation,
- typename enable_if<typename is_mutable_point_concept<typename geometry_concept<point_type>::type>::type>::type * = 0
- ) {
+ typename enable_if< typename gtl_and<y_pt_transform, typename is_mutable_point_concept<typename geometry_concept<point_type>::type>::type>::type,
+ point_type>::type &
+ transform(point_type& point, const transformation_type& transformation) {
     typedef typename point_traits<point_type>::coordinate_type Unit;
     Unit x_(x(point)), y_(y(point));
     transformation.transform(x_, y_);
@@ -266,15 +290,10 @@
   struct y_pt_move : gtl_yes {};
 
   template <typename point_type>
- typename enable_if<
- typename gtl_and< y_pt_move,
- typename is_mutable_point_concept<
- typename geometry_concept<point_type>::type>::type>::type,
- point_type>::type &
+ typename enable_if< typename gtl_and<y_pt_move, typename is_mutable_point_concept<typename geometry_concept<point_type>::type>::type>::type,
+ point_type>::type &
   move(point_type& point, orientation_2d orient,
- typename point_traits<point_type>::coordinate_type displacement,
- typename enable_if<typename is_mutable_point_concept<typename geometry_concept<point_type>::type>::type>::type * = 0
- ) {
+ typename point_traits<point_type>::coordinate_type displacement) {
     typedef typename point_traits<point_type>::coordinate_type Unit;
     Unit v(get(point, orient));
     set(point, orient, v + displacement);

Modified: sandbox/gtl/boost/polygon/polygon_90_set_concept.hpp
==============================================================================
--- sandbox/gtl/boost/polygon/polygon_90_set_concept.hpp (original)
+++ sandbox/gtl/boost/polygon/polygon_90_set_concept.hpp 2012-04-22 13:28:28 EDT (Sun, 22 Apr 2012)
@@ -460,24 +460,27 @@
     return polygon_set;
   }
 
+ struct y_p_s_move : gtl_yes {};
+
   //move
   template <typename polygon_set_type>
- polygon_set_type&
+ typename enable_if< typename gtl_and<y_p_s_move, typename gtl_if<typename is_mutable_polygon_90_set_type<polygon_set_type>::type>::type>::type,
+ polygon_set_type>::type &
   move(polygon_set_type& polygon_set,
- orientation_2d orient, typename polygon_90_set_traits<polygon_set_type>::coordinate_type displacement,
- typename enable_if< typename is_mutable_polygon_90_set_type<polygon_set_type>::type>::type * = 0) {
+ orientation_2d orient, typename polygon_90_set_traits<polygon_set_type>::coordinate_type displacement) {
     if(orient == HORIZONTAL)
       return move(polygon_set, displacement, 0);
     else
       return move(polygon_set, 0, displacement);
   }
 
+ struct y_p_s_move2 : gtl_yes {};
+
   template <typename polygon_set_type>
- polygon_set_type&
+ typename enable_if< typename gtl_and<y_p_s_move2, typename gtl_if<typename is_mutable_polygon_90_set_type<polygon_set_type>::type>::type>::type,
+ polygon_set_type>::type &
   move(polygon_set_type& polygon_set, typename polygon_90_set_traits<polygon_set_type>::coordinate_type x_displacement,
- typename polygon_90_set_traits<polygon_set_type>::coordinate_type y_displacement,
- typename enable_if< typename is_mutable_polygon_90_set_type<polygon_set_type>::type>::type * = 0
- ) {
+ typename polygon_90_set_traits<polygon_set_type>::coordinate_type y_displacement) {
     typedef typename polygon_90_set_traits<polygon_set_type>::coordinate_type Unit;
     polygon_90_set_data<Unit> ps;
     assign(ps, polygon_set);

Modified: sandbox/gtl/boost/polygon/rectangle_concept.hpp
==============================================================================
--- sandbox/gtl/boost/polygon/rectangle_concept.hpp (original)
+++ sandbox/gtl/boost/polygon/rectangle_concept.hpp 2012-04-22 13:28:28 EDT (Sun, 22 Apr 2012)
@@ -83,12 +83,13 @@
       T, typename is_rectangle_concept<typename geometry_concept<T>::type>::type>::type type;
   };
 
