test/eh/test_algo.cpp - platform/external/stlport - Git at Google

 /***********************************************************************************
   test_algo.cpp

  * Copyright (c) 1997
  * Mark of the Unicorn, Inc.
  *
  * Permission to use, copy, modify, distribute and sell this software
  * and its documentation for any purpose is hereby granted without fee,
  * provided that the above copyright notice appear in all copies and
  * that both that copyright notice and this permission notice appear
  * in supporting documentation.  Mark of the Unicorn makes no
  * representations about the suitability of this software for any
  * purpose.  It is provided "as is" without express or implied warranty.

 ***********************************************************************************/
 #include "Tests.h"
 #include "LeakCheck.h"
 #include "SortClass.h"

 #if defined (EH_NEW_HEADERS)
 # include <algorithm>
 # include <cassert>
 #else
 # include <algo.h>
 # include <assert.h>
 #endif

 #if defined (EH_NEW_IOSTREAMS)
 # include <iostream>
 #else
 # include <iostream.h>
 #endif

 //
 // SortBuffer -- a buffer of SortClass objects that can be used to test sorting.
 //
 struct SortBuffer
 {
     enum { kBufferSize = 100 };

     SortClass* begin() { return items; }
     const SortClass* begin() const { return items; }
     SortClass* end() { return items + kBufferSize; }
     const SortClass* end() const { return items + kBufferSize; }

   // Sort each half of the buffer and reset the address of each element
   // so that merge() can be tested for stability.
     void PrepareMerge()
     {
         EH_STD::sort( begin(), begin() + ( end() - begin() )/2 );
         EH_STD::sort( begin() + ( end() - begin() )/2, end() );
         for ( SortClass* p = begin(); p != end(); p++ )
             p->ResetAddress();
     }

   SortBuffer()
   {
     PrepareMerge();
   }

   SortBuffer( const SortBuffer& rhs )
   {
     SortClass* q = begin();
     for ( const SortClass* p = rhs.begin() ; p != rhs.end(); p++,q++ )
       *q = *p;
   }

 private:
     SortClass items[kBufferSize];
 };

 //
 // less_by_reference -- a functor for comparing objects against a
 //   constant value.
 //
 template <class T>
 struct less_by_reference
 {
     less_by_reference( const T& arg ) : fArg(arg) {}
     bool operator()( const T& x ) const { return x < fArg; }
 private:
     const T& fArg;
 };

 struct test_stable_partition
 {
     test_stable_partition( const SortBuffer& buf )
         : orig( buf ), partitionPoint(SortClass::kRange / 2) {
         gTestController.SetCurrentTestName("stable_partition()");
         }

     void operator()( SortBuffer& buf ) const
     {
         less_by_reference<SortClass> throw_cmp( partitionPoint );

         SortClass* d = EH_STD::stable_partition( buf.begin(), buf.end(), throw_cmp );

         // Suppress warning about unused variable.
         d;

         // If we get here no exception occurred during the operation.
         // Stop any potential failures that might occur during verification.
         gTestController.CancelFailureCountdown();

         // Prepare an array of counts of the occurrence of each value in
         // the legal range.
         unsigned counts[SortClass::kRange];
         EH_STD::fill_n( counts, (int)SortClass::kRange, 0 );
         for ( const SortClass *q = orig.begin(); q != orig.end(); q++ )
             counts[ q->value() ]++;

         less_by_reference<TestClass> cmp( partitionPoint );
         for ( const SortClass* p = buf.begin(); p != buf.end(); p++ )
         {
           // Check that adjacent items with the same value haven't been
           // reordered. This could be a more thorough test.
             if ( p != buf.begin() && p->value() == p[-1].value() ) {
                 EH_ASSERT( p->GetAddress() > p[-1].GetAddress() );
             }

             // Check that the partitioning worked.
             EH_ASSERT( (p < d) == cmp( *p ) );

             // Decrement the appropriate count for each value.
             counts[ p->value() ]--;
         }

