source/test/intltest/v32test.cpp - external/github.com/unicode-org/icu - Git at Google

 /********************************************************************
  * COPYRIGHT:
  * Copyright (c) 2002-2003, International Business Machines Corporation and
  * others. All Rights Reserved.
  ********************************************************************/

 //
 //   regextst.cpp
 //
 //      ICU Regular Expressions test, part of intltest.
 //

 #include "intltest.h"

 #include "v32test.h"
 #include "uvectr32.h"
 #include "uvector.h"
 #include "util.h"
 #include <stdlib.h>
 #include <stdio.h>


 //---------------------------------------------------------------------------
 //
 //  Test class boilerplate
 //
 //---------------------------------------------------------------------------
 UVector32Test::UVector32Test()
 {
 };


 UVector32Test::~UVector32Test()
 {
 };


 void UVector32Test::runIndexedTest( int32_t index, UBool exec, const char* &name, char* /*par*/ )
 {
     if (exec) logln("TestSuite UVector32Test: ");
     switch (index) {

         case 0: name = "UVector32_API";
             if (exec) UVector32_API();
             break;
         default: name = "";
             break; //needed to end loop
     }
 }


 //---------------------------------------------------------------------------
 //
 //   Error Checking / Reporting macros used in all of the tests.
 //
 //---------------------------------------------------------------------------
 #define TEST_CHECK_STATUS(status) \
     if (U_FAILURE(status)) {\
         errln("UVector32Test failure at line %d.  status=%s\n", __LINE__, u_errorName(status));\
         return;\
     }

 #define TEST_ASSERT(expr) \
     if ((expr)==FALSE) {\
         errln("RegexTest failure at line %d.\n", __LINE__);\
     }

 //---------------------------------------------------------------------------
 //
 //      UVector32_API      Check for basic functionality of UVector32.
 //
 //---------------------------------------------------------------------------
 void UVector32Test::UVector32_API() {

     UErrorCode  status = U_ZERO_ERROR;
     UVector32     *a;
     UVector32     *b;

     a = new UVector32(status);
     TEST_CHECK_STATUS(status);
     delete a;

     status = U_ZERO_ERROR;
     a = new UVector32(2000, status);
     TEST_CHECK_STATUS(status);
     delete a;

     //
     //  assign()
     //
     status = U_ZERO_ERROR;
     a = new UVector32(status);
     a->addElement(10, status);
     a->addElement(20, status);
     a->addElement(30, status);
     b = new UVector32(status);
     b->assign(*a, status);
     TEST_ASSERT(b->size() == 3);
     TEST_ASSERT(b->elementAti(1) == 20);
     TEST_CHECK_STATUS(status);
     delete a;
     delete b;

     //
     //  operator == and != and equals()
     //
     status = U_ZERO_ERROR;
     a = new UVector32(status);
     a->addElement(10, status);
     a->addElement(20, status);
     a->addElement(30, status);
     b = new UVector32(status);
     TEST_ASSERT(*b != *a);
     TEST_ASSERT(!(*b == *a));
     TEST_ASSERT(!b->equals(*a));
     b->assign(*a, status);
     TEST_ASSERT(*b == *a);
     TEST_ASSERT(!(*b != *a));
     TEST_ASSERT(b->equals(*a));
     b->addElement(666, status);
     TEST_ASSERT(*b != *a);
     TEST_ASSERT(!(*b == *a));
     TEST_ASSERT(!b->equals(*a));
     TEST_CHECK_STATUS(status);
     delete b;
     delete a;

     //
     //  addElement().   Covered by above tests.
     //

     //
     // setElementAt()
     //
     status = U_ZERO_ERROR;
     a = new UVector32(status);
     a->addElement(10, status);
     a->addElement(20, status);
     a->addElement(30, status);
     a->setElementAt(666, 1);
     TEST_ASSERT(a->elementAti(0) == 10);
     TEST_ASSERT(a->elementAti(1) == 666);
     TEST_ASSERT(a->size() == 3);
     TEST_CHECK_STATUS(status);
     delete a;

     //
     // insertElementAt()
     //
     status = U_ZERO_ERROR;
     a = new UVector32(status);
     a->addElement(10, status);
     a->addElement(20, status);
     a->addElement(30, status);
     a->insertElementAt(666, 1, status);
     TEST_ASSERT(a->elementAti(0) == 10);
     TEST_ASSERT(a->elementAti(1) == 666);
     TEST_ASSERT(a->elementAti(2) == 20);
     TEST_ASSERT(a->elementAti(3) == 30);
     TEST_ASSERT(a->size() == 4);
     TEST_CHECK_STATUS(status);
     delete a;

