boost_1_45_0/libs/multi_array/test/compare.cpp - nest-learning-thermostat/5.0/boost - Git at Google

 // Copyright 2002 The Trustees of Indiana University.

 // 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)

 //  Boost.MultiArray Library
 //  Authors: Ronald Garcia
 //           Jeremy Siek
 //           Andrew Lumsdaine
 //  See http://www.boost.org/libs/multi_array for documentation.


 #include "boost/multi_array.hpp"

 #include "boost/test/minimal.hpp"

 #include <algorithm>
 #include <list>


 int
 test_main(int, char*[])
 {
   typedef boost::multi_array<double, 3> array;
   typedef array::size_type size_type;
   boost::array<size_type,3> sizes = { { 3, 3, 3 } };
   const size_type num_elements = 27;

   // Copy Constructor
   {
     array A(sizes);
     std::vector<double> vals(num_elements, 4.5);
     A.assign(vals.begin(),vals.end());
     array B(A);
     BOOST_CHECK(A == B);
     BOOST_CHECK(B == A);
     BOOST_CHECK(A[0] == B[0]);
   }
   // Assignment Operator
   {
     array A(sizes), B(sizes);
     std::vector<double> vals(num_elements, 4.5);
     A.assign(vals.begin(),vals.end());
     B = A;
     BOOST_CHECK(A == B);
     BOOST_CHECK(B == A);
     BOOST_CHECK(B[0] == A[0]);

     typedef array::index_range range;
     array::index_gen indices;
     array::array_view<2>::type C = A[indices[2][range()][range()]];
     array::array_view<2>::type D = B[indices[2][range()][range()]];
     BOOST_CHECK(C == D);
   }
   // Different Arrays
   {
     array A(sizes), B(sizes);
     std::vector<double> valsA(num_elements, 4.5);
     std::vector<double> valsB(num_elements, 2.5);
     A.assign(valsA.begin(),valsA.end());
     B.assign(valsB.begin(),valsB.end());

     BOOST_CHECK(A != B);
     BOOST_CHECK(B != A);
     BOOST_CHECK(A[0] != B[0]);

     typedef array::index_range range;
     array::index_gen indices;
     array::array_view<2>::type C = A[indices[2][range()][range()]];
     array::array_view<2>::type D = B[indices[2][range()][range()]];
     BOOST_CHECK(C != D);
   }

   // Comparisons galore!
   {
     array A(sizes), B(sizes);

     double valsA[] = {
         0, 0, 0,
         0, 0, 0,
         0, 0, 0,

         1, 1, 1,
         1, 1, 1,
         1, 1, 1,

         2, 2, 2,
         2, 2, 2,
         2, 2, 2
     };

     double valsB[] = {
         0, 0, 0,
         0, 0, 0,
         0, 0, 0,

         1, 1, 1,
         1, 1, 1,
         1, 1, 1,

         2, 2, 2,
         2, 2, 2,
         2, 2, 1
     };

     A.assign(valsA,valsA+num_elements);
     B.assign(valsB,valsB+num_elements);

     BOOST_CHECK(B < A);
     BOOST_CHECK(A > B);

     BOOST_CHECK(B <= A);
     BOOST_CHECK(A >= B);

     BOOST_CHECK(B[0] == A[0]);
     BOOST_CHECK(B[2] < A[2]);

     array C = A;

     BOOST_CHECK(C <= A);
     BOOST_CHECK(C >= A);

     BOOST_CHECK(!(C < A));
     BOOST_CHECK(!(C > A));

     typedef array::index_range range;
     array::index_gen indices;
     array::array_view<2>::type D = A[indices[2][range()][range()]];
     array::array_view<2>::type E = B[indices[2][range()][range()]];

     BOOST_CHECK(E < D);
     BOOST_CHECK(E <= D);
   }


   return boost::exit_success;
 }
	// Copyright 2002 The Trustees of Indiana University.

	// 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)

	// Boost.MultiArray Library
	// Authors: Ronald Garcia
	// Jeremy Siek
	// Andrew Lumsdaine
	// See http://www.boost.org/libs/multi_array for documentation.



	#include "boost/multi_array.hpp"

	#include "boost/test/minimal.hpp"

	#include <algorithm>
	#include <list>


	int
	test_main(int, char*[])
	{
	typedef boost::multi_array<double, 3> array;
	typedef array::size_type size_type;
	boost::array<size_type,3> sizes = { { 3, 3, 3 } };
	const size_type num_elements = 27;

	// Copy Constructor
	{
	array A(sizes);
	std::vector<double> vals(num_elements, 4.5);
	A.assign(vals.begin(),vals.end());
	array B(A);
	BOOST_CHECK(A == B);
	BOOST_CHECK(B == A);
	BOOST_CHECK(A[0] == B[0]);
	}
	// Assignment Operator
	{
	array A(sizes), B(sizes);
	std::vector<double> vals(num_elements, 4.5);
	A.assign(vals.begin(),vals.end());
	B = A;
	BOOST_CHECK(A == B);
	BOOST_CHECK(B == A);
	BOOST_CHECK(B[0] == A[0]);

	typedef array::index_range range;
	array::index_gen indices;
	array::array_view<2>::type C = A[indices[2][range()][range()]];
	array::array_view<2>::type D = B[indices[2][range()][range()]];
	BOOST_CHECK(C == D);
	}
	// Different Arrays
	{
	array A(sizes), B(sizes);
	std::vector<double> valsA(num_elements, 4.5);
	std::vector<double> valsB(num_elements, 2.5);
	A.assign(valsA.begin(),valsA.end());
	B.assign(valsB.begin(),valsB.end());

	BOOST_CHECK(A != B);
	BOOST_CHECK(B != A);
	BOOST_CHECK(A[0] != B[0]);

	typedef array::index_range range;
	array::index_gen indices;
	array::array_view<2>::type C = A[indices[2][range()][range()]];
	array::array_view<2>::type D = B[indices[2][range()][range()]];
	BOOST_CHECK(C != D);
	}

	// Comparisons galore!
	{
	array A(sizes), B(sizes);

	double valsA[] = {
	0, 0, 0,
	0, 0, 0,
	0, 0, 0,

	1, 1, 1,
	1, 1, 1,
	1, 1, 1,

	2, 2, 2,
	2, 2, 2,
	2, 2, 2
	};

	double valsB[] = {
	0, 0, 0,
	0, 0, 0,
	0, 0, 0,

	1, 1, 1,
	1, 1, 1,
	1, 1, 1,

	2, 2, 2,
	2, 2, 2,
	2, 2, 1
	};

	A.assign(valsA,valsA+num_elements);
	B.assign(valsB,valsB+num_elements);

	BOOST_CHECK(B < A);
	BOOST_CHECK(A > B);

	BOOST_CHECK(B <= A);
	BOOST_CHECK(A >= B);

	BOOST_CHECK(B[0] == A[0]);
	BOOST_CHECK(B[2] < A[2]);

	array C = A;

	BOOST_CHECK(C <= A);
	BOOST_CHECK(C >= A);

	BOOST_CHECK(!(C < A));
	BOOST_CHECK(!(C > A));

	typedef array::index_range range;
	array::index_gen indices;
	array::array_view<2>::type D = A[indices[2][range()][range()]];
	array::array_view<2>::type E = B[indices[2][range()][range()]];

	BOOST_CHECK(E < D);
	BOOST_CHECK(E <= D);
	}



	return boost::exit_success;
	}