293 lines
8.3 KiB
C++
293 lines
8.3 KiB
C++
///////////////////////////////////////////////////////////////////////////////
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// Name: tests/streams/datastreamtest.cpp
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// Purpose: wxDataXXXStream Unit Test
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// Author: Ryan Norton
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// Created: 2004-08-14
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// Copyright: (c) 2004 Ryan Norton
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///////////////////////////////////////////////////////////////////////////////
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// ----------------------------------------------------------------------------
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// headers
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// ----------------------------------------------------------------------------
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#include "testprec.h"
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#ifdef __BORLANDC__
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#pragma hdrstop
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#endif
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#ifndef WX_PRECOMP
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#include "wx/wx.h"
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#endif // WX_PRECOMP
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#include <vector>
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#include "wx/datstrm.h"
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#include "wx/wfstream.h"
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#include "wx/math.h"
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// ----------------------------------------------------------------------------
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// test class
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// ----------------------------------------------------------------------------
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class DataStreamTestCase : public CppUnit::TestCase
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{
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public:
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DataStreamTestCase();
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private:
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CPPUNIT_TEST_SUITE( DataStreamTestCase );
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CPPUNIT_TEST( FloatRW );
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CPPUNIT_TEST( DoubleRW );
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#if wxUSE_LONGLONG
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CPPUNIT_TEST( LongLongRW );
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#endif
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#if wxHAS_INT64
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CPPUNIT_TEST( Int64RW );
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#endif
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CPPUNIT_TEST( NaNRW );
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CPPUNIT_TEST( PseudoTest_UseBigEndian );
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CPPUNIT_TEST( FloatRW );
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CPPUNIT_TEST( DoubleRW );
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// Only test standard IEEE 754 formats if we're using IEEE extended
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// format by default, otherwise the tests above already covered them.
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#if wxUSE_APPLE_IEEE
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CPPUNIT_TEST( PseudoTest_UseIEEE754 );
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CPPUNIT_TEST( FloatRW );
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CPPUNIT_TEST( DoubleRW );
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// Also retest little endian version with standard formats.
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CPPUNIT_TEST( PseudoTest_UseLittleEndian );
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CPPUNIT_TEST( FloatRW );
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CPPUNIT_TEST( DoubleRW );
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#endif // wxUSE_APPLE_IEEE
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CPPUNIT_TEST_SUITE_END();
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wxFloat64 TestFloatRW(wxFloat64 fValue);
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void FloatRW();
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void DoubleRW();
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#if wxUSE_LONGLONG
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void LongLongRW();
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#endif
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#if wxHAS_INT64
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void Int64RW();
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#endif
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void NaNRW();
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void PseudoTest_UseBigEndian() { ms_useBigEndianFormat = true; }
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void PseudoTest_UseLittleEndian() { ms_useBigEndianFormat = false; }
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#if wxUSE_APPLE_IEEE
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void PseudoTest_UseIEEE754() { ms_useIEEE754 = true; }
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#endif // wxUSE_APPLE_IEEE
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static bool ms_useBigEndianFormat;
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#if wxUSE_APPLE_IEEE
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static bool ms_useIEEE754;
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#endif // wxUSE_APPLE_IEEE
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DECLARE_NO_COPY_CLASS(DataStreamTestCase)
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};
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// register in the unnamed registry so that these tests are run by default
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CPPUNIT_TEST_SUITE_REGISTRATION( DataStreamTestCase );
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// also include in its own registry so that these tests can be run alone
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CPPUNIT_TEST_SUITE_NAMED_REGISTRATION( DataStreamTestCase, "DataStreamTestCase" );
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bool DataStreamTestCase::ms_useBigEndianFormat = false;
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#if wxUSE_APPLE_IEEE
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bool DataStreamTestCase::ms_useIEEE754 = false;
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#endif // wxUSE_APPLE_IEEE
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DataStreamTestCase::DataStreamTestCase()
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{
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}
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wxFloat64 DataStreamTestCase::TestFloatRW(wxFloat64 fValue)
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{
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{
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wxFileOutputStream pFileOutput( wxT("mytext.dat") );
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wxDataOutputStream pDataOutput( pFileOutput );
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if ( ms_useBigEndianFormat )
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pDataOutput.BigEndianOrdered(true);
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#if wxUSE_APPLE_IEEE
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if ( ms_useIEEE754 )
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pDataOutput.UseBasicPrecisions();
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#endif // wxUSE_APPLE_IEEE
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pDataOutput << fValue;
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}
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wxFileInputStream pFileInput( wxT("mytext.dat") );
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wxDataInputStream pDataInput( pFileInput );
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if ( ms_useBigEndianFormat )
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pDataInput.BigEndianOrdered(true);
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#if wxUSE_APPLE_IEEE
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if ( ms_useIEEE754 )
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pDataInput.UseBasicPrecisions();
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#endif // wxUSE_APPLE_IEEE
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wxFloat64 fInFloat;
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pDataInput >> fInFloat;
