boost_1_45_0/libs/multi_array/test/iterators.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.

 //
 // iterators.cpp - checking out iterator stuffs.
 //    The tests assume that the array has shape 2x3x4
 //

 #define MULTIARRAY_TEST_ASSIGN
 #include "generative_tests.hpp"
 #include "boost/concept_check.hpp" // for ignore_unused_variable_warning
 #include "boost/mpl/if.hpp"
 #include "boost/type_traits/is_same.hpp"

 // iterator-test-specific code

 template <typename Array>
 void assign_if_not_const(Array& A, const mutable_array_tag&) {

   typedef typename Array::iterator iterator3;
   typedef typename Array::template subarray<2>::type::iterator iterator2;
   typedef typename Array::template subarray<1>::type::iterator iterator1;

   int num = 0;
   for (iterator3 i = A.begin(); i != A.end(); ++i)
     for(iterator2 ii = (*i).begin(); ii != (*i).end(); ++ii)
       for(iterator1  iii = (*ii).begin(); iii != (*ii).end(); ++iii)
         *iii = num++;
 }


 template <typename Array>
 struct ittraits_const {
   typedef typename Array::const_iterator iterator3;
   typedef typename boost::subarray_gen<Array,2>::type::const_iterator
   iterator2;
   typedef typename boost::subarray_gen<Array,1>::type::const_iterator
   iterator1;

   typedef typename Array::const_reverse_iterator riterator3;
   typedef typename boost::subarray_gen<Array,2>::type::const_reverse_iterator
   riterator2;
   typedef typename boost::subarray_gen<Array,1>::type::const_reverse_iterator
   riterator1;
 };

 template <typename Array>
 struct ittraits_mutable {
   typedef typename Array::iterator iterator3;
   typedef typename boost::subarray_gen<Array,2>::type::iterator iterator2;
   typedef typename boost::subarray_gen<Array,1>::type::iterator iterator1;

   typedef typename Array::reverse_iterator riterator3;
   typedef typename boost::subarray_gen<Array,2>::type::reverse_iterator
   riterator2;
   typedef typename boost::subarray_gen<Array,1>::type::reverse_iterator
   riterator1;
 };


 // Meta-program chooses ittraits implementation.
 template <typename Array, typename ConstTag>
 struct ittraits_generator :
   boost::mpl::if_< boost::is_same<ConstTag,const_array_tag>,
                    ittraits_const<Array>,
                    ittraits_mutable<Array> >
 {};


 template <typename Array>
 void construct_iterators(Array&) {

   // Default constructed iterators and
   // const iterators constructed from iterators.
   {
     typename Array::iterator i1;
     typename Array::const_iterator ci1;
     typename Array::reverse_iterator r1;
     typename Array::const_reverse_iterator cr1;

 #if 0 // RG - MSVC fails to compile these
     typename Array::const_iterator ci2 =
       typename Array::iterator();
     typename Array::const_reverse_iterator cr2 =
       typename Array::reverse_iterator();
 #endif
     typename Array::const_iterator ci2 = i1;
     typename Array::const_reverse_iterator cr2 = cr1;
     boost::ignore_unused_variable_warning(cr2);
   }
 }

 template <typename Array, typename IterTraits>
 void test_iterators(Array& A, const IterTraits&) {

   // Iterator comparison and arithmetic
   {
     typedef typename IterTraits::iterator3 iterator;
     iterator i1 = A.begin();
     iterator i2 = A.end();
     BOOST_CHECK(i1 < i2);
     BOOST_CHECK((i2 - i1) == typename iterator::difference_type(2));
   }

   // Standard Array Iteration
   {
     typedef typename IterTraits::iterator3 iterator3;
     typedef typename IterTraits::iterator2 iterator2;
     typedef typename IterTraits::iterator1 iterator1;

     int vals = 0;
     for (iterator3 i = A.begin(); i != A.end(); ++i)
       for(iterator2 ii = (*i).begin(); ii != (*i).end(); ++ii)
         for(iterator1  iii = (*ii).begin(); iii != (*ii).end(); ++iii)
           BOOST_CHECK(*iii == vals++);
   }

