tests/algorithms/25.fill.cpp - stdcxx - Git at Google

 /***************************************************************************
  *
  * 25.fill.cpp - test exercising 25.2.5 [lib.alg.fill]
  *
  * $Id$
  *
  ***************************************************************************
  *
  * Licensed to the Apache Software  Foundation (ASF) under one or more
  * contributor  license agreements.  See  the NOTICE  file distributed
  * with  this  work  for  additional information  regarding  copyright
  * ownership.   The ASF  licenses this  file to  you under  the Apache
  * License, Version  2.0 (the  "License"); you may  not use  this file
  * except in  compliance with the License.   You may obtain  a copy of
  * the License at
  *
  * http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the  License is distributed on an  "AS IS" BASIS,
  * WITHOUT  WARRANTIES OR CONDITIONS  OF ANY  KIND, either  express or
  * implied.   See  the License  for  the  specific language  governing
  * permissions and limitations under the License.
  *
  * Copyright 1994-2006 Rogue Wave Software.
  *
  **************************************************************************/

 #include <algorithm>    // for fill
 #include <cstddef>      // for size_t

 #include <alg_test.h>
 #include <rw_value.h>   // for UserClass
 #include <driver.h>     // for rw_test()

 /**************************************************************************/

 _RWSTD_NAMESPACE (std) {

 #ifndef _RWSTD_NO_EXPLICIT_INSTANTIATION

 template
 void
 fill (FwdIter<assign<base<> > >, FwdIter<assign<base<> > >,
       const assign<base<> >&);

 template
 void
 fill_n (OutputIter<assign<base<> > >, Size<int>,
         const assign<base<> >&);

 #endif // _RWSTD_NO_EXPLICIT_INSTANTIATION

 }   // namespace std

 /**************************************************************************/

 // exercises std::fill()
 template <class ForwardIterator, class T>
 void test_fill (std::size_t            N,
                 const ForwardIterator &dummy_iter,
                 const T*)
 {
     static const char* const itname = type_name (dummy_iter, (T*)0);
     static const char* const tname  = "UserClass";

     rw_info (0, 0, 0, "void std::fill (%s, %1$s, const %s&)", itname, tname);

     // generate sequential values for each default constructed T
     T::gen_ = gen_seq;

     T* const buf = new T [N];

     for (std::size_t i = 0; i < N; ++i) {

         T* const buf_end = buf + i;

         const ForwardIterator begin =
             make_iter (buf, buf, buf_end, dummy_iter);

         const ForwardIterator end =
             make_iter (buf_end, buf_end, buf_end, dummy_iter);

         const T value;

         // the number of invocations of the assignment operator
         std::size_t n_op_assign  = T::n_total_op_assign_;

         std::fill (begin, end, value);

         // compute the number of invocations of the assignment operator
         // by the algorithm
         n_op_assign  = T::n_total_op_assign_ - n_op_assign;

         bool success = true;

         // verify 25.2.5, p2
         std::size_t j = 0;
         for ( ; success && j != i; ++j) {
             success = buf [j].data_.val_ == value.data_.val_;
         }

         if (!rw_assert (success, 0, __LINE__,
                         "%zu. fill (%s, %2$s, const %s&): buf [%zu]: %d != %d",
                         i, itname, tname, j, buf [j].data_.val_,
                         value.data_.val_))
             break;

         // verify the complexity requirements:
         //   Exactly last - first assignments.
         if (!rw_assert (n_op_assign == i, 0, __LINE__,
                         "%zu. fill (%s, %2$s, const %s&) expected "
                         "%zu invocations of %2$s::operator=(); got %zu",
                         i, itname, tname, i, n_op_assign))
             break;
     }

     delete[] buf;
 }

 /**************************************************************************/

 // exercises std::fill_n()
 template <class OutputIterator, class Size, class T>
 void test_fill_n (std::size_t           N,
                   const OutputIterator &dummy_iter,
                   const Size*,
                   const T*)
 {
     static const char* const itname = type_name (dummy_iter, (T*)0);
     static const char* const szname = "Size<int>";
     static const char* const tname  = "UserClass";

     rw_info (0, 0, 0, "void std::fill_n (%s, %s, const %s&)",
              itname, szname, tname);