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return fInFloat;
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}
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template <class T>
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class TestMultiRW {
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public:
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typedef std::vector<T> ValueArray;
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typedef void (wxDataOutputStream::*FnWriter)(const T *buffer, size_t size);
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typedef void (wxDataInputStream::*FnReader)(T *buffer, size_t size);
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private:
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bool m_ok;
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private:
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void ProcessData(const T *Values,
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typename ValueArray::size_type Size,
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FnWriter pfnWriter,
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FnReader pfnReader)
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{
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ValueArray InValues(Size);
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{
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wxFileOutputStream FileOutput( wxT("mytext.dat") );
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wxDataOutputStream DataOutput( FileOutput );
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(DataOutput.*pfnWriter)(Values, Size);
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}
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{
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wxFileInputStream FileInput( wxT("mytext.dat") );
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wxDataInputStream DataInput( FileInput );
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(DataInput.*pfnReader)(&*InValues.begin(), InValues.size());
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}
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m_ok = true;
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for (typename ValueArray::size_type idx=0; idx!=Size; ++idx) {
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if (InValues[idx]!=Values[idx]) {
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m_ok = false;
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break;
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}
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}
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}
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public:
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TestMultiRW(const T *Values,
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size_t Size,
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FnWriter pfnWriter,
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FnReader pfnReader)
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{
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ProcessData(Values, (typename ValueArray::size_type) Size, pfnWriter, pfnReader);
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}
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TestMultiRW(const ValueArray &Values,
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FnWriter pfnWriter,
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FnReader pfnReader)
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{
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ProcessData(&*Values.begin(), Values.size(), pfnWriter, pfnReader);
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}
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bool IsOk() const
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{
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return m_ok;
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}
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};
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template <class T>
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static
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T TestRW(const T &Value)
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{
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T InValue;
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{
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wxFileOutputStream FileOutput( wxT("mytext.dat") );
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wxDataOutputStream DataOutput( FileOutput );
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DataOutput << Value;
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}
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{
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wxFileInputStream FileInput( wxT("mytext.dat") );
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wxDataInputStream DataInput( FileInput );
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DataInput >> InValue;
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}
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return InValue;
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}
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void DataStreamTestCase::FloatRW()
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{
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CPPUNIT_ASSERT( TestFloatRW(5.5) == 5.5 );
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CPPUNIT_ASSERT( TestFloatRW(5) == 5 );
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CPPUNIT_ASSERT( TestFloatRW(5.55) == 5.55 );
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CPPUNIT_ASSERT( TestFloatRW(55555.555555) == 55555.555555 );
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}
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void DataStreamTestCase::DoubleRW()
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{
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CPPUNIT_ASSERT( TestFloatRW(2132131.1232132) == 2132131.1232132 );
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CPPUNIT_ASSERT( TestFloatRW(21321343431.1232143432) == 21321343431.1232143432 );
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}
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#if wxUSE_LONGLONG
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void DataStreamTestCase::LongLongRW()
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{
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TestMultiRW<wxLongLong>::ValueArray ValuesLL;
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TestMultiRW<wxULongLong>::ValueArray ValuesULL;
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ValuesLL.push_back(wxLongLong(0l));
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ValuesLL.push_back(wxLongLong(1l));
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ValuesLL.push_back(wxLongLong(-1l));
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ValuesLL.push_back(wxLongLong(0x12345678l));
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ValuesLL.push_back(wxLongLong(0x12345678l, 0xabcdef01l));
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ValuesULL.push_back(wxULongLong(0l));
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ValuesULL.push_back(wxULongLong(1l));
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ValuesULL.push_back(wxULongLong(0x12345678l));
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ValuesULL.push_back(wxULongLong(0x12345678l, 0xabcdef01l));
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CPPUNIT_ASSERT( TestRW(wxLongLong(0x12345678l)) == wxLongLong(0x12345678l) );
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CPPUNIT_ASSERT( TestRW(wxLongLong(0x12345678l, 0xabcdef01l)) == wxLongLong(0x12345678l, 0xabcdef01l) );
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CPPUNIT_ASSERT( TestMultiRW<wxLongLong>(ValuesLL, &wxDataOutputStream::WriteLL, &wxDataInputStream::ReadLL).IsOk() );
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CPPUNIT_ASSERT( TestMultiRW<wxULongLong>(ValuesULL, &wxDataOutputStream::WriteLL, &wxDataInputStream::ReadLL).IsOk() );
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}
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#endif
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#if wxHAS_INT64
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void DataStreamTestCase::Int64RW()
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{
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TestMultiRW<wxInt64>::ValueArray ValuesI64;
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TestMultiRW<wxUint64>::ValueArray ValuesUI64;
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ValuesI64.push_back(wxInt64(0l));
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ValuesI64.push_back(wxInt64(1l));
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ValuesI64.push_back(wxInt64(-1l));
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ValuesI64.push_back(wxInt64(0x12