   // Using operator->() on iterators
   {
     typedef typename IterTraits::iterator3 iterator3;
     typedef typename IterTraits::iterator2 iterator2;
     typedef typename IterTraits::iterator1 iterator1;

     int vals = 0;
     for (iterator3 i = A.begin(); i != A.end(); ++i)
       for(iterator2 ii = i->begin(); ii != i->end(); ++ii)
         for(iterator1  iii = ii->begin(); iii != ii->end(); ++iii)
           BOOST_CHECK(*iii == vals++);
   }

   // Reverse Iterator Hierarchy Test
   {
     typedef typename IterTraits::riterator3 riterator3;
     typedef typename IterTraits::riterator2 riterator2;
     typedef typename IterTraits::riterator1 riterator1;

     int check_iter_val = A.num_elements()-1;
     for (riterator3 i = A.rbegin(); i != (riterator3)A.rend(); ++i)
       for(riterator2 ii = (*i).rbegin(); ii != (riterator2)(*i).rend(); ++ii)
         for(riterator1 iii = (*ii).rbegin(); iii != (riterator1)(*ii).rend();
             ++iii)
           BOOST_CHECK(*iii == check_iter_val--);
   }
   ++tests_run;
 }


 template <typename Array>
 void access(Array& A, const mutable_array_tag&) {
   assign(A);

   construct_iterators(A);

   typedef typename ittraits_generator<Array,mutable_array_tag>::type
     m_iter_traits;

   typedef typename ittraits_generator<Array,const_array_tag>::type
     c_iter_traits;
   test_iterators(A,m_iter_traits());
   test_iterators(A,c_iter_traits());

   const Array& CA = A;
   test_iterators(CA,c_iter_traits());
 }

 template <typename Array>
 void access(Array& A, const const_array_tag&) {
   construct_iterators(A);
   typedef typename ittraits_generator<Array,const_array_tag>::type
     c_iter_traits;
   test_iterators(A,c_iter_traits());
 }


 int
 test_main(int, char*[])
 {
   return run_generative_tests();
 }
	// 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.

	//
	// iterators.cpp - checking out iterator stuffs.
	// The tests assume that the array has shape 2x3x4
	//

	#define MULTIARRAY_TEST_ASSIGN
	#include "generative_tests.hpp"
	#include "boost/concept_check.hpp" // for ignore_unused_variable_warning
	#include "boost/mpl/if.hpp"
	#include "boost/type_traits/is_same.hpp"

	// iterator-test-specific code

	template <typename Array>
	void assign_if_not_const(Array& A, const mutable_array_tag&) {

	typedef typename Array::iterator iterator3;
	typedef typename Array::template subarray<2>::type::iterator iterator2;
	typedef typename Array::template subarray<1>::type::iterator iterator1;

	int num = 0;
	for (iterator3 i = A.begin(); i != A.end(); ++i)
	for(iterator2 ii = (i).begin(); ii != (i).end(); ++ii)
	for(iterator1 iii = (ii).begin(); iii != (ii).end(); ++iii)
	*iii = num++;
	}


	template <typename Array>
	struct ittraits_const {
	typedef typename Array::const_iterator iterator3;
	typedef typename boost::subarray_gen<Array,2>::type::const_iterator
	iterator2;
	typedef typename boost::subarray_gen<Array,1>::type::const_iterator
	iterator1;

	typedef typename Array::const_reverse_iterator riterator3;
	typedef typename boost::subarray_gen<Array,2>::type::const_reverse_iterator
	riterator2;
	typedef typename boost::subarray_gen<Array,1>::type::const_reverse_iterator
	riterator1;
	};

	template <typename Array>
	struct ittraits_mutable {
	typedef typename Array::iterator iterator3;
	typedef typename boost::subarray_gen<Array,2>::type::iterator iterator2;
	typedef typename boost::subarray_gen<Array,1>::type::iterator iterator1;

	typedef typename Array::reverse_iterator riterator3;
	typedef typename boost::subarray_gen<Array,2>::type::reverse_iterator
	riterator2;
	typedef typename boost::subarray_gen<Array,1>::type::reverse_iterator
	riterator1;
	};