         // Check that the values were only rearranged, and none were lost.
         for ( unsigned j = 0; j < SortClass::kRange; j++ ) {
             EH_ASSERT( counts[j] == 0 );
         }
     }

 private:
     const SortBuffer& orig;
     SortClass partitionPoint;
 };

 void assert_sorted_version( const SortBuffer& orig, const SortBuffer& buf );

 /*===================================================================================
   assert_sorted_version

   EFFECTS: Asserts that buf is a stable-sorted version of orig.
 ====================================================================================*/
 void assert_sorted_version( const SortBuffer& orig, const SortBuffer& buf )
 {
   // Stop any potential failures that might occur during verification.
     gTestController.CancelFailureCountdown();

     // Prepare an array of counts of the occurrence of each value in
     // the legal range.
     unsigned counts[SortClass::kRange];
     EH_STD::fill_n( counts, (int)SortClass::kRange, 0 );
     for ( const SortClass *q = orig.begin(); q != orig.end(); q++ )
         counts[ q->value() ]++;

   // Check that each element is greater than the previous one, or if they are
   // equal, that their order has been preserved.
     for ( const SortClass* p = buf.begin(); p != buf.end(); p++ )
     {
         if ( p != buf.begin() ) {
             EH_ASSERT( p->value() > p[-1].value()
                     || p->value() == p[-1].value() && p->GetAddress() > p[-1].GetAddress() );
         }
     // Decrement the appropriate count for each value.
         counts[ p->value() ]--;
     }

   // Check that the values were only rearranged, and none were lost.
     for ( unsigned j = 0; j < SortClass::kRange; j++ ) {
         EH_ASSERT( counts[j] == 0 );
     }
 }

 //
 // The test operators
 //
 struct test_stable_sort_1
 {
     test_stable_sort_1( const SortBuffer& buf )
         : orig( buf ) {
         gTestController.SetCurrentTestName("stable_sort() #1");
         }

     void operator()( SortBuffer& buf ) const
     {
         EH_STD::stable_sort( buf.begin(), buf.end() );
         assert_sorted_version( orig, buf );
     }

 private:
     const SortBuffer& orig;
 };

 struct test_stable_sort_2
 {
     test_stable_sort_2( const SortBuffer& buf )
         : orig( buf ) {
             gTestController.SetCurrentTestName("stable_sort() #2");
         }

     void operator()( SortBuffer& buf ) const
     {
       EH_STD::stable_sort( buf.begin(), buf.end(), EH_STD::less<SortClass>() );
       assert_sorted_version( orig, buf );
     }

 private:
     const SortBuffer& orig;
 };

 struct test_inplace_merge_1
 {
     test_inplace_merge_1( SortBuffer& buf )
         : orig( buf ) {
         gTestController.SetCurrentTestName("inplace_merge #1()");
         }

     void operator()( SortBuffer& buf ) const
     {
         EH_STD::inplace_merge( buf.begin(), buf.begin() + ( buf.end() - buf.begin() )/2, buf.end() );
         assert_sorted_version( orig, buf );
     }

 private:
     const SortBuffer& orig;
 };

 struct test_inplace_merge_2
 {
     test_inplace_merge_2( SortBuffer& buf )
         : orig( buf ) {
         gTestController.SetCurrentTestName("inplace_merge() #2");
         }

     void operator()( SortBuffer& buf ) const
     {
         EH_STD::inplace_merge( buf.begin(), buf.begin() + ( buf.end() - buf.begin() )/2, buf.end(),
                        EH_STD::less<SortClass>() );
         assert_sorted_version( orig, buf );
     }

 private:
     const SortBuffer& orig;
 };

 void test_algo()
 {
     SortBuffer mergeBuf;
     mergeBuf.PrepareMerge();

     EH_STD::cerr<<"EH test : testing algo.h"<<EH_STD::endl;
     WeakCheck( mergeBuf, test_inplace_merge_1( mergeBuf ) );
     WeakCheck( mergeBuf, test_inplace_merge_2( mergeBuf ) );

     SortBuffer buf;
     WeakCheck( buf, test_stable_sort_1( buf ) );
     WeakCheck( buf, test_stable_sort_2( buf ) );
     WeakCheck( buf, test_stable_partition( buf ) );
 }
	/***********************************************************************************
	test_algo.cpp

	* Copyright (c) 1997
	* Mark of the Unicorn, Inc.
	*
	* Permission to use, copy, modify, distribute and sell this software
	* and its documentation for any purpose is hereby granted without fee,
	* provided that the above copyright notice appear in all copies and
	* that both that copyright notice and this permission notice appear
	* in supporting documentation. Mark of the Unicorn makes no
	* representations about the suitability of this software for any
	* purpose. It is provided "as is" without express or implied warranty.