+ struct y_r_get_interval : gtl_yes {};
+
   template <typename T>
- typename rectangle_interval_type<T>::type
- get(const T& rectangle, orientation_2d orient,
- typename enable_if< typename gtl_if<typename is_rectangle_concept<typename geometry_concept<T>::type>::type>::type>::type * = 0
- ) {
- return rectangle_traits<T>::get(rectangle, orient);
+ typename enable_if< typename gtl_and<y_r_get_interval, typename gtl_if<typename is_rectangle_concept<typename geometry_concept<T>::type>::type>::type>::type,
+ typename rectangle_traits<T>::interval_type>::type
+ get(const T& rectangle, orientation_2d orient) {
+ return rectangle_traits<T>::get(rectangle, orient);
   }
 
   struct y_r_h : gtl_yes {};
@@ -374,14 +375,15 @@
     vertical(rectangle, construct<typename rectangle_traits<rectangle_type>::interval_type>(y1, y2));
     return rectangle;
   }
-
+
+ struct y_r_move : gtl_yes {};
+
   // move rectangle by delta in orient
   template <typename rectangle_type>
- rectangle_type&
+ typename enable_if< typename gtl_and<y_r_move, typename gtl_if<typename is_mutable_rectangle_concept<typename geometry_concept<rectangle_type>::type>::type>::type>::type,
+ rectangle_type>::type &
   move(rectangle_type& rectangle, orientation_2d orient,
- typename coordinate_traits<typename rectangle_traits<rectangle_type>::coordinate_type>::coordinate_difference delta,
- typename enable_if<typename is_mutable_rectangle_concept<typename geometry_concept<rectangle_type>::type>::type>::type * = 0
- ) {
+ typename coordinate_traits<typename rectangle_traits<rectangle_type>::coordinate_type>::coordinate_difference delta) {
     typename rectangle_traits<rectangle_type>::interval_type ivl = get(rectangle, orient);
     move(ivl, delta);
     set(rectangle, orient, ivl);
@@ -526,13 +528,14 @@
   half_perimeter(const rectangle_type& rectangle) {
     return delta(rectangle, HORIZONTAL) + delta(rectangle, VERTICAL);
   }
-
+
+ struct y_r_perimeter : gtl_yes {};
+
   // get the perimeter of the rectangle
   template <typename rectangle_type>
- typename rectangle_difference_type<rectangle_type>::type
- perimeter(const rectangle_type& rectangle,
- typename enable_if< typename is_rectangle_concept<typename geometry_concept<rectangle_type>::type>::type>::type * = 0
- ) {
+ typename enable_if< typename gtl_and<y_r_perimeter, typename gtl_if<typename is_rectangle_concept<typename geometry_concept<rectangle_type>::type>::type>::type>::type,
+ typename rectangle_difference_type<rectangle_type>::type>::type
+ perimeter(const rectangle_type& rectangle) {
     return 2 * half_perimeter(rectangle);
   }
 
@@ -742,12 +745,12 @@
 
   // encompass interval on orient
   template <typename rectangle_type, typename interval_type>
- typename enable_if<
- typename gtl_and_3<y_r_encompass, typename is_mutable_rectangle_concept<typename geometry_concept<rectangle_type>::type>::type,
- typename is_interval_concept<typename geometry_concept<interval_type>::type>::type>::type,
- bool>::type
- encompass(rectangle_type& rectangle, const interval_type& b,
- orientation_2d orient) {
+ typename enable_if<typename gtl_and_3<
+ y_r_encompass,
+ typename is_mutable_rectangle_concept<typename geometry_concept<rectangle_type>::type>::type,
+ typename is_interval_concept<typename geometry_concept<interval_type>::type>::type>::type,
+ bool>::type
+ encompass(rectangle_type& rectangle, const interval_type& b, orientation_2d orient) {
     typename rectangle_traits<rectangle_type>::interval_type ivl = get(rectangle, orient);
     if(encompass(ivl, b)) {
       set(rectangle, orient, ivl);
@@ -760,12 +763,12 @@
 
   // enlarge rectangle to encompass the Rectangle b
   template <typename rectangle_type_1, typename rectangle_type_2>
- bool
- encompass(rectangle_type_1& rectangle, const rectangle_type_2& b,
- typename enable_if< typename gtl_and_3<y_r_encompass2,
- typename is_mutable_rectangle_concept<typename geometry_concept<rectangle_type_1>::type>::type,
- typename is_rectangle_concept<typename geometry_concept<rectangle_type_2>::type>::type >::type>::type * = 0
- ) {
+ typename enable_if< typename gtl_and_3<
+ y_r_encompass2,
+ typename is_mutable_rectangle_concept<typename geometry_concept<rectangle_type_1>::type>::type,
+ typename is_rectangle_concept<typename geometry_concept<rectangle_type_2>::type>::type >::type,
+ bool>::type
+ encompass(rectangle_type_1& rectangle, const rectangle_type_2& b) {
     //note that operator | is intentional because both should be called regardless
     return encompass(rectangle, horizontal(b), HORIZONTAL) |
       encompass(rectangle, vertical(b), VERTICAL);
@@ -775,15 +778,12 @@
 
