libstdc++-v3/testsuite/25_algorithms/mismatch/2.cc - gcc - Git at Google

 // Copyright (C) 2013-2021 Free Software Foundation, Inc.
 //
 // This file is part of the GNU ISO C++ Library.  This library is free
 // software; you can redistribute it and/or modify it under the
 // terms of the GNU General Public License as published by the
 // Free Software Foundation; either version 3, or (at your option)
 // any later version.

 // This library is distributed in the hope that it will be useful,
 // but WITHOUT ANY WARRANTY; without even the implied warranty of
 // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 // GNU General Public License for more details.

 // You should have received a copy of the GNU General Public License along
 // with this library; see the file COPYING3.  If not see
 // <http://www.gnu.org/licenses/>.

 // 25.2.10 [mismatch]

 // { dg-do run { target c++14 } }

 #include <algorithm>
 #include <testsuite_hooks.h>
 #include <testsuite_iterators.h>

 using __gnu_test::test_container;
 using __gnu_test::input_iterator_wrapper;

 typedef test_container<int, input_iterator_wrapper> Container;

 int array1[] = {0, 1};
 int array2[] = {1, 0};
 int array3[] = {1, 0, 1};

 struct equal_to
 {
   static int count;

   bool operator()(int l, int r)
   {
     ++count;
     return l == r;
   }
 } eq;

 int equal_to::count = 0;

 bool __attribute__((unused)) test = false;

 void test1()
 {
   // empty ranges
   Container con1(array1, array1);
   Container con2(array2, array2);
   auto res = std::mismatch(con1.begin(), con1.end(), con2.begin(), con2.end());
   VERIFY( res.first.ptr == array1 );
   VERIFY( res.second.ptr == array2 );
   res = std::mismatch(con1.begin(), con1.end(), con2.begin(), con2.end(), eq);
   VERIFY( res.first.ptr == array1 );
   VERIFY( res.second.ptr == array2 );
   VERIFY( equal_to::count == 0 );
 }

 void test2()
 {
   // first range empty, second non-empty
   Container con1(array1, array1);
   Container con2(array2, array2 + 2);
   auto res = std::mismatch(con1.begin(), con1.end(), con2.begin(), con2.end());
   VERIFY( res.first.ptr == array1 );
   VERIFY( res.second.ptr == array2 );

   res = std::mismatch(con1.begin(), con1.end(), con2.begin(), con2.end(), eq);
   VERIFY( res.first.ptr == array1 );
   VERIFY( res.second.ptr == array2 );
   VERIFY( equal_to::count == 0 );
 }

 void test3()
 {
   // first range non-empty, second empty
   Container con1(array1, array1 + 2);
   Container con2(array2, array2);
   auto res = std::mismatch(con1.begin(), con1.end(), con2.begin(), con2.end());
   VERIFY( res.first.ptr == array1 );
   VERIFY( res.second.ptr == array2 );

   res = std::mismatch(con1.begin(), con1.end(), con2.begin(), con2.end(), eq);
   VERIFY( res.first.ptr == array1 );
   VERIFY( res.second.ptr == array2 );
   VERIFY( equal_to::count == 0 );
 }

 void test4()
 {
   // non-empty, mismatching ranges
   Container con1(array1, array1 + 2);
   Container con2(array2, array2 + 2);
   auto res = std::mismatch(con1.begin(), con1.end(), con2.begin(), con2.end());
   VERIFY( res.first.ptr == array1 );
   VERIFY( res.second.ptr == array2 );

   con1.bounds.first = array1;
   con2.bounds.first = array2;
   res = std::mismatch(con1.begin(), con1.end(), con2.begin(), con2.end(), eq);
   VERIFY( res.first.ptr == array1 );
   VERIFY( res.second.ptr == array2 );
   VERIFY( equal_to::count == 1 );
   equal_to::count = 0;
 }

 void test5()
 {
   // non-empty, matching ranges
   Container con3(array3, array3 + 2);
   Container con2(array2, array2 + 2);
   auto res = std::mismatch(con3.begin(), con3.end(), con2.begin(), con2.end());
   VERIFY( res.first.ptr == array3 + 2 );
   VERIFY( res.second.ptr == array2 + 2 );