     // generate sequential values for each default constructed T
     T::gen_ = gen_seq;

     T* const buf = new T [N];

     for (std::size_t i = 0; i < N; ++i) {

         T* const buf_end = buf + i;

         const OutputIterator begin =
             make_iter (buf, buf, buf_end, dummy_iter);

         const Size n (i, 0 /* dummy */);
         const T    value;

         // the number of invocations of the assignment operator
         std::size_t n_op_assign  = T::n_total_op_assign_;

         std::fill_n (begin, n, value);

         // compute the number of invocations of the assignment operator
         n_op_assign = T::n_total_op_assign_ - n_op_assign;

         bool success = true;

         // verify 25.2.5, p2
         std::size_t j = 0;
         for ( ; success && j != i; ++j) {
             success = buf [j].data_.val_ == value.data_.val_;
         }

         rw_assert (success, 0, __LINE__,
                    "%zu. fill_n (%s, %s, const %s&): buf [%zu]: %d != %d",
                    i, itname, szname, tname, j, buf [j].data_.val_,
                    value.data_.val_);

         if (!success)
             break;

         success = n_op_assign == i;
         rw_assert (success, 0, __LINE__,
                    "%zu. fill_n (%s, %s, const %s&) complexity: "
                    "%zu != %zu", i, itname, szname, tname,
                    n_op_assign, i);

         if (!success)
             break;
     }

     delete[] buf;
 }


 /**************************************************************************/

 /* extern */ int rw_opt_nloops = 32;     // --nloops
 /* extern */ int rw_opt_no_fill;         // --no-fill
 /* extern */ int rw_opt_no_fill_n;       // --no-fill_n
 /* extern */ int rw_opt_no_output_iter;  // --no-OutputIterator
 /* extern */ int rw_opt_no_fwd_iter;     // --no-ForwardIterator
 /* extern */ int rw_opt_no_bidir_iter;   // --no-BidirectionalIterator
 /* extern */ int rw_opt_no_rnd_iter;     // --no-RandomAccessIterator

 static void
 test_fill (const std::size_t N)
 {
     rw_info (0, 0, 0,
             "template <class %s, class %s> "
             "void std::fill (%1$s, %1$s, const %2$s&)",
             "ForwardIterator", "T");

     if (rw_opt_no_fwd_iter) {
         rw_note (0, __FILE__, __LINE__, "ForwardIterator test disabled");
     }
     else {
         test_fill (N, FwdIter<UserClass>(), (UserClass*)0);
     }

     if (rw_opt_no_bidir_iter) {
         rw_note (0, __FILE__, __LINE__, "BidirectionalIterator test disabled");
     }
     else {
         test_fill (N, BidirIter<UserClass>(), (UserClass*)0);
     }

     if (rw_opt_no_rnd_iter) {
         rw_note (0, __FILE__, __LINE__,  "RandomAccessIterator test disabled");
     }
     else {
         test_fill (N, RandomAccessIter<UserClass>(), (UserClass*)0);
     }
 }

 /**************************************************************************/

 static void
 test_fill_n (const std::size_t N)
 {
     rw_info (0, 0, 0,
             "template <class %s, class %s, class %s> "
             "void std::fill_n (%1$s, %2$s, const %3$s&)",
             "OutputIterator", "Size", "T");

     if (rw_opt_no_output_iter) {
         rw_note (0, __FILE__, __LINE__, "OutputIterator test disabled");
     }
     else {
         test_fill_n (N, OutputIter<UserClass>(0, 0, 0), (Size<int>*)0,
                      (UserClass*)0);
     }