     //
     //  elementAti()    covered by above tests
     //

     //
     //  lastElementi
     //
     status = U_ZERO_ERROR;
     a = new UVector32(status);
     a->addElement(10, status);
     a->addElement(20, status);
     a->addElement(30, status);
     TEST_ASSERT(a->lastElementi() == 30);
     TEST_CHECK_STATUS(status);
     delete a;


     //
     //  indexOf
     //
     status = U_ZERO_ERROR;
     a = new UVector32(status);
     a->addElement(10, status);
     a->addElement(20, status);
     a->addElement(30, status);
     TEST_ASSERT(a->indexOf(30, 0) == 2);
     TEST_ASSERT(a->indexOf(40, 0) == -1);
     TEST_ASSERT(a->indexOf(10, 0) == 0);
     TEST_ASSERT(a->indexOf(10, 1) == -1);
     TEST_CHECK_STATUS(status);
     delete a;


     //
     //  contains
     //
     status = U_ZERO_ERROR;
     a = new UVector32(status);
     a->addElement(10, status);
     a->addElement(20, status);
     a->addElement(30, status);
     TEST_ASSERT(a->contains(10) == TRUE);
     TEST_ASSERT(a->contains(11) == FALSE);
     TEST_ASSERT(a->contains(20) == TRUE);
     TEST_ASSERT(a->contains(-10) == FALSE);
     TEST_CHECK_STATUS(status);
     delete a;


     //
     //  containsAll
     //
     status = U_ZERO_ERROR;
     a = new UVector32(status);
     a->addElement(10, status);
     a->addElement(20, status);
     a->addElement(30, status);
     b = new UVector32(status);
     TEST_ASSERT(a->containsAll(*b) == TRUE);
     b->addElement(2, status);
     TEST_ASSERT(a->containsAll(*b) == FALSE);
     b->setElementAt(10, 0);
     TEST_ASSERT(a->containsAll(*b) == TRUE);
     TEST_ASSERT(b->containsAll(*a) == FALSE);
     b->addElement(30, status);
     b->addElement(20, status);
     TEST_ASSERT(a->containsAll(*b) == TRUE);
     TEST_ASSERT(b->containsAll(*a) == TRUE);
     b->addElement(2, status);
     TEST_ASSERT(a->containsAll(*b) == FALSE);
     TEST_ASSERT(b->containsAll(*a) == TRUE);
     TEST_CHECK_STATUS(status);
     delete a;
     delete b;

     //
     //  removeAll
     //
     status = U_ZERO_ERROR;
     a = new UVector32(status);
     a->addElement(10, status);
     a->addElement(20, status);
     a->addElement(30, status);
     b = new UVector32(status);
     a->removeAll(*b);
     TEST_ASSERT(a->size() == 3);
     b->addElement(20, status);
     a->removeAll(*b);
     TEST_ASSERT(a->size() == 2);
     TEST_ASSERT(a->contains(10)==TRUE);
     TEST_ASSERT(a->contains(30)==TRUE);
     b->addElement(10, status);
     a->removeAll(*b);
     TEST_ASSERT(a->size() == 1);
     TEST_ASSERT(a->contains(30) == TRUE);
     TEST_CHECK_STATUS(status);
     delete a;
     delete b;

     //
     // retainAll
     //
     status = U_ZERO_ERROR;
     a = new UVector32(status);
     a->addElement(10, status);
     a->addElement(20, status);
     a->addElement(30, status);
     b = new UVector32(status);
     b->addElement(10, status);
     b->addElement(20, status);
     b->addElement(30, status);
     b->addElement(15, status);
     a->retainAll(*b);
     TEST_ASSERT(a->size() == 3);
     b->removeElementAt(1);
     a->retainAll(*b);
     TEST_ASSERT(a->contains(20) == FALSE);
     TEST_ASSERT(a->size() == 2);
     b->removeAllElements();
     TEST_ASSERT(b->size() == 0);
     a->retainAll(*b);
     TEST_ASSERT(a->size() == 0);
     TEST_CHECK_STATUS(status);
     delete a;
     delete b;