   con3.bounds.first = array3;
   con2.bounds.first = array2;
   res = std::mismatch(con3.begin(), con3.end(), con2.begin(), con2.end(), eq);
   VERIFY( res.first.ptr == array3 + 2 );
   VERIFY( res.second.ptr == array2 + 2 );
   VERIFY( equal_to::count == 2 );
   equal_to::count = 0;
 }

 void test6()
 {
   // non-empty, matching sub-ranges, first range longer
   Container con3(array3, array3 + 3);
   Container con2(array2, array2 + 2);
   auto res = std::mismatch(con3.begin(), con3.end(), con2.begin(), con2.end());
   VERIFY( res.first.ptr == array3 + 2 );
   VERIFY( res.second.ptr == array2 + 2 );

   con3.bounds.first = array3;
   con2.bounds.first = array2;
   res = std::mismatch(con3.begin(), con3.end(), con2.begin(), con2.end(), eq);
   VERIFY( res.first.ptr == array3 + 2 );
   VERIFY( res.second.ptr == array2 + 2 );
   VERIFY( equal_to::count == 2 );
   equal_to::count = 0;
 }

 void test7()
 {
   // non-empty, matching sub-ranges, second range longer
   Container con3(array3, array3 + 3);
   Container con2(array2, array2 + 2);
   auto res = std::mismatch(con2.begin(), con2.end(), con3.begin(), con3.end());
   VERIFY( res.first.ptr == array2 + 2 );
   VERIFY( res.second.ptr == array3 + 2 );

   con3.bounds.first = array3;
   con2.bounds.first = array2;
   res = std::mismatch(con2.begin(), con2.end(), con3.begin(), con3.end(), eq);
   VERIFY( res.first.ptr == array2 + 2 );
   VERIFY( res.second.ptr == array3 + 2 );
   VERIFY( equal_to::count == 2 );
   equal_to::count = 0;
 }

 int main()
 {
   test1();
   test2();
   test3();
   test4();
   test5();
   test6();
   test7();
 }
	// Copyright (C) 2013-2021 Free Software Foundation, Inc.
	//
	// This file is part of the GNU ISO C++ Library. This library is free
	// software; you can redistribute it and/or modify it under the
	// terms of the GNU General Public License as published by the
	// Free Software Foundation; either version 3, or (at your option)
	// any later version.

	// This library is distributed in the hope that it will be useful,
	// but WITHOUT ANY WARRANTY; without even the implied warranty of
	// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	// GNU General Public License for more details.

	// You should have received a copy of the GNU General Public License along
	// with this library; see the file COPYING3. If not see
	// <http://www.gnu.org/licenses/>.

	// 25.2.10 [mismatch]

	// { dg-do run { target c++14 } }

	#include <algorithm>
	#include <testsuite_hooks.h>
	#include <testsuite_iterators.h>

	using __gnu_test::test_container;
	using __gnu_test::input_iterator_wrapper;

	typedef test_container<int, input_iterator_wrapper> Container;

	int array1[] = {0, 1};
	int array2[] = {1, 0};
	int array3[] = {1, 0, 1};

	struct equal_to
	{
	static int count;

	bool operator()(int l, int r)
	{
	++count;
	return l == r;
	}
	} eq;

	int equal_to::count = 0;

	bool __attribute__((unused)) test = false;

	void test1()
	{
	// empty ranges
	Container con1(array1, array1);
	Container con2(array2, array2);
	auto res = std::mismatch(con1.begin(), con1.end(), con2.begin(), con2.end());
	VERIFY( res.first.ptr == array1 );
	VERIFY( res.second.ptr == array2 );
	res = std::mismatch(con1.begin(), con1.end(), con2.begin(), con2.end(), eq);
	VERIFY( res.first.ptr == array1 );
	VERIFY( res.second.ptr == array2 );
	VERIFY( equal_to::count == 0 );
	}