     if (rw_opt_no_fwd_iter) {
         rw_note (0, __FILE__, __LINE__, "ForwardIterator test disabled");
     }
     else {
         test_fill_n (N, FwdIter<UserClass>(), (Size<int>*)0, (UserClass*)0);
     }

     if (rw_opt_no_bidir_iter) {
         rw_note (0, __FILE__, __LINE__, "BidirectionalIterator test disabled");
     }
     else {
         test_fill_n (N, BidirIter<UserClass>(), (Size<int>*)0, (UserClass*)0);
     }

     if (rw_opt_no_rnd_iter) {
         rw_note (0, __FILE__, __LINE__, "RandomAccessIterator test disabled");
     }
     else {
         test_fill_n (N, RandomAccessIter<UserClass>(), (Size<int>*)0,
                      (UserClass*)0);
     }
 }

 /**************************************************************************/

 static int
 run_test (int, char*[])
 {
     // check that the number of loops is non-negative
     rw_fatal (-1 < rw_opt_nloops, 0, 0,
               "number of loops must be non-negative, got %d",
               rw_opt_nloops);

     const std::size_t N = std::size_t (rw_opt_nloops);

     if (rw_opt_no_fill) {
         rw_note (0, __FILE__, __LINE__, "std::fill test disabled");
     }
     else {
         test_fill (N);
     }

     if (rw_opt_no_fill_n) {
         rw_note (0, __FILE__, __LINE__, "std::fill_n test disabled");
     }
     else {
         test_fill_n (N);
     }

     return 0;
 }

 /**************************************************************************/

 int main (int argc, char *argv[])
 {
     return rw_test (argc, argv, __FILE__,
                     "lib.alg.fill",
                     0 /* no comment */, run_test,
                     "|-nloops# "
                     "|-no-fill# "
                     "|-no-fill_n# "
                     "|-no-OutputIterator# "
                     "|-no-ForwardIterator# "
                     "|-no-BidirectionalIterator# "
                     "|-no-RandomAccessIterator#",
                     &rw_opt_nloops,
                     &rw_opt_no_fill,
                     &rw_opt_no_fill_n,
                     &rw_opt_no_output_iter,
                     &rw_opt_no_fwd_iter,
                     &rw_opt_no_bidir_iter,
                     &rw_opt_no_rnd_iter);
 }
	/***************************************************************************
	*
	* 25.fill.cpp - test exercising 25.2.5 [lib.alg.fill]
	*
	* $Id$
	*
	***************************************************************************
	*
	* Licensed to the Apache Software Foundation (ASF) under one or more
	* contributor license agreements. See the NOTICE file distributed
	* with this work for additional information regarding copyright
	* ownership. The ASF licenses this file to you under the Apache
	* License, Version 2.0 (the "License"); you may not use this file
	* except in compliance with the License. You may obtain a copy of
	* the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
	* implied. See the License for the specific language governing
	* permissions and limitations under the License.
	*
	* Copyright 1994-2006 Rogue Wave Software.
	*
	**************************************************************************/

	#include <algorithm> // for fill
	#include <cstddef> // for size_t

	#include <alg_test.h>
	#include <rw_value.h> // for UserClass
	#include <driver.h> // for rw_test()

	/**************************************************************************/

	_RWSTD_NAMESPACE (std) {

	#ifndef _RWSTD_NO_EXPLICIT_INSTANTIATION

	template
	void
	fill (FwdIter<assign<base<> > >, FwdIter<assign<base<> > >,
	const assign<base<> >&);

	template
	void
	fill_n (OutputIter<assign<base<> > >, Size<int>,
	const assign<base<> >&);

	#endif // _RWSTD_NO_EXPLICIT_INSTANTIATION

	} // namespace std

	/**************************************************************************/

	// exercises std::fill()
	template <class ForwardIterator, class T>
	void test_fill (std::size_t N,
	const ForwardIterator &dummy_iter,
	const T*)
	{
	static const char* const itname = type_name (dummy_iter, (T*)0);
	static const char* const tname = "UserClass";

	rw_info (0, 0, 0, "void std::fill (%s, %1$s, const %s&)", itname, tname);