	// Meta-program chooses ittraits implementation.
	template <typename Array, typename ConstTag>
	struct ittraits_generator :
	boost::mpl::if_< boost::is_same<ConstTag,const_array_tag>,
	ittraits_const<Array>,
	ittraits_mutable<Array> >
	{};


	template <typename Array>
	void construct_iterators(Array&) {

	// Default constructed iterators and
	// const iterators constructed from iterators.
	{
	typename Array::iterator i1;
	typename Array::const_iterator ci1;
	typename Array::reverse_iterator r1;
	typename Array::const_reverse_iterator cr1;

	#if 0 // RG - MSVC fails to compile these
	typename Array::const_iterator ci2 =
	typename Array::iterator();
	typename Array::const_reverse_iterator cr2 =
	typename Array::reverse_iterator();
	#endif
	typename Array::const_iterator ci2 = i1;
	typename Array::const_reverse_iterator cr2 = cr1;
	boost::ignore_unused_variable_warning(cr2);
	}
	}

	template <typename Array, typename IterTraits>
	void test_iterators(Array& A, const IterTraits&) {

	// Iterator comparison and arithmetic
	{
	typedef typename IterTraits::iterator3 iterator;
	iterator i1 = A.begin();
	iterator i2 = A.end();
	BOOST_CHECK(i1 < i2);
	BOOST_CHECK((i2 - i1) == typename iterator::difference_type(2));
	}

	// Standard Array Iteration
	{
	typedef typename IterTraits::iterator3 iterator3;
	typedef typename IterTraits::iterator2 iterator2;
	typedef typename IterTraits::iterator1 iterator1;

	int vals = 0;
	for (iterator3 i = A.begin(); i != A.end(); ++i)
	for(iterator2 ii = (i).begin(); ii != (i).end(); ++ii)
	for(iterator1 iii = (ii).begin(); iii != (ii).end(); ++iii)
	BOOST_CHECK(*iii == vals++);
	}

	// Using operator->() on iterators
	{
	typedef typename IterTraits::iterator3 iterator3;
	typedef typename IterTraits::iterator2 iterator2;
	typedef typename IterTraits::iterator1 iterator1;

	int vals = 0;
	for (iterator3 i = A.begin(); i != A.end(); ++i)
	for(iterator2 ii = i->begin(); ii != i->end(); ++ii)
	for(iterator1 iii = ii->begin(); iii != ii->end(); ++iii)
	BOOST_CHECK(*iii == vals++);
	}

	// Reverse Iterator Hierarchy Test
	{
	typedef typename IterTraits::riterator3 riterator3;
	typedef typename IterTraits::riterator2 riterator2;
	typedef typename IterTraits::riterator1 riterator1;

	int check_iter_val = A.num_elements()-1;
	for (riterator3 i = A.rbegin(); i != (riterator3)A.rend(); ++i)
	for(riterator2 ii = (i).rbegin(); ii != (riterator2)(i).rend(); ++ii)
	for(riterator1 iii = (ii).rbegin(); iii != (riterator1)(ii).rend();
	++iii)
	BOOST_CHECK(*iii == check_iter_val--);
	}
	++tests_run;
	}


	template <typename Array>
	void access(Array& A, const mutable_array_tag&) {
	assign(A);

	construct_iterators(A);

	typedef typename ittraits_generator<Array,mutable_array_tag>::type
	m_iter_traits;

	typedef typename ittraits_generator<Array,const_array_tag>::type
	c_iter_traits;
	test_iterators(A,m_iter_traits());
	test_iterators(A,c_iter_traits());

	const Array& CA = A;
	test_iterators(CA,c_iter_traits());
	}

	template <typename Array>
	void access(Array& A, const const_array_tag&) {
	construct_iterators(A);
	typedef typename ittraits_generator<Array,const_array_tag>::type
	c_iter_traits;
	test_iterators(A,c_iter_traits());
	}


	int
	test_main(int, char*[])
	{
	return run_generative_tests();
	}