	void test2()
	{
	// first range empty, second non-empty
	Container con1(array1, array1);
	Container con2(array2, array2 + 2);
	auto res = std::mismatch(con1.begin(), con1.end(), con2.begin(), con2.end());
	VERIFY( res.first.ptr == array1 );
	VERIFY( res.second.ptr == array2 );

	res = std::mismatch(con1.begin(), con1.end(), con2.begin(), con2.end(), eq);
	VERIFY( res.first.ptr == array1 );
	VERIFY( res.second.ptr == array2 );
	VERIFY( equal_to::count == 0 );
	}

	void test3()
	{
	// first range non-empty, second empty
	Container con1(array1, array1 + 2);
	Container con2(array2, array2);
	auto res = std::mismatch(con1.begin(), con1.end(), con2.begin(), con2.end());
	VERIFY( res.first.ptr == array1 );
	VERIFY( res.second.ptr == array2 );

	res = std::mismatch(con1.begin(), con1.end(), con2.begin(), con2.end(), eq);
	VERIFY( res.first.ptr == array1 );
	VERIFY( res.second.ptr == array2 );
	VERIFY( equal_to::count == 0 );
	}

	void test4()
	{
	// non-empty, mismatching ranges
	Container con1(array1, array1 + 2);
	Container con2(array2, array2 + 2);
	auto res = std::mismatch(con1.begin(), con1.end(), con2.begin(), con2.end());
	VERIFY( res.first.ptr == array1 );
	VERIFY( res.second.ptr == array2 );

	con1.bounds.first = array1;
	con2.bounds.first = array2;
	res = std::mismatch(con1.begin(), con1.end(), con2.begin(), con2.end(), eq);
	VERIFY( res.first.ptr == array1 );
	VERIFY( res.second.ptr == array2 );
	VERIFY( equal_to::count == 1 );
	equal_to::count = 0;
	}

	void test5()
	{
	// non-empty, matching ranges
	Container con3(array3, array3 + 2);
	Container con2(array2, array2 + 2);
	auto res = std::mismatch(con3.begin(), con3.end(), con2.begin(), con2.end());
	VERIFY( res.first.ptr == array3 + 2 );
	VERIFY( res.second.ptr == array2 + 2 );

	con3.bounds.first = array3;
	con2.bounds.first = array2;
	res = std::mismatch(con3.begin(), con3.end(), con2.begin(), con2.end(), eq);
	VERIFY( res.first.ptr == array3 + 2 );
	VERIFY( res.second.ptr == array2 + 2 );
	VERIFY( equal_to::count == 2 );
	equal_to::count = 0;
	}

	void test6()
	{
	// non-empty, matching sub-ranges, first range longer
	Container con3(array3, array3 + 3);
	Container con2(array2, array2 + 2);
	auto res = std::mismatch(con3.begin(), con3.end(), con2.begin(), con2.end());
	VERIFY( res.first.ptr == array3 + 2 );
	VERIFY( res.second.ptr == array2 + 2 );

	con3.bounds.first = array3;
	con2.bounds.first = array2;
	res = std::mismatch(con3.begin(), con3.end(), con2.begin(), con2.end(), eq);
	VERIFY( res.first.ptr == array3 + 2 );
	VERIFY( res.second.ptr == array2 + 2 );
	VERIFY( equal_to::count == 2 );
	equal_to::count = 0;
	}

	void test7()
	{
	// non-empty, matching sub-ranges, second range longer
	Container con3(array3, array3 + 3);
	Container con2(array2, array2 + 2);
	auto res = std::mismatch(con2.begin(), con2.end(), con3.begin(), con3.end());
	VERIFY( res.first.ptr == array2 + 2 );
	VERIFY( res.second.ptr == array3 + 2 );

	con3.bounds.first = array3;
	con2.bounds.first = array2;
	res = std::mismatch(con2.begin(), con2.end(), con3.begin(), con3.end(), eq);
	VERIFY( res.first.ptr == array2 + 2 );
	VERIFY( res.second.ptr == array3 + 2 );
	VERIFY( equal_to::count == 2 );
	equal_to::count = 0;
	}

	int main()
	{
	test1();
	test2();
	test3();
	test4();
	test5();
	test6();
	test7();
	}