test/unit/deque_test.cpp - platform/external/stlport - Git at Google

 //Has to be first for StackAllocator swap overload to be taken
 //into account (at least using GCC 4.0.1)
 #include "stack_allocator.h"

 #include <deque>
 #include <algorithm>
 #if !defined (STLPORT) || defined (_STLP_USE_EXCEPTIONS)
 # include <stdexcept>
 #endif

 #include "cppunit/cppunit_proxy.h"

 #if !defined (STLPORT) || defined(_STLP_USE_NAMESPACES)
 using namespace std;
 #endif

 //
 // TestCase class
 //
 class DequeTest : public CPPUNIT_NS::TestCase
 {
   CPPUNIT_TEST_SUITE(DequeTest);
   CPPUNIT_TEST(deque1);
   CPPUNIT_TEST(at);
   CPPUNIT_TEST(insert);
   CPPUNIT_TEST(erase);
   CPPUNIT_TEST(auto_ref);
   CPPUNIT_TEST(allocator_with_state);
 #if defined (STLPORT) && defined (_STLP_NO_MEMBER_TEMPLATES)
   CPPUNIT_IGNORE;
 #endif
   CPPUNIT_TEST(optimizations_check);
   CPPUNIT_TEST_SUITE_END();

 protected:
   void deque1();
   void insert();
   void erase();
   void at();
   void auto_ref();
   void allocator_with_state();
   void optimizations_check();
 };

 CPPUNIT_TEST_SUITE_REGISTRATION(DequeTest);

 //
 // tests implementation
 //
 void DequeTest::deque1()
 {
   deque<int> d;
   d.push_back(4);
   d.push_back(9);
   d.push_back(16);
   d.push_front(1);

   CPPUNIT_ASSERT( d[0] == 1 );
   CPPUNIT_ASSERT( d[1] == 4 );
   CPPUNIT_ASSERT( d[2] == 9 );
   CPPUNIT_ASSERT( d[3] == 16 );

   d.pop_front();
   d[2] = 25;

   CPPUNIT_ASSERT( d[0] == 4 );
   CPPUNIT_ASSERT( d[1] == 9 );
   CPPUNIT_ASSERT( d[2] == 25 );

   //Some compile time tests:
   deque<int>::iterator dit = d.begin();
   deque<int>::const_iterator cdit(d.begin());
   CPPUNIT_ASSERT( (dit - cdit) == 0 );
   CPPUNIT_ASSERT( (cdit - dit) == 0 );
   CPPUNIT_ASSERT( (dit - dit) == 0 );
   CPPUNIT_ASSERT( (cdit - cdit) == 0 );
   CPPUNIT_ASSERT(!((dit < cdit) || (dit > cdit) || (dit != cdit) || !(dit <= cdit) || !(dit >= cdit)));
 }

 void DequeTest::insert()
 {
   deque<int> d;
   d.push_back(0);
   d.push_back(1);
   d.push_back(2);
   CPPUNIT_ASSERT( d.size() == 3 );

   deque<int>::iterator dit;

   //Insertion before begin:
   dit = d.insert(d.begin(), 3);
   CPPUNIT_ASSERT( dit != d.end() );
   CPPUNIT_CHECK( *dit == 3 );
   CPPUNIT_ASSERT( d.size() == 4 );
   CPPUNIT_ASSERT( d[0] == 3 );

   //Insertion after begin:
   dit = d.insert(d.begin() + 1, 4);
   CPPUNIT_ASSERT( dit != d.end() );
   CPPUNIT_CHECK( *dit == 4 );
   CPPUNIT_ASSERT( d.size() == 5 );
   CPPUNIT_ASSERT( d[1] == 4 );

   //Insertion at end:
   dit = d.insert(d.end(), 5);
   CPPUNIT_ASSERT( dit != d.end() );
   CPPUNIT_CHECK( *dit == 5 );
   CPPUNIT_ASSERT( d.size() == 6 );
   CPPUNIT_ASSERT( d[5] == 5 );