   // enlarge rectangle to encompass the point b
   template <typename rectangle_type_1, typename point_type>
- typename enable_if<
- typename gtl_and_3<y_r_encompass3, typename is_mutable_rectangle_concept<typename geometry_concept<rectangle_type_1>::type>::type,
- typename is_point_concept<typename geometry_concept<point_type>::type>::type>::type,
- bool>::type
- encompass(rectangle_type_1& rectangle, const point_type& b,
- typename enable_if<
- typename gtl_and< typename is_mutable_rectangle_concept<typename geometry_concept<rectangle_type_1>::type>::type,
- typename is_point_concept<typename geometry_concept<point_type>::type>::type>::type>::type * = 0
- ) {
+ typename enable_if<typename gtl_and_3<
+ y_r_encompass3,
+ typename is_mutable_rectangle_concept<typename geometry_concept<rectangle_type_1>::type>::type,
+ typename is_point_concept<typename geometry_concept<point_type>::type>::type>::type,
+ bool>::type
+ encompass(rectangle_type_1& rectangle, const point_type& b) {
     typename rectangle_traits<rectangle_type_1>::interval_type hivl, vivl;
     hivl = horizontal(rectangle);
     vivl = vertical(rectangle);

Modified: sandbox/gtl/libs/polygon/test/gtl_boost_unit_test.cpp
==============================================================================
--- sandbox/gtl/libs/polygon/test/gtl_boost_unit_test.cpp (original)
+++ sandbox/gtl/libs/polygon/test/gtl_boost_unit_test.cpp 2012-04-22 13:28:28 EDT (Sun, 22 Apr 2012)
@@ -13,6 +13,18 @@
 #include <stdlib.h>
 
 namespace boost { namespace polygon{
+ void addpoly(polygon_45_set_data<int>& pset,
+ int* pts, int numpts) {
+ std::vector<point_data<int> > mppts;
+ for(unsigned int i = 0; i < numpts*2; i += 2) {
+ point_data<int> pt(pts[i], pts[i+1]);
+ mppts.push_back(pt);
+ }
+ polygon_45_data<int> poly;
+ poly.set(mppts.begin(), mppts.end());
+ pset += poly;
+ }
+
 
   template <class T>
   std::ostream& operator << (std::ostream& o, const interval_data<T>& i)
@@ -3473,10 +3485,11 @@
     pts.push_back(point_data<int>(-1, -1));
     pts.push_back(point_data<int>(12, -1));
     set_points(poly, pts.begin(), pts.end());
- if(!equivalence(ps, poly)) {
- std::cout << "test general resize up with holes failed\n";
- return 1;
- }
+ //waived
+ //if(!equivalence(ps, poly)) {
+ // std::cout << "test general resize up with holes failed\n";
+ // return 1;
+ //}
     //waived
     //if(!equivalence(ps, ps45)) {
     // std::cout << "test 45 vs general resize up with holes failed\n";
@@ -3496,6 +3509,132 @@
     }
   }
 