     //
     //  removeElementAt   Tested above.
     //

     //
     //  removeAllElments   Tested above
     //

     //
     //  size()   tested above
     //

     //
     //  isEmpty
     //
     status = U_ZERO_ERROR;
     a = new UVector32(status);
     TEST_ASSERT(a->isEmpty() == TRUE);
     a->addElement(10, status);
     TEST_ASSERT(a->isEmpty() == FALSE);
     a->addElement(20, status);
     a->removeElementAt(0);
     TEST_ASSERT(a->isEmpty() == FALSE);
     a->removeElementAt(0);
     TEST_ASSERT(a->isEmpty() == TRUE);
     TEST_CHECK_STATUS(status);
     delete a;


     //
     // ensureCapacity, expandCapacity
     //
     status = U_ZERO_ERROR;
     a = new UVector32(status);
     TEST_ASSERT(a->isEmpty() == TRUE);
     a->addElement(10, status);
     TEST_ASSERT(a->ensureCapacity(5000, status)== TRUE);
     TEST_ASSERT(a->expandCapacity(20000, status) == TRUE);
     TEST_CHECK_STATUS(status);
     delete a;

     //
     // setSize
     //
     status = U_ZERO_ERROR;
     a = new UVector32(status);
     a->addElement(10, status);
     a->addElement(20, status);
     a->addElement(30, status);
     a->setSize(100);
     TEST_ASSERT(a->size() == 100);
     TEST_ASSERT(a->elementAti(0) == 10);
     TEST_ASSERT(a->elementAti(1) == 20);
     TEST_ASSERT(a->elementAti(2) == 30);
     TEST_ASSERT(a->elementAti(3) == 0);
     a->setElementAt(666, 99);
     a->setElementAt(777, 100);
     TEST_ASSERT(a->elementAti(99) == 666);
     TEST_ASSERT(a->elementAti(100) == 0);
     a->setSize(2);
     TEST_ASSERT(a->elementAti(1) == 20);
     TEST_ASSERT(a->elementAti(2) == 0);
     TEST_ASSERT(a->size() == 2);
     a->setSize(0);
     TEST_ASSERT(a->empty() == TRUE);
     TEST_ASSERT(a->size() == 0);

     TEST_CHECK_STATUS(status);
     delete a;

     //
     // containsNone
     //
     status = U_ZERO_ERROR;
     a = new UVector32(status);
     a->addElement(10, status);
     a->addElement(20, status);
     a->addElement(30, status);
     b = new UVector32(status);
     TEST_ASSERT(a->containsNone(*b) == TRUE);
     b->addElement(5, status);
     TEST_ASSERT(a->containsNone(*b) == TRUE);
     b->addElement(30, status);
     TEST_ASSERT(a->containsNone(*b) == FALSE);

     TEST_CHECK_STATUS(status);
     delete a;
     delete b;

     //
     // sortedInsert
     //
     status = U_ZERO_ERROR;
     a = new UVector32(status);
     a->sortedInsert(30, status);
     a->sortedInsert(20, status);
     a->sortedInsert(10, status);
     TEST_ASSERT(a->elementAti(0) == 10);
     TEST_ASSERT(a->elementAti(1) == 20);
     TEST_ASSERT(a->elementAti(2) == 30);

     TEST_CHECK_STATUS(status);
     delete a;

     //
     // getBuffer
     //
     status = U_ZERO_ERROR;
     a = new UVector32(status);
     a->addElement(10, status);
     a->addElement(20, status);
     int32_t *buf = a->getBuffer();
     TEST_ASSERT(buf[0] == 10);
     TEST_ASSERT(buf[1] == 20);
     a->setSize(20000);
     int32_t *resizedBuf;
     resizedBuf = a->getBuffer();
     TEST_ASSERT(buf != resizedBuf);
     TEST_ASSERT(resizedBuf[0] == 10);
     TEST_ASSERT(resizedBuf[1] == 20);

     TEST_CHECK_STATUS(status);
     delete a;


     //
     //  RTTI
     //
     status = U_ZERO_ERROR;
     a = new UVector32(status);
     TEST_ASSERT(a->getDynamicClassID() == UVector32::getStaticClassID());
     TEST_ASSERT(a->getDynamicClassID() != UVector::getStaticClassID());
     TEST_CHECK_STATUS(status);
     delete a;