	***********************************************************************************/
	#include "Tests.h"
	#include "LeakCheck.h"
	#include "SortClass.h"

	#if defined (EH_NEW_HEADERS)
	# include <algorithm>
	# include <cassert>
	#else
	# include <algo.h>
	# include <assert.h>
	#endif

	#if defined (EH_NEW_IOSTREAMS)
	# include <iostream>
	#else
	# include <iostream.h>
	#endif

	//
	// SortBuffer -- a buffer of SortClass objects that can be used to test sorting.
	//
	struct SortBuffer
	{
	enum { kBufferSize = 100 };

	SortClass* begin() { return items; }
	const SortClass* begin() const { return items; }
	SortClass* end() { return items + kBufferSize; }
	const SortClass* end() const { return items + kBufferSize; }

	// Sort each half of the buffer and reset the address of each element
	// so that merge() can be tested for stability.
	void PrepareMerge()
	{
	EH_STD::sort( begin(), begin() + ( end() - begin() )/2 );
	EH_STD::sort( begin() + ( end() - begin() )/2, end() );
	for ( SortClass* p = begin(); p != end(); p++ )
	p->ResetAddress();
	}

	SortBuffer()
	{
	PrepareMerge();
	}

	SortBuffer( const SortBuffer& rhs )
	{
	SortClass* q = begin();
	for ( const SortClass* p = rhs.begin() ; p != rhs.end(); p++,q++ )
	q = p;
	}

	private:
	SortClass items[kBufferSize];
	};

	//
	// less_by_reference -- a functor for comparing objects against a
	// constant value.
	//
	template <class T>
	struct less_by_reference
	{
	less_by_reference( const T& arg ) : fArg(arg) {}
	bool operator()( const T& x ) const { return x < fArg; }
	private:
	const T& fArg;
	};

	struct test_stable_partition
	{
	test_stable_partition( const SortBuffer& buf )
	: orig( buf ), partitionPoint(SortClass::kRange / 2) {
	gTestController.SetCurrentTestName("stable_partition()");
	}

	void operator()( SortBuffer& buf ) const
	{
	less_by_reference<SortClass> throw_cmp( partitionPoint );

	SortClass* d = EH_STD::stable_partition( buf.begin(), buf.end(), throw_cmp );

	// Suppress warning about unused variable.
	d;

	// If we get here no exception occurred during the operation.
	// Stop any potential failures that might occur during verification.
	gTestController.CancelFailureCountdown();

	// Prepare an array of counts of the occurrence of each value in
	// the legal range.
	unsigned counts[SortClass::kRange];
	EH_STD::fill_n( counts, (int)SortClass::kRange, 0 );
	for ( const SortClass *q = orig.begin(); q != orig.end(); q++ )
	counts[ q->value() ]++;

	less_by_reference<TestClass> cmp( partitionPoint );
	for ( const SortClass* p = buf.begin(); p != buf.end(); p++ )
	{
	// Check that adjacent items with the same value haven't been
	// reordered. This could be a more thorough test.
	if ( p != buf.begin() && p->value() == p[-1].value() ) {
	EH_ASSERT( p->GetAddress() > p[-1].GetAddress() );
	}

	// Check that the partitioning worked.
	EH_ASSERT( (p < d) == cmp( *p ) );

	// Decrement the appropriate count for each value.
	counts[ p->value() ]--;
	}

	// Check that the values were only rearranged, and none were lost.
	for ( unsigned j = 0; j < SortClass::kRange; j++ ) {
	EH_ASSERT( counts[j] == 0 );
	}
	}

	private:
	const SortBuffer& orig;
	SortClass partitionPoint;
	};

	void assert_sorted_version( const SortBuffer& orig, const SortBuffer& buf );

