boost/libs/geometry/test/algorithms/test_for_each.hpp - nest-cam/4320010/boost - Git at Google

 // Boost.Geometry (aka GGL, Generic Geometry Library)
 // Unit Test

 // Copyright (c) 2007-2012 Barend Gehrels, Amsterdam, the Netherlands.
 // Use, modification and distribution is subject to the Boost Software License,
 // Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at
 // http://www.boost.org/LICENSE_1_0.txt)

 #ifndef BOOST_GEOMETRY_TEST_FOR_EACH_HPP
 #define BOOST_GEOMETRY_TEST_FOR_EACH_HPP

 #include <geometry_test_common.hpp>

 #include <boost/config.hpp>
 #include <boost/geometry/algorithms/for_each.hpp>

 #include <boost/geometry/algorithms/distance.hpp>
 #include <boost/geometry/strategies/strategies.hpp>
 #include <boost/geometry/io/wkt/wkt.hpp>
 #include <boost/geometry/io/dsv/write.hpp>


 template<typename Point>
 inline void translate_x_function(Point& p)
 {
     bg::set<0>(p, bg::get<0>(p) + 100.0);
 }

 template<typename Point>
 struct scale_y_functor
 {
     inline void operator()(Point& p)
     {
         bg::set<1>(p, bg::get<1>(p) * 100.0);
     }
 };

 template<typename Point>
 struct sum_x_functor
 {
     typename bg::coordinate_type<Point>::type sum;

     sum_x_functor()
         : sum(0)
     {}

     inline void operator()(Point const& p)
     {
         sum += bg::get<0>(p);
     }
 };

 // Per segment
 static std::ostringstream g_out;

 template<typename Segment>
 inline void stream_segment(Segment const& s)
 {
     g_out << bg::dsv(s) << " ";
 }

 template<typename Segment>
 struct sum_segment_length
 {
     typename bg::coordinate_type<Segment>::type sum;

     sum_segment_length()
         : sum(0)
     {}
     inline void operator()(Segment const& s)
     {
         sum += bg::distance(s.first, s.second);
     }
 };

 template<typename Segment>
 inline void modify_segment(Segment& s)
 {
     if (bg::math::equals(bg::get<0,0>(s), 1.0))
     {
         bg::set<0,0>(s, 10.0);
     }
 }


 template <typename Geometry>
 void test_per_point_const(Geometry const& geometry, int expected)
 {
     typedef typename bg::point_type<Geometry>::type point_type;

     // Class (functor)
     sum_x_functor<point_type> functor;
     functor = bg::for_each_point(geometry, functor);
     BOOST_CHECK_EQUAL(functor.sum, expected);


     // Lambda
 #if !defined(BOOST_NO_CXX11_LAMBDAS)

     typename bg::coordinate_type<point_type>::type sum_x = 0;

     bg::for_each_point
         (
             geometry,
             [&sum_x](point_type const& p)
                 {
                     sum_x += bg::get<0>(p);
                 }

         );

     BOOST_CHECK_EQUAL(sum_x, expected);
 #endif
 }

 template <typename Geometry>
 void test_per_point_non_const(Geometry& geometry,
     std::string const& expected1,
     std::string const& expected2)
 {
 #if !defined(BOOST_NO_CXX11_LAMBDAS)
     Geometry copy = geometry;
 #endif

     typedef typename bg::point_type<Geometry>::type point_type;

     // function
     bg::for_each_point(geometry, translate_x_function<point_type>);
     std::ostringstream out1;
     out1 << bg::wkt(geometry);

     BOOST_CHECK_MESSAGE(out1.str() == expected1,
         "for_each_point: "
         << " expected " << expected1
         << " got " << bg::wkt(geometry));

     // functor
     bg::for_each_point(geometry, scale_y_functor<point_type>());

     std::ostringstream out2;
     out2 << bg::wkt(geometry);

     BOOST_CHECK_MESSAGE(out2.str() == expected2,
         "for_each_point: "
         << " expected " << expected2
         << " got " << bg::wkt(geometry));

 #if !defined(BOOST_NO_CXX11_LAMBDAS)
     // Lambda, both functions above together. Without / with capturing

     geometry = copy;
     bg::for_each_point
         (
             geometry,
             [](point_type& p)
                 {
                     bg::set<0>(p, bg::get<0>(p) + 100);
                 }

         );

     typename bg::coordinate_type<point_type>::type scale = 100;
     bg::for_each_point
         (
             geometry,
             [&](point_type& p)
                 {
                     bg::set<1>(p, bg::get<1>(p) * scale);
                 }

         );

     std::ostringstream out3;
     out3 << bg::wkt(geometry);

     BOOST_CHECK_MESSAGE(out3.str() == expected2,
         "for_each_point (lambda): "
         << " expected " << expected2
         << " got " << bg::wkt(geometry));
 #endif