   //Insertion before last element:
   dit = d.insert(d.end() - 1, 6);
   CPPUNIT_ASSERT( dit != d.end() );
   CPPUNIT_CHECK( *dit == 6 );
   CPPUNIT_ASSERT( d.size() == 7 );
   CPPUNIT_ASSERT( d[5] == 6 );

   //Insertion of several elements before begin
   d.insert(d.begin(), 2, 7);
   CPPUNIT_ASSERT( d.size() == 9 );
   CPPUNIT_ASSERT( d[0] == 7 );
   CPPUNIT_ASSERT( d[1] == 7 );

   //Insertion of several elements after begin
   //There is more elements to insert than elements before insertion position
   d.insert(d.begin() + 1, 2, 8);
   CPPUNIT_ASSERT( d.size() == 11 );
   CPPUNIT_ASSERT( d[1] == 8 );
   CPPUNIT_ASSERT( d[2] == 8 );

   //There is less elements to insert than elements before insertion position
   d.insert(d.begin() + 3, 2, 9);
   CPPUNIT_ASSERT( d.size() == 13 );
   CPPUNIT_ASSERT( d[3] == 9 );
   CPPUNIT_ASSERT( d[4] == 9 );

   //Insertion of several elements at end:
   d.insert(d.end(), 2, 10);
   CPPUNIT_ASSERT( d.size() == 15 );
   CPPUNIT_ASSERT( d[14] == 10 );
   CPPUNIT_ASSERT( d[13] == 10 );

   //Insertion of several elements before last:
   //There is more elements to insert than elements after insertion position
   d.insert(d.end() - 1, 2, 11);
   CPPUNIT_ASSERT( d.size() == 17 );
   CPPUNIT_ASSERT( d[15] == 11 );
   CPPUNIT_ASSERT( d[14] == 11 );

   //There is less elements to insert than elements after insertion position
   d.insert(d.end() - 3, 2, 12);
   CPPUNIT_ASSERT( d.size() == 19 );
   CPPUNIT_ASSERT( d[15] == 12 );
   CPPUNIT_ASSERT( d[14] == 12 );
 }

 void DequeTest::at() {
   deque<int> d;
   deque<int> const& cd = d;

   d.push_back(10);
   CPPUNIT_ASSERT( d.at(0) == 10 );
   d.at(0) = 20;
   CPPUNIT_ASSERT( cd.at(0) == 20 );

 #if !defined (STLPORT) || defined (_STLP_USE_EXCEPTIONS)
   for (;;) {
     try {
       d.at(1) = 20;
       CPPUNIT_ASSERT(false);
     }
     catch (out_of_range const&) {
       return;
     }
     catch (...) {
       CPPUNIT_ASSERT(false);
     }
   }
 #endif
 }

 void DequeTest::auto_ref()
 {
   int i;
   deque<int> ref;
   for (i = 0; i < 5; ++i) {
     ref.push_back(i);
   }

   deque<deque<int> > d_d_int(1, ref);
   d_d_int.push_back(d_d_int[0]);
   d_d_int.push_back(ref);
   d_d_int.push_back(d_d_int[0]);
   d_d_int.push_back(d_d_int[0]);
   d_d_int.push_back(ref);

   for (i = 0; i < 5; ++i) {
     CPPUNIT_ASSERT( d_d_int[i] == ref );
   }
 }

 void DequeTest::allocator_with_state()
 {
   char buf1[1024];
   StackAllocator<int> stack1(buf1, buf1 + sizeof(buf1));

   char buf2[1024];
   StackAllocator<int> stack2(buf2, buf2 + sizeof(buf2));

   {
     typedef deque<int, StackAllocator<int> > DequeInt;
     DequeInt dint1(10, 0, stack1);
     DequeInt dint1Cpy(dint1);

     DequeInt dint2(10, 1, stack2);
     DequeInt dint2Cpy(dint2);

     dint1.swap(dint2);