+ {
+
+ Point pts[] = {construct<Point>(1565, 5735),
+ construct<Point>(915, 5735),
+ construct<Point>(915, 7085),
+ construct<Point>(1565, 7085) };
+ Polygon poly;
+ set_points(poly, pts, pts+4);
+ bool ret=gtl::contains(poly,gtl::construct<Point>(920, 7080));
+ if(!ret) {
+ std::cout << "contains failed!" << std::endl;
+ return 1;
+ }
+ polygon_data<int> poly_aa;
+ set_points(poly_aa, pts, pts+4);
+ ret=gtl::contains(poly,gtl::construct<Point>(920, 7080));
+ if(!ret) {
+ std::cout << "contains 90 failed!" << std::endl;
+ return 1;
+ }
+ polygon_with_holes_data<int> pwh;
+ polygon_90_with_holes_data<int> p90wh;
+ Point pts2[] = {construct<Point>(565, 15735),
+ construct<Point>(15, 15735),
+ construct<Point>(15, 17085),
+ construct<Point>(565, 17085) };
+ set_points(pwh, pts2, pts2+4);
+ set_points(p90wh, pts2, pts2+4);
+ pwh.set_holes(&poly_aa, (&poly_aa)+1);
+ p90wh.set_holes(&poly, (&poly)+1);
+ ret=gtl::contains(pwh,gtl::construct<Point>(920, 7080));
+ if(ret) {
+ std::cout << "contains wh failed!" << std::endl;
+ return 1;
+ }
+ ret=gtl::contains(p90wh,gtl::construct<Point>(920, 7080));
+ if(ret) {
+ std::cout << "contains 90wh failed!" << std::endl;
+ return 1;
+ }
+ std::reverse(pts, pts+4);
+ set_points(poly, pts, pts+4);
+ ret=gtl::contains(poly,gtl::construct<Point>(920, 7080));
+ if(!ret) {
+ std::cout << "reverse contains failed!" << std::endl;
+ return 1;
+ }
+ }
+ {
+// //MULTIPOLYGON
+// (
+// ((200 400,100 400,100 300,200 400)),
+// ((300 100,200 100,200 0,300 0,300 100)),
+// ((600 700,500 700,500 600,600 700)),
+// ((700 300,600 300,600 200,700 300)),
+// ((800 500,700 600,700 500,800 500)),
+// ((900 800,800 700,900 700,900 800)),
+// ((1000 200,900 100,1000 100,1000 200)),
+// ((1000 800,900 900,900 800,1000 800))),
+ int mp1 [7][2*4] = {
+ {200,400,100,400,100,300,200,400},
+ {600,700,500,700,500,600,600,700},
+ {700,300,600,300,600,200,700,300},
+ {800,500,700,600,700,500,800,500},
+ {900,800,800,700,900,700,900,800},
+ {1000,200,900,100,1000,100,1000,200},
+ {1000,800,900,900,900,800,1000,800}
+ };
+ int mp11 [2*5] = {300,100,200,100,200,0,300,0,300,100};
+ polygon_45_set_data<int> pset1;
+ polygon_45_set_data<int> pset2;
+ for(int i = 0; i < 7; ++i) {
+ addpoly(pset1, mp1[i], 4);
+ }
+ addpoly(pset1, mp11, 5);
+// //MULTIPOLYGON
+// (
+// ((200 800,100 800,100 700,200 700,200 800)),
+// ((400 200,300 100,400 100,400 200)),
+// ((400 800,300 700,400 700,400 800)),
+// ((700 100,600 0,700 0,700 100)),
+// ((700 200,600 200,600 100,700 200)),
+// ((900 200,800 200,800 0,900 0,900 200)),
+// ((1000 300,900 200,1000 200,1000 300)))
+ int mp2 [5][2*4] = {
+ {400,200,300,100,400,100,400,200},
+ {400,800,300,700,400,700,400,800},
+ {700,100,600,0,700,0,700,100},
+ {700,200,600,200,600,100,700,200},
+ {1000,300,900,200,1000,200,1000,300},
+ };
+ int mp21 [2*5] = {200,800,100,800,100,700,200,700,200,800};
+ int mp22 [2*5] = {900,200,800,200,800,0,900,0,900,200};
+ for(int i = 0; i < 5; ++i) {
+ addpoly(pset2, mp2[i], 4);
+ }
+ addpoly(pset2, mp21, 5);
+ addpoly(pset2, mp22, 5);
+ polygon_45_set_data<int> orr = pset1 + pset2;
+ polygon_45_set_data<int> inr = pset1 & pset2;
+ std::cout << area(orr)<<std::endl;;
+ std::cout << area(inr)<<std::endl;;
+ std::vector<polygon_45_with_holes_data<int> > polys;
+ assign(polys, orr);
+ std::cout << area(polys) << std::endl;
+ polygon_set_data<int> testbug;
+ testbug.insert(orr);
+ std::cout << area(testbug) << std::endl;
+ polygon_set_data<int> testbug2;
+ for(int i = 0; i < polys.size(); ++i) {
+ for(int j = 0; j < polys.size(); ++j) {
+ testbug2.clear();
+ testbug2.insert(polys[i]);
+ testbug2.insert(polys[j]);
+ std::cout << i << " " << j << std::endl;
+ std::cout << polys[i] << std::endl;
+ std::cout << polys[j] << std::endl;
+ if(area(testbug2) == 0.0) {
+ std::cout << area(testbug2) << std::endl;
+ std::cout << "Self touch 45 through general interface failed!\n";
+ return 1;
+ }
+ }
+ }
+ }
   std::cout << "ALL TESTS COMPLETE\n";
   return 0;
 }
+


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