 }


 template <typename Geometry>
 void test_per_point(std::string const& wkt
     , int expected_sum_x
     , std::string const& expected1
     , std::string const& expected2
     )
 {
     Geometry geometry;
     bg::read_wkt(wkt, geometry);
     test_per_point_const(geometry, expected_sum_x);
     test_per_point_non_const(geometry, expected1, expected2);
 }


 template <typename Geometry>
 void test_per_segment_const(Geometry const& geometry,
         std::string const& expected_dsv,
         double expected_length)
 {
     typedef typename bg::point_type<Geometry>::type point_type;

     // function
     g_out.str("");
     g_out.clear();
     bg::for_each_segment(geometry,
             stream_segment<bg::model::referring_segment<point_type const> >);
     std::string out = g_out.str();
     boost::trim(out);
     BOOST_CHECK_EQUAL(out, expected_dsv);

     // functor
     sum_segment_length<bg::model::referring_segment<point_type const> > functor;
     functor = bg::for_each_segment(geometry, functor);

     BOOST_CHECK_CLOSE(functor.sum, expected_length, 0.0001);
 }


 template <typename Geometry>
 void test_per_segment_non_const(Geometry& geometry,
         std::string const& expected_wkt)
 {
     typedef typename bg::point_type<Geometry>::type point_type;

     // function
     bg::for_each_segment(geometry,
             modify_segment<bg::model::referring_segment<point_type> >);

     std::ostringstream out;
     out << bg::wkt(geometry);

     BOOST_CHECK_MESSAGE(out.str() == expected_wkt,
         "for_each_segment: "
         << " expected " << expected_wkt
         << " got " << bg::wkt(geometry));

     // function is working here, functor works for all others,
     // it will also work here.
 }


 template <typename Geometry>
 void test_per_segment(std::string const& wkt
         , std::string const& expected_dsv
         , double expected_length
         , std::string const& expected_wkt
         )
 {
     Geometry geometry;
     bg::read_wkt(wkt, geometry);
     test_per_segment_const(geometry, expected_dsv, expected_length);
     test_per_segment_non_const(geometry, expected_wkt);
 }


 template <typename Geometry>
 void test_geometry(std::string const& wkt
     , int expected_sum_x
     , std::string const& expected1
     , std::string const& expected2
     , std::string const& expected_dsv
     , double expected_length
     , std::string const& expected_wkt
     )
 {
     test_per_point<Geometry>(wkt, expected_sum_x, expected1, expected2);
     test_per_segment<Geometry>(wkt, expected_dsv, expected_length, expected_wkt);
 }


 #endif
	// Boost.Geometry (aka GGL, Generic Geometry Library)
	// Unit Test

	// Copyright (c) 2007-2012 Barend Gehrels, Amsterdam, the Netherlands.
	// Use, modification and distribution is subject to the Boost Software License,
	// Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at
	// http://www.boost.org/LICENSE_1_0.txt)

	#ifndef BOOST_GEOMETRY_TEST_FOR_EACH_HPP
	#define BOOST_GEOMETRY_TEST_FOR_EACH_HPP

	#include <geometry_test_common.hpp>

	#include <boost/config.hpp>
	#include <boost/geometry/algorithms/for_each.hpp>

	#include <boost/geometry/algorithms/distance.hpp>
	#include <boost/geometry/strategies/strategies.hpp>
	#include <boost/geometry/io/wkt/wkt.hpp>
	#include <boost/geometry/io/dsv/write.hpp>


	template<typename Point>
	inline void translate_x_function(Point& p)
	{
	bg::set<0>(p, bg::get<0>(p) + 100.0);
	}

	template<typename Point>
	struct scale_y_functor
	{
	inline void operator()(Point& p)
	{
	bg::set<1>(p, bg::get<1>(p) * 100.0);
	}
	};

	template<typename Point>
	struct sum_x_functor
	{
	typename bg::coordinate_type<Point>::type sum;

	sum_x_functor()
	: sum(0)
	{}

	inline void operator()(Point const& p)
	{
	sum += bg::get<0>(p);
	}
	};

	// Per segment
	static std::ostringstream g_out;

	template<typename Segment>
	inline void stream_segment(Segment const& s)
	{
	g_out << bg::dsv(s) << " ";
	}

	template<typename Segment>
	struct sum_segment_length
	{
	typename bg::coordinate_type<Segment>::type sum;

	sum_segment_length()
	: sum(0)
	{}
	inline void operator()(Segment const& s)
	{
	sum += bg::distance(s.first, s.second);
	}
	};

	template<typename Segment>
	inline void modify_segment(Segment& s)
	{
	if (bg::math::equals(bg::get<0,0>(s), 1.0))
	{
	bg::set<0,0>(s, 10.0);
	}
	}


	template <typename Geometry>
	void test_per_point_const(Geometry const& geometry, int expected)
	{
	typedef typename bg::point_type<Geometry>::type point_type;