     CPPUNIT_ASSERT( dint1.get_allocator().swaped() );
     CPPUNIT_ASSERT( dint2.get_allocator().swaped() );

     CPPUNIT_ASSERT( dint1 == dint2Cpy );
     CPPUNIT_ASSERT( dint2 == dint1Cpy );
     CPPUNIT_ASSERT( dint1.get_allocator() == stack2 );
     CPPUNIT_ASSERT( dint2.get_allocator() == stack1 );
   }
   CPPUNIT_ASSERT( stack1.ok() );
   CPPUNIT_ASSERT( stack2.ok() );
 }

 struct Point {
   int x, y;
 };

 struct PointEx : public Point {
   PointEx() : builtFromBase(false) {}
   PointEx(const Point&) : builtFromBase(true) {}

   bool builtFromBase;
 };

 #if defined (STLPORT)
 #  if defined (_STLP_USE_NAMESPACES)
 namespace std {
 #  endif
   _STLP_TEMPLATE_NULL
   struct __type_traits<PointEx> {
     typedef __false_type has_trivial_default_constructor;
     typedef __true_type has_trivial_copy_constructor;
     typedef __true_type has_trivial_assignment_operator;
     typedef __true_type has_trivial_destructor;
     typedef __true_type is_POD_type;
   };
 #  if defined (_STLP_USE_NAMESPACES)
 }
 #  endif
 #endif

 //This test check that deque implementation do not over optimize
 //operation as PointEx copy constructor is trivial
 void DequeTest::optimizations_check()
 {
 #if !defined (STLPORT) || !defined (_STLP_NO_MEMBER_TEMPLATES)
   deque<Point> d1(1);
   CPPUNIT_ASSERT( d1.size() == 1 );

   deque<PointEx> d2(d1.begin(), d1.end());
   CPPUNIT_ASSERT( d2.size() == 1 );
   CPPUNIT_ASSERT( d2[0].builtFromBase == true );

   d2.insert(d2.end(), d1.begin(), d1.end());
   CPPUNIT_ASSERT( d2.size() == 2 );
   CPPUNIT_ASSERT( d2[1].builtFromBase == true );
 #endif
 }

 void DequeTest::erase()
 {
   deque<int> dint;
   dint.push_back(3);
   dint.push_front(2);
   dint.push_back(4);
   dint.push_front(1);
   dint.push_back(5);
   dint.push_front(0);
   dint.push_back(6);

   deque<int>::iterator it(dint.begin() + 1);
   CPPUNIT_ASSERT( *it == 1 );

   dint.erase(dint.begin());
   CPPUNIT_ASSERT( *it == 1 );

   it = dint.end() - 2;
   CPPUNIT_ASSERT( *it == 5 );

   dint.erase(dint.end() - 1);
   CPPUNIT_ASSERT( *it == 5 );

   dint.push_back(6);
   dint.push_front(0);

   it = dint.begin() + 2;
   CPPUNIT_ASSERT( *it == 2 );

   dint.erase(dint.begin(), dint.begin() + 2);
   CPPUNIT_ASSERT( *it == 2 );

   it = dint.end() - 3;
   CPPUNIT_ASSERT( *it == 4 );

   dint.erase(dint.end() - 2, dint.end());
   CPPUNIT_ASSERT( *it == 4 );
 }

 #if (!defined (STLPORT) || \
     (!defined (_STLP_USE_PTR_SPECIALIZATIONS) || defined (_STLP_CLASS_PARTIAL_SPECIALIZATION))) && \
      (!defined (_MSC_VER) || (_MSC_VER > 1400)) && \
      (!defined(__GNUC__) || (__GNUC__ < 4) || (__GNUC_MINOR__ < 3))
 /* Simple compilation test: Check that nested types like iterator
  * can be access even if type used to instanciate container is not
  * yet completely defined.
  */
 class IncompleteClass
 {
   deque<IncompleteClass> instances;
   typedef deque<IncompleteClass>::size_type size;
 };
 #endif
	//Has to be first for StackAllocator swap overload to be taken
	//into account (at least using GCC 4.0.1)
	#include "stack_allocator.h"