	/*===================================================================================
	assert_sorted_version

	EFFECTS: Asserts that buf is a stable-sorted version of orig.
	====================================================================================*/
	void assert_sorted_version( const SortBuffer& orig, const SortBuffer& buf )
	{
	// Stop any potential failures that might occur during verification.
	gTestController.CancelFailureCountdown();

	// Prepare an array of counts of the occurrence of each value in
	// the legal range.
	unsigned counts[SortClass::kRange];
	EH_STD::fill_n( counts, (int)SortClass::kRange, 0 );
	for ( const SortClass *q = orig.begin(); q != orig.end(); q++ )
	counts[ q->value() ]++;

	// Check that each element is greater than the previous one, or if they are
	// equal, that their order has been preserved.
	for ( const SortClass* p = buf.begin(); p != buf.end(); p++ )
	{
	if ( p != buf.begin() ) {
	EH_ASSERT( p->value() > p[-1].value()
	\|\| p->value() == p[-1].value() && p->GetAddress() > p[-1].GetAddress() );
	}
	// Decrement the appropriate count for each value.
	counts[ p->value() ]--;
	}

	// Check that the values were only rearranged, and none were lost.
	for ( unsigned j = 0; j < SortClass::kRange; j++ ) {
	EH_ASSERT( counts[j] == 0 );
	}
	}

	//
	// The test operators
	//
	struct test_stable_sort_1
	{
	test_stable_sort_1( const SortBuffer& buf )
	: orig( buf ) {
	gTestController.SetCurrentTestName("stable_sort() #1");
	}

	void operator()( SortBuffer& buf ) const
	{
	EH_STD::stable_sort( buf.begin(), buf.end() );
	assert_sorted_version( orig, buf );
	}

	private:
	const SortBuffer& orig;
	};

	struct test_stable_sort_2
	{
	test_stable_sort_2( const SortBuffer& buf )
	: orig( buf ) {
	gTestController.SetCurrentTestName("stable_sort() #2");
	}

	void operator()( SortBuffer& buf ) const
	{
	EH_STD::stable_sort( buf.begin(), buf.end(), EH_STD::less<SortClass>() );
	assert_sorted_version( orig, buf );
	}

	private:
	const SortBuffer& orig;
	};

	struct test_inplace_merge_1
	{
	test_inplace_merge_1( SortBuffer& buf )
	: orig( buf ) {
	gTestController.SetCurrentTestName("inplace_merge #1()");
	}

	void operator()( SortBuffer& buf ) const
	{
	EH_STD::inplace_merge( buf.begin(), buf.begin() + ( buf.end() - buf.begin() )/2, buf.end() );
	assert_sorted_version( orig, buf );
	}

	private:
	const SortBuffer& orig;
	};

	struct test_inplace_merge_2
	{
	test_inplace_merge_2( SortBuffer& buf )
	: orig( buf ) {
	gTestController.SetCurrentTestName("inplace_merge() #2");
	}

	void operator()( SortBuffer& buf ) const
	{
	EH_STD::inplace_merge( buf.begin(), buf.begin() + ( buf.end() - buf.begin() )/2, buf.end(),
	EH_STD::less<SortClass>() );
	assert_sorted_version( orig, buf );
	}

	private:
	const SortBuffer& orig;
	};

	void test_algo()
	{
	SortBuffer mergeBuf;
	mergeBuf.PrepareMerge();

	EH_STD::cerr<<"EH test : testing algo.h"<<EH_STD::endl;
	WeakCheck( mergeBuf, test_inplace_merge_1( mergeBuf ) );
	WeakCheck( mergeBuf, test_inplace_merge_2( mergeBuf ) );

	SortBuffer buf;
	WeakCheck( buf, test_stable_sort_1( buf ) );
	WeakCheck( buf, test_stable_sort_2( buf ) );
	WeakCheck( buf, test_stable_partition( buf ) );
	}