	// Class (functor)
	sum_x_functor<point_type> functor;
	functor = bg::for_each_point(geometry, functor);
	BOOST_CHECK_EQUAL(functor.sum, expected);


	// Lambda
	#if !defined(BOOST_NO_CXX11_LAMBDAS)

	typename bg::coordinate_type<point_type>::type sum_x = 0;

	bg::for_each_point
	(
	geometry,
	[&sum_x](point_type const& p)
	{
	sum_x += bg::get<0>(p);
	}

	);

	BOOST_CHECK_EQUAL(sum_x, expected);
	#endif
	}

	template <typename Geometry>
	void test_per_point_non_const(Geometry& geometry,
	std::string const& expected1,
	std::string const& expected2)
	{
	#if !defined(BOOST_NO_CXX11_LAMBDAS)
	Geometry copy = geometry;
	#endif

	typedef typename bg::point_type<Geometry>::type point_type;

	// function
	bg::for_each_point(geometry, translate_x_function<point_type>);
	std::ostringstream out1;
	out1 << bg::wkt(geometry);

	BOOST_CHECK_MESSAGE(out1.str() == expected1,
	"for_each_point: "
	<< " expected " << expected1
	<< " got " << bg::wkt(geometry));

	// functor
	bg::for_each_point(geometry, scale_y_functor<point_type>());

	std::ostringstream out2;
	out2 << bg::wkt(geometry);

	BOOST_CHECK_MESSAGE(out2.str() == expected2,
	"for_each_point: "
	<< " expected " << expected2
	<< " got " << bg::wkt(geometry));

	#if !defined(BOOST_NO_CXX11_LAMBDAS)
	// Lambda, both functions above together. Without / with capturing

	geometry = copy;
	bg::for_each_point
	(
	geometry,
	[](point_type& p)
	{
	bg::set<0>(p, bg::get<0>(p) + 100);
	}

	);

	typename bg::coordinate_type<point_type>::type scale = 100;
	bg::for_each_point
	(
	geometry,
	[&](point_type& p)
	{
	bg::set<1>(p, bg::get<1>(p) * scale);
	}

	);

	std::ostringstream out3;
	out3 << bg::wkt(geometry);

	BOOST_CHECK_MESSAGE(out3.str() == expected2,
	"for_each_point (lambda): "
	<< " expected " << expected2
	<< " got " << bg::wkt(geometry));
	#endif

	}


	template <typename Geometry>
	void test_per_point(std::string const& wkt
	, int expected_sum_x
	, std::string const& expected1
	, std::string const& expected2
	)
	{
	Geometry geometry;
	bg::read_wkt(wkt, geometry);
	test_per_point_const(geometry, expected_sum_x);
	test_per_point_non_const(geometry, expected1, expected2);
	}



	template <typename Geometry>
	void test_per_segment_const(Geometry const& geometry,
	std::string const& expected_dsv,
	double expected_length)
	{
	typedef typename bg::point_type<Geometry>::type point_type;

	// function
	g_out.str("");
	g_out.clear();
	bg::for_each_segment(geometry,
	stream_segment<bg::model::referring_segment<point_type const> >);
	std::string out = g_out.str();
	boost::trim(out);
	BOOST_CHECK_EQUAL(out, expected_dsv);

	// functor
	sum_segment_length<bg::model::referring_segment<point_type const> > functor;
	functor = bg::for_each_segment(geometry, functor);

	BOOST_CHECK_CLOSE(functor.sum, expected_length, 0.0001);
	}


	template <typename Geometry>
	void test_per_segment_non_const(Geometry& geometry,
	std::string const& expected_wkt)
	{
	typedef typename bg::point_type<Geometry>::type point_type;

	// function
	bg::for_each_segment(geometry,
	modify_segment<bg::model::referring_segment<point_type> >);

	std::ostringstream out;
	out << bg::wkt(geometry);

	BOOST_CHECK_MESSAGE(out.str() == expected_wkt,
	"for_each_segment: "
	<< " expected " << expected_wkt
	<< " got " << bg::wkt(geometry));

	// function is working here, functor works for all others,
	// it will also work here.
	}


	template <typename Geometry>
	void test_per_segment(std::string const& wkt
	, std::string const& expected_dsv
	, double expected_length
	, std::string const& expected_wkt
	)
	{
	Geometry geometry;
	bg::read_wkt(wkt, geometry);
	test_per_segment_const(geometry, expected_dsv, expected_length);
	test_per_segment_non_const(geometry, expected_wkt);
	}



	template <typename Geometry>
	void test_geometry(std::string const& wkt
	, int expected_sum_x
	, std::string const& expected1
	, std::string const& expected2
	, std::string const& expected_dsv
	, double expected_length
	, std::string const& expected_wkt
	)
	{
	test_per_point<Geometry>(wkt, expected_sum_x, expected1, expected2);
	test_per_segment<Geometry>(wkt, expected_dsv, expected_length, expected_wkt);
	}


	#endif