	#include <deque>
	#include <algorithm>
	#if !defined (STLPORT) \|\| defined (_STLP_USE_EXCEPTIONS)
	# include <stdexcept>
	#endif

	#include "cppunit/cppunit_proxy.h"

	#if !defined (STLPORT) \|\| defined(_STLP_USE_NAMESPACES)
	using namespace std;
	#endif

	//
	// TestCase class
	//
	class DequeTest : public CPPUNIT_NS::TestCase
	{
	CPPUNIT_TEST_SUITE(DequeTest);
	CPPUNIT_TEST(deque1);
	CPPUNIT_TEST(at);
	CPPUNIT_TEST(insert);
	CPPUNIT_TEST(erase);
	CPPUNIT_TEST(auto_ref);
	CPPUNIT_TEST(allocator_with_state);
	#if defined (STLPORT) && defined (_STLP_NO_MEMBER_TEMPLATES)
	CPPUNIT_IGNORE;
	#endif
	CPPUNIT_TEST(optimizations_check);
	CPPUNIT_TEST_SUITE_END();

	protected:
	void deque1();
	void insert();
	void erase();
	void at();
	void auto_ref();
	void allocator_with_state();
	void optimizations_check();
	};

	CPPUNIT_TEST_SUITE_REGISTRATION(DequeTest);

	//
	// tests implementation
	//
	void DequeTest::deque1()
	{
	deque<int> d;
	d.push_back(4);
	d.push_back(9);
	d.push_back(16);
	d.push_front(1);

	CPPUNIT_ASSERT( d[0] == 1 );
	CPPUNIT_ASSERT( d[1] == 4 );
	CPPUNIT_ASSERT( d[2] == 9 );
	CPPUNIT_ASSERT( d[3] == 16 );

	d.pop_front();
	d[2] = 25;

	CPPUNIT_ASSERT( d[0] == 4 );
	CPPUNIT_ASSERT( d[1] == 9 );
	CPPUNIT_ASSERT( d[2] == 25 );

	//Some compile time tests:
	deque<int>::iterator dit = d.begin();
	deque<int>::const_iterator cdit(d.begin());
	CPPUNIT_ASSERT( (dit - cdit) == 0 );
	CPPUNIT_ASSERT( (cdit - dit) == 0 );
	CPPUNIT_ASSERT( (dit - dit) == 0 );
	CPPUNIT_ASSERT( (cdit - cdit) == 0 );
	CPPUNIT_ASSERT(!((dit < cdit) \|\| (dit > cdit) \|\| (dit != cdit) \|\| !(dit <= cdit) \|\| !(dit >= cdit)));
	}

	void DequeTest::insert()
	{
	deque<int> d;
	d.push_back(0);
	d.push_back(1);
	d.push_back(2);
	CPPUNIT_ASSERT( d.size() == 3 );

	deque<int>::iterator dit;

	//Insertion before begin:
	dit = d.insert(d.begin(), 3);
	CPPUNIT_ASSERT( dit != d.end() );
	CPPUNIT_CHECK( *dit == 3 );
	CPPUNIT_ASSERT( d.size() == 4 );
	CPPUNIT_ASSERT( d[0] == 3 );

	//Insertion after begin:
	dit = d.insert(d.begin() + 1, 4);
	CPPUNIT_ASSERT( dit != d.end() );
	CPPUNIT_CHECK( *dit == 4 );
	CPPUNIT_ASSERT( d.size() == 5 );
	CPPUNIT_ASSERT( d[1] == 4 );

	//Insertion at end:
	dit = d.insert(d.end(), 5);
	CPPUNIT_ASSERT( dit != d.end() );
	CPPUNIT_CHECK( *dit == 5 );
	CPPUNIT_ASSERT( d.size() == 6 );
	CPPUNIT_ASSERT( d[5] == 5 );