     //
     //  empty
     //
     status = U_ZERO_ERROR;
     a = new UVector32(status);
     TEST_ASSERT(a->empty() == TRUE);
     a->addElement(10, status);
     TEST_ASSERT(a->empty() == FALSE);
     a->addElement(20, status);
     a->removeElementAt(0);
     TEST_ASSERT(a->empty() == FALSE);
     a->removeElementAt(0);
     TEST_ASSERT(a->empty() == TRUE);
     TEST_CHECK_STATUS(status);
     delete a;


     //
     //  peeki
     //
     status = U_ZERO_ERROR;
     a = new UVector32(status);
     a->addElement(10, status);
     TEST_ASSERT(a->peeki() == 10);
     a->addElement(20, status);
     TEST_ASSERT(a->peeki() == 20);
     a->addElement(30, status);
     TEST_ASSERT(a->peeki() == 30);
     TEST_CHECK_STATUS(status);
     delete a;


     //
     // popi
     //
     status = U_ZERO_ERROR;
     a = new UVector32(status);
     a->addElement(10, status);
     a->addElement(20, status);
     a->addElement(30, status);
     TEST_ASSERT(a->popi() == 30);
     TEST_ASSERT(a->popi() == 20);
     TEST_ASSERT(a->popi() == 10);
     TEST_ASSERT(a->popi() == 0);
     TEST_ASSERT(a->isEmpty());
     TEST_CHECK_STATUS(status);
     delete a;

     //
     // push
     //
     status = U_ZERO_ERROR;
     a = new UVector32(status);
     TEST_ASSERT(a->push(10, status) == 10);
     TEST_ASSERT(a->push(20, status) == 20);
     TEST_ASSERT(a->push(30, status) == 30);
     TEST_ASSERT(a->size() == 3);
     TEST_ASSERT(a->popi() == 30);
     TEST_ASSERT(a->popi() == 20);
     TEST_ASSERT(a->popi() == 10);
     TEST_ASSERT(a->isEmpty());
     TEST_CHECK_STATUS(status);
     delete a;


     //
     // reserveBlock
     //
     status = U_ZERO_ERROR;
     a = new UVector32(status);
     a->ensureCapacity(1000, status);

     // TODO:

     TEST_CHECK_STATUS(status);
     delete a;

 };
	/********************************************************************
	* COPYRIGHT:
	* Copyright (c) 2002-2003, International Business Machines Corporation and
	* others. All Rights Reserved.
	********************************************************************/

	//
	// regextst.cpp
	//
	// ICU Regular Expressions test, part of intltest.
	//

	#include "intltest.h"

	#include "v32test.h"
	#include "uvectr32.h"
	#include "uvector.h"
	#include "util.h"
	#include <stdlib.h>
	#include <stdio.h>


	//---------------------------------------------------------------------------
	//
	// Test class boilerplate
	//
	//---------------------------------------------------------------------------
	UVector32Test::UVector32Test()
	{
	};


	UVector32Test::~UVector32Test()
	{
	};



	void UVector32Test::runIndexedTest( int32_t index, UBool exec, const char* &name, char* /par/ )
	{
	if (exec) logln("TestSuite UVector32Test: ");
	switch (index) {

	case 0: name = "UVector32_API";
	if (exec) UVector32_API();
	break;
	default: name = "";
	break; //needed to end loop
	}
	}


	//---------------------------------------------------------------------------
	//
	// Error Checking / Reporting macros used in all of the tests.
	//
	//---------------------------------------------------------------------------
	#define TEST_CHECK_STATUS(status) \
	if (U_FAILURE(status)) {\
	errln("UVector32Test failure at line %d. status=%s\n", __LINE__, u_errorName(status));\
	return;\
	}

	#define TEST_ASSERT(expr) \
	if ((expr)==FALSE) {\
	errln("RegexTest failure at line %d.\n", __LINE__);\
	}

	//---------------------------------------------------------------------------
	//
	// UVector32_API Check for basic functionality of UVector32.
	//
	//---------------------------------------------------------------------------
	void UVector32Test::UVector32_API() {

	UErrorCode status = U_ZERO_ERROR;
	UVector32 *a;
	UVector32 *b;

	a = new UVector32(status);
	TEST_CHECK_STATUS(status);
	delete a;

	status = U_ZERO_ERROR;
	a = new UVector32(2000, status);
	TEST_CHECK_STATUS(status);
	delete a;