	// generate sequential values for each default constructed T
	T::gen_ = gen_seq;

	T* const buf = new T [N];

	for (std::size_t i = 0; i < N; ++i) {

	T* const buf_end = buf + i;

	const ForwardIterator begin =
	make_iter (buf, buf, buf_end, dummy_iter);

	const ForwardIterator end =
	make_iter (buf_end, buf_end, buf_end, dummy_iter);

	const T value;

	// the number of invocations of the assignment operator
	std::size_t n_op_assign = T::n_total_op_assign_;

	std::fill (begin, end, value);

	// compute the number of invocations of the assignment operator
	// by the algorithm
	n_op_assign = T::n_total_op_assign_ - n_op_assign;

	bool success = true;

	// verify 25.2.5, p2
	std::size_t j = 0;
	for ( ; success && j != i; ++j) {
	success = buf [j].data_.val_ == value.data_.val_;
	}

	if (!rw_assert (success, 0, __LINE__,
	"%zu. fill (%s, %2$s, const %s&): buf [%zu]: %d != %d",
	i, itname, tname, j, buf [j].data_.val_,
	value.data_.val_))
	break;

	// verify the complexity requirements:
	// Exactly last - first assignments.
	if (!rw_assert (n_op_assign == i, 0, __LINE__,
	"%zu. fill (%s, %2$s, const %s&) expected "
	"%zu invocations of %2$s::operator=(); got %zu",
	i, itname, tname, i, n_op_assign))
	break;
	}

	delete[] buf;
	}

	/**************************************************************************/

	// exercises std::fill_n()
	template <class OutputIterator, class Size, class T>
	void test_fill_n (std::size_t N,
	const OutputIterator &dummy_iter,
	const Size*,
	const T*)
	{
	static const char* const itname = type_name (dummy_iter, (T*)0);
	static const char* const szname = "Size<int>";
	static const char* const tname = "UserClass";

	rw_info (0, 0, 0, "void std::fill_n (%s, %s, const %s&)",
	itname, szname, tname);

	// generate sequential values for each default constructed T
	T::gen_ = gen_seq;

	T* const buf = new T [N];

	for (std::size_t i = 0; i < N; ++i) {

	T* const buf_end = buf + i;

	const OutputIterator begin =
	make_iter (buf, buf, buf_end, dummy_iter);

	const Size n (i, 0 /* dummy */);
	const T value;

	// the number of invocations of the assignment operator
	std::size_t n_op_assign = T::n_total_op_assign_;

	std::fill_n (begin, n, value);

	// compute the number of invocations of the assignment operator
	n_op_assign = T::n_total_op_assign_ - n_op_assign;

	bool success = true;

	// verify 25.2.5, p2
	std::size_t j = 0;
	for ( ; success && j != i; ++j) {
	success = buf [j].data_.val_ == value.data_.val_;
	}

	rw_assert (success, 0, __LINE__,
	"%zu. fill_n (%s, %s, const %s&): buf [%zu]: %d != %d",
	i, itname, szname, tname, j, buf [j].data_.val_,
	value.data_.val_);

	if (!success)
	break;

	success = n_op_assign == i;
	rw_assert (success, 0, __LINE__,
	"%zu. fill_n (%s, %s, const %s&) complexity: "
	"%zu != %zu", i, itname, szname, tname,
	n_op_assign, i);

	if (!success)
	break;
	}

	delete[] buf;
	}


	/**************************************************************************/

	/* extern */ int rw_opt_nloops = 32; // --nloops
	/* extern */ int rw_opt_no_fill; // --no-fill
	/* extern */ int rw_opt_no_fill_n; // --no-fill_n
	/* extern */ int rw_opt_no_output_iter; // --no-OutputIterator
	/* extern */ int rw_opt_no_fwd_iter; // --no-ForwardIterator
	/* extern */ int rw_opt_no_bidir_iter; // --no-BidirectionalIterator
	/* extern */ int rw_opt_no_rnd_iter; // --no-RandomAccessIterator