	//Insertion before last element:
	dit = d.insert(d.end() - 1, 6);
	CPPUNIT_ASSERT( dit != d.end() );
	CPPUNIT_CHECK( *dit == 6 );
	CPPUNIT_ASSERT( d.size() == 7 );
	CPPUNIT_ASSERT( d[5] == 6 );

	//Insertion of several elements before begin
	d.insert(d.begin(), 2, 7);
	CPPUNIT_ASSERT( d.size() == 9 );
	CPPUNIT_ASSERT( d[0] == 7 );
	CPPUNIT_ASSERT( d[1] == 7 );

	//Insertion of several elements after begin
	//There is more elements to insert than elements before insertion position
	d.insert(d.begin() + 1, 2, 8);
	CPPUNIT_ASSERT( d.size() == 11 );
	CPPUNIT_ASSERT( d[1] == 8 );
	CPPUNIT_ASSERT( d[2] == 8 );

	//There is less elements to insert than elements before insertion position
	d.insert(d.begin() + 3, 2, 9);
	CPPUNIT_ASSERT( d.size() == 13 );
	CPPUNIT_ASSERT( d[3] == 9 );
	CPPUNIT_ASSERT( d[4] == 9 );

	//Insertion of several elements at end:
	d.insert(d.end(), 2, 10);
	CPPUNIT_ASSERT( d.size() == 15 );
	CPPUNIT_ASSERT( d[14] == 10 );
	CPPUNIT_ASSERT( d[13] == 10 );

	//Insertion of several elements before last:
	//There is more elements to insert than elements after insertion position
	d.insert(d.end() - 1, 2, 11);
	CPPUNIT_ASSERT( d.size() == 17 );
	CPPUNIT_ASSERT( d[15] == 11 );
	CPPUNIT_ASSERT( d[14] == 11 );

	//There is less elements to insert than elements after insertion position
	d.insert(d.end() - 3, 2, 12);
	CPPUNIT_ASSERT( d.size() == 19 );
	CPPUNIT_ASSERT( d[15] == 12 );
	CPPUNIT_ASSERT( d[14] == 12 );
	}

	void DequeTest::at() {
	deque<int> d;
	deque<int> const& cd = d;

	d.push_back(10);
	CPPUNIT_ASSERT( d.at(0) == 10 );
	d.at(0) = 20;
	CPPUNIT_ASSERT( cd.at(0) == 20 );

	#if !defined (STLPORT) \|\| defined (_STLP_USE_EXCEPTIONS)
	for (;;) {
	try {
	d.at(1) = 20;
	CPPUNIT_ASSERT(false);
	}
	catch (out_of_range const&) {
	return;
	}
	catch (...) {
	CPPUNIT_ASSERT(false);
	}
	}
	#endif
	}

	void DequeTest::auto_ref()
	{
	int i;
	deque<int> ref;
	for (i = 0; i < 5; ++i) {
	ref.push_back(i);
	}

	deque<deque<int> > d_d_int(1, ref);
	d_d_int.push_back(d_d_int[0]);
	d_d_int.push_back(ref);
	d_d_int.push_back(d_d_int[0]);
	d_d_int.push_back(d_d_int[0]);
	d_d_int.push_back(ref);

	for (i = 0; i < 5; ++i) {
	CPPUNIT_ASSERT( d_d_int[i] == ref );
	}
	}

	void DequeTest::allocator_with_state()
	{
	char buf1[1024];
	StackAllocator<int> stack1(buf1, buf1 + sizeof(buf1));

	char buf2[1024];
	StackAllocator<int> stack2(buf2, buf2 + sizeof(buf2));

	{
	typedef deque<int, StackAllocator<int> > DequeInt;
	DequeInt dint1(10, 0, stack1);
	DequeInt dint1Cpy(dint1);

	DequeInt dint2(10, 1, stack2);
	DequeInt dint2Cpy(dint2);

	dint1.swap(dint2);