	//
	// assign()
	//
	status = U_ZERO_ERROR;
	a = new UVector32(status);
	a->addElement(10, status);
	a->addElement(20, status);
	a->addElement(30, status);
	b = new UVector32(status);
	b->assign(*a, status);
	TEST_ASSERT(b->size() == 3);
	TEST_ASSERT(b->elementAti(1) == 20);
	TEST_CHECK_STATUS(status);
	delete a;
	delete b;

	//
	// operator == and != and equals()
	//
	status = U_ZERO_ERROR;
	a = new UVector32(status);
	a->addElement(10, status);
	a->addElement(20, status);
	a->addElement(30, status);
	b = new UVector32(status);
	TEST_ASSERT(b != a);
	TEST_ASSERT(!(b == a));
	TEST_ASSERT(!b->equals(*a));
	b->assign(*a, status);
	TEST_ASSERT(b == a);
	TEST_ASSERT(!(b != a));
	TEST_ASSERT(b->equals(*a));
	b->addElement(666, status);
	TEST_ASSERT(b != a);
	TEST_ASSERT(!(b == a));
	TEST_ASSERT(!b->equals(*a));
	TEST_CHECK_STATUS(status);
	delete b;
	delete a;

	//
	// addElement(). Covered by above tests.
	//

	//
	// setElementAt()
	//
	status = U_ZERO_ERROR;
	a = new UVector32(status);
	a->addElement(10, status);
	a->addElement(20, status);
	a->addElement(30, status);
	a->setElementAt(666, 1);
	TEST_ASSERT(a->elementAti(0) == 10);
	TEST_ASSERT(a->elementAti(1) == 666);
	TEST_ASSERT(a->size() == 3);
	TEST_CHECK_STATUS(status);
	delete a;

	//
	// insertElementAt()
	//
	status = U_ZERO_ERROR;
	a = new UVector32(status);
	a->addElement(10, status);
	a->addElement(20, status);
	a->addElement(30, status);
	a->insertElementAt(666, 1, status);
	TEST_ASSERT(a->elementAti(0) == 10);
	TEST_ASSERT(a->elementAti(1) == 666);
	TEST_ASSERT(a->elementAti(2) == 20);
	TEST_ASSERT(a->elementAti(3) == 30);
	TEST_ASSERT(a->size() == 4);
	TEST_CHECK_STATUS(status);
	delete a;

	//
	// elementAti() covered by above tests
	//

	//
	// lastElementi
	//
	status = U_ZERO_ERROR;
	a = new UVector32(status);
	a->addElement(10, status);
	a->addElement(20, status);
	a->addElement(30, status);
	TEST_ASSERT(a->lastElementi() == 30);
	TEST_CHECK_STATUS(status);
	delete a;


	//
	// indexOf
	//
	status = U_ZERO_ERROR;
	a = new UVector32(status);
	a->addElement(10, status);
	a->addElement(20, status);
	a->addElement(30, status);
	TEST_ASSERT(a->indexOf(30, 0) == 2);
	TEST_ASSERT(a->indexOf(40, 0) == -1);
	TEST_ASSERT(a->indexOf(10, 0) == 0);
	TEST_ASSERT(a->indexOf(10, 1) == -1);
	TEST_CHECK_STATUS(status);
	delete a;


	//
	// contains
	//
	status = U_ZERO_ERROR;
	a = new UVector32(status);
	a->addElement(10, status);
	a->addElement(20, status);
	a->addElement(30, status);
	TEST_ASSERT(a->contains(10) == TRUE);
	TEST_ASSERT(a->contains(11) == FALSE);
	TEST_ASSERT(a->contains(20) == TRUE);
	TEST_ASSERT(a->contains(-10) == FALSE);
	TEST_CHECK_STATUS(status);
	delete a;


	//
	// containsAll
	//
	status = U_ZERO_ERROR;
	a = new UVector32(status);
	a->addElement(10, status);
	a->addElement(20, status);
	a->addElement(30, status);
	b = new UVector32(status);
	TEST_ASSERT(a->containsAll(*b) == TRUE);
	b->addElement(2, status);
	TEST_ASSERT(a->containsAll(*b) == FALSE);
	b->setElementAt(10, 0);
	TEST_ASSERT(a->containsAll(*b) == TRUE);
	TEST_ASSERT(b->containsAll(*a) == FALSE);
	b->addElement(30, status);
	b->addElement(20, status);
	TEST_ASSERT(a->containsAll(*b) == TRUE);
	TEST_ASSERT(b->containsAll(*a) == TRUE);
	b->addElement(2, status);
	TEST_ASSERT(a->containsAll(*b) == FALSE);
	TEST_ASSERT(b->containsAll(*a) == TRUE);
	TEST_CHECK_STATUS(status);
	delete a;
	delete b;