	static void
	test_fill (const std::size_t N)
	{
	rw_info (0, 0, 0,
	"template <class %s, class %s> "
	"void std::fill (%1$s, %1$s, const %2$s&)",
	"ForwardIterator", "T");

	if (rw_opt_no_fwd_iter) {
	rw_note (0, __FILE__, __LINE__, "ForwardIterator test disabled");
	}
	else {
	test_fill (N, FwdIter<UserClass>(), (UserClass*)0);
	}

	if (rw_opt_no_bidir_iter) {
	rw_note (0, __FILE__, __LINE__, "BidirectionalIterator test disabled");
	}
	else {
	test_fill (N, BidirIter<UserClass>(), (UserClass*)0);
	}

	if (rw_opt_no_rnd_iter) {
	rw_note (0, __FILE__, __LINE__, "RandomAccessIterator test disabled");
	}
	else {
	test_fill (N, RandomAccessIter<UserClass>(), (UserClass*)0);
	}
	}

	/**************************************************************************/

	static void
	test_fill_n (const std::size_t N)
	{
	rw_info (0, 0, 0,
	"template <class %s, class %s, class %s> "
	"void std::fill_n (%1$s, %2$s, const %3$s&)",
	"OutputIterator", "Size", "T");

	if (rw_opt_no_output_iter) {
	rw_note (0, __FILE__, __LINE__, "OutputIterator test disabled");
	}
	else {
	test_fill_n (N, OutputIter<UserClass>(0, 0, 0), (Size<int>*)0,
	(UserClass*)0);
	}

	if (rw_opt_no_fwd_iter) {
	rw_note (0, __FILE__, __LINE__, "ForwardIterator test disabled");
	}
	else {
	test_fill_n (N, FwdIter<UserClass>(), (Size<int>)0, (UserClass)0);
	}

	if (rw_opt_no_bidir_iter) {
	rw_note (0, __FILE__, __LINE__, "BidirectionalIterator test disabled");
	}
	else {
	test_fill_n (N, BidirIter<UserClass>(), (Size<int>)0, (UserClass)0);
	}

	if (rw_opt_no_rnd_iter) {
	rw_note (0, __FILE__, __LINE__, "RandomAccessIterator test disabled");
	}
	else {
	test_fill_n (N, RandomAccessIter<UserClass>(), (Size<int>*)0,
	(UserClass*)0);
	}
	}

	/**************************************************************************/

	static int
	run_test (int, char*[])
	{
	// check that the number of loops is non-negative
	rw_fatal (-1 < rw_opt_nloops, 0, 0,
	"number of loops must be non-negative, got %d",
	rw_opt_nloops);

	const std::size_t N = std::size_t (rw_opt_nloops);

	if (rw_opt_no_fill) {
	rw_note (0, __FILE__, __LINE__, "std::fill test disabled");
	}
	else {
	test_fill (N);
	}

	if (rw_opt_no_fill_n) {
	rw_note (0, __FILE__, __LINE__, "std::fill_n test disabled");
	}
	else {
	test_fill_n (N);
	}

	return 0;
	}

	/**************************************************************************/

	int main (int argc, char *argv[])
	{
	return rw_test (argc, argv, __FILE__,
	"lib.alg.fill",
	0 /* no comment */, run_test,
	"\|-nloops# "
	"\|-no-fill# "
	"\|-no-fill_n# "
	"\|-no-OutputIterator# "
	"\|-no-ForwardIterator# "
	"\|-no-BidirectionalIterator# "
	"\|-no-RandomAccessIterator#",
	&rw_opt_nloops,
	&rw_opt_no_fill,
	&rw_opt_no_fill_n,
	&rw_opt_no_output_iter,
	&rw_opt_no_fwd_iter,
	&rw_opt_no_bidir_iter,
	&rw_opt_no_rnd_iter);
	}