	CPPUNIT_ASSERT( dint1.get_allocator().swaped() );
	CPPUNIT_ASSERT( dint2.get_allocator().swaped() );

	CPPUNIT_ASSERT( dint1 == dint2Cpy );
	CPPUNIT_ASSERT( dint2 == dint1Cpy );
	CPPUNIT_ASSERT( dint1.get_allocator() == stack2 );
	CPPUNIT_ASSERT( dint2.get_allocator() == stack1 );
	}
	CPPUNIT_ASSERT( stack1.ok() );
	CPPUNIT_ASSERT( stack2.ok() );
	}

	struct Point {
	int x, y;
	};

	struct PointEx : public Point {
	PointEx() : builtFromBase(false) {}
	PointEx(const Point&) : builtFromBase(true) {}

	bool builtFromBase;
	};

	#if defined (STLPORT)
	# if defined (_STLP_USE_NAMESPACES)
	namespace std {
	# endif
	_STLP_TEMPLATE_NULL
	struct __type_traits<PointEx> {
	typedef __false_type has_trivial_default_constructor;
	typedef __true_type has_trivial_copy_constructor;
	typedef __true_type has_trivial_assignment_operator;
	typedef __true_type has_trivial_destructor;
	typedef __true_type is_POD_type;
	};
	# if defined (_STLP_USE_NAMESPACES)
	}
	# endif
	#endif

	//This test check that deque implementation do not over optimize
	//operation as PointEx copy constructor is trivial
	void DequeTest::optimizations_check()
	{
	#if !defined (STLPORT) \|\| !defined (_STLP_NO_MEMBER_TEMPLATES)
	deque<Point> d1(1);
	CPPUNIT_ASSERT( d1.size() == 1 );

	deque<PointEx> d2(d1.begin(), d1.end());
	CPPUNIT_ASSERT( d2.size() == 1 );
	CPPUNIT_ASSERT( d2[0].builtFromBase == true );

	d2.insert(d2.end(), d1.begin(), d1.end());
	CPPUNIT_ASSERT( d2.size() == 2 );
	CPPUNIT_ASSERT( d2[1].builtFromBase == true );
	#endif
	}

	void DequeTest::erase()
	{
	deque<int> dint;
	dint.push_back(3);
	dint.push_front(2);
	dint.push_back(4);
	dint.push_front(1);
	dint.push_back(5);
	dint.push_front(0);
	dint.push_back(6);

	deque<int>::iterator it(dint.begin() + 1);
	CPPUNIT_ASSERT( *it == 1 );

	dint.erase(dint.begin());
	CPPUNIT_ASSERT( *it == 1 );

	it = dint.end() - 2;
	CPPUNIT_ASSERT( *it == 5 );

	dint.erase(dint.end() - 1);
	CPPUNIT_ASSERT( *it == 5 );

	dint.push_back(6);
	dint.push_front(0);

	it = dint.begin() + 2;
	CPPUNIT_ASSERT( *it == 2 );

	dint.erase(dint.begin(), dint.begin() + 2);
	CPPUNIT_ASSERT( *it == 2 );

	it = dint.end() - 3;
	CPPUNIT_ASSERT( *it == 4 );

	dint.erase(dint.end() - 2, dint.end());
	CPPUNIT_ASSERT( *it == 4 );
	}

	#if (!defined (STLPORT) \|\| \
	(!defined (_STLP_USE_PTR_SPECIALIZATIONS) \|\| defined (_STLP_CLASS_PARTIAL_SPECIALIZATION))) && \
	(!defined (_MSC_VER) \|\| (_MSC_VER > 1400)) && \
	(!defined(__GNUC__) \|\| (__GNUC__ < 4) \|\| (__GNUC_MINOR__ < 3))
	/* Simple compilation test: Check that nested types like iterator
	* can be access even if type used to instanciate container is not
	* yet completely defined.
	*/
	class IncompleteClass
	{
	deque<IncompleteClass> instances;
	typedef deque<IncompleteClass>::size_type size;
	};
	#endif