	//
	// removeAll
	//
	status = U_ZERO_ERROR;
	a = new UVector32(status);
	a->addElement(10, status);
	a->addElement(20, status);
	a->addElement(30, status);
	b = new UVector32(status);
	a->removeAll(*b);
	TEST_ASSERT(a->size() == 3);
	b->addElement(20, status);
	a->removeAll(*b);
	TEST_ASSERT(a->size() == 2);
	TEST_ASSERT(a->contains(10)==TRUE);
	TEST_ASSERT(a->contains(30)==TRUE);
	b->addElement(10, status);
	a->removeAll(*b);
	TEST_ASSERT(a->size() == 1);
	TEST_ASSERT(a->contains(30) == TRUE);
	TEST_CHECK_STATUS(status);
	delete a;
	delete b;

	//
	// retainAll
	//
	status = U_ZERO_ERROR;
	a = new UVector32(status);
	a->addElement(10, status);
	a->addElement(20, status);
	a->addElement(30, status);
	b = new UVector32(status);
	b->addElement(10, status);
	b->addElement(20, status);
	b->addElement(30, status);
	b->addElement(15, status);
	a->retainAll(*b);
	TEST_ASSERT(a->size() == 3);
	b->removeElementAt(1);
	a->retainAll(*b);
	TEST_ASSERT(a->contains(20) == FALSE);
	TEST_ASSERT(a->size() == 2);
	b->removeAllElements();
	TEST_ASSERT(b->size() == 0);
	a->retainAll(*b);
	TEST_ASSERT(a->size() == 0);
	TEST_CHECK_STATUS(status);
	delete a;
	delete b;

	//
	// removeElementAt Tested above.
	//

	//
	// removeAllElments Tested above
	//

	//
	// size() tested above
	//

	//
	// isEmpty
	//
	status = U_ZERO_ERROR;
	a = new UVector32(status);
	TEST_ASSERT(a->isEmpty() == TRUE);
	a->addElement(10, status);
	TEST_ASSERT(a->isEmpty() == FALSE);
	a->addElement(20, status);
	a->removeElementAt(0);
	TEST_ASSERT(a->isEmpty() == FALSE);
	a->removeElementAt(0);
	TEST_ASSERT(a->isEmpty() == TRUE);
	TEST_CHECK_STATUS(status);
	delete a;


	//
	// ensureCapacity, expandCapacity
	//
	status = U_ZERO_ERROR;
	a = new UVector32(status);
	TEST_ASSERT(a->isEmpty() == TRUE);
	a->addElement(10, status);
	TEST_ASSERT(a->ensureCapacity(5000, status)== TRUE);
	TEST_ASSERT(a->expandCapacity(20000, status) == TRUE);
	TEST_CHECK_STATUS(status);
	delete a;

	//
	// setSize
	//
	status = U_ZERO_ERROR;
	a = new UVector32(status);
	a->addElement(10, status);
	a->addElement(20, status);
	a->addElement(30, status);
	a->setSize(100);
	TEST_ASSERT(a->size() == 100);
	TEST_ASSERT(a->elementAti(0) == 10);
	TEST_ASSERT(a->elementAti(1) == 20);
	TEST_ASSERT(a->elementAti(2) == 30);
	TEST_ASSERT(a->elementAti(3) == 0);
	a->setElementAt(666, 99);
	a->setElementAt(777, 100);
	TEST_ASSERT(a->elementAti(99) == 666);
	TEST_ASSERT(a->elementAti(100) == 0);
	a->setSize(2);
	TEST_ASSERT(a->elementAti(1) == 20);
	TEST_ASSERT(a->elementAti(2) == 0);
	TEST_ASSERT(a->size() == 2);
	a->setSize(0);
	TEST_ASSERT(a->empty() == TRUE);
	TEST_ASSERT(a->size() == 0);

	TEST_CHECK_STATUS(status);
	delete a;

	//
	// containsNone
	//
	status = U_ZERO_ERROR;
	a = new UVector32(status);
	a->addElement(10, status);
	a->addElement(20, status);
	a->addElement(30, status);
	b = new UVector32(status);
	TEST_ASSERT(a->containsNone(*b) == TRUE);
	b->addElement(5, status);
	TEST_ASSERT(a->containsNone(*b) == TRUE);
	b->addElement(30, status);
	TEST_ASSERT(a->containsNone(*b) == FALSE);

	TEST_CHECK_STATUS(status);
	delete a;
	delete b;

	//
	// sortedInsert
	//
	status = U_ZERO_ERROR;
	a = new UVector32(status);
	a->sortedInsert(30, status);
	a->sortedInsert(20, status);
	a->sortedInsert(10, status);
	TEST_ASSERT(a->elementAti(0) == 10);
	TEST_ASSERT(a->elementAti(1) == 20);
	TEST_ASSERT(a->elementAti(2) == 30);

	TEST_CHECK_STATUS(status);
	delete a;

	//
	// getBuffer
	//
	status = U_ZERO_ERROR;
	a = new UVector32(status);
	a->addElement(10, status);
	a->addElement(20, status);
	int32_t *buf = a->getBuffer();
	TEST_ASSERT(buf[0] == 10);
	TEST_ASSERT(buf[1] == 20);
	a->setSize(20000);
	int32_t *resizedBuf;
	resizedBuf = a->getBuffer();
	TEST_ASSERT(buf != resizedBuf);
	TEST_ASSERT(resizedBuf[0] == 10);
	TEST_ASSERT(resizedBuf[1] == 20);

	TEST_CHECK_STATUS(status);
	delete a;


	//
	// RTTI
	//
	status = U_ZERO_ERROR;
	a = new UVector32(status);
	TEST_ASSERT(a->getDynamicClassID() == UVector32::getStaticClassID());
	TEST_ASSERT(a->getDynamicClassID() != UVector::getStaticClassID());
	TEST_CHECK_STATUS(status);
	delete a;

	//
	// empty
	//
	status = U_ZERO_ERROR;
	a = new UVector32(status);
	TEST_ASSERT(a->empty() == TRUE);
	a->addElement(10, status);
	TEST_ASSERT(a->empty() == FALSE);
	a->addElement(20, status);
	a->removeElementAt(0);
	TEST_ASSERT(a->empty() == FALSE);
	a->removeElementAt(0);
	TEST_ASSERT(a->empty() == TRUE);
	TEST_CHECK_STATUS(status);
	delete a;


	//
	// peeki
	//
	status = U_ZERO_ERROR;
	a = new UVector32(status);
	a->addElement(10, status);
	TEST_ASSERT(a->peeki() == 10);
	a->addElement(20, status);
	TEST_ASSERT(a->peeki() == 20);
	a->addElement(30, status);
	TEST_ASSERT(a->peeki() == 30);
	TEST_CHECK_STATUS(status);
	delete a;


	//
	// popi
	//
	status = U_ZERO_ERROR;
	a = new UVector32(status);
	a->addElement(10, status);
	a->addElement(20, status);
	a->addElement(30, status);
	TEST_ASSERT(a->popi() == 30);
	TEST_ASSERT(a->popi() == 20);
	TEST_ASSERT(a->popi() == 10);
	TEST_ASSERT(a->popi() == 0);
	TEST_ASSERT(a->isEmpty());
	TEST_CHECK_STATUS(status);
	delete a;

	//
	// push
	//
	status = U_ZERO_ERROR;
	a = new UVector32(status);
	TEST_ASSERT(a->push(10, status) == 10);
	TEST_ASSERT(a->push(20, status) == 20);
	TEST_ASSERT(a->push(30, status) == 30);
	TEST_ASSERT(a->size() == 3);
	TEST_ASSERT(a->popi() == 30);
	TEST_ASSERT(a->popi() == 20);
	TEST_ASSERT(a->popi() == 10);
	TEST_ASSERT(a->isEmpty());
	TEST_CHECK_STATUS(status);
	delete a;


	//
	// reserveBlock
	//
	status = U_ZERO_ERROR;
	a = new UVector32(status);
	a->ensureCapacity(1000, status);

	// TODO:

	TEST_CHECK_STATUS(status);
	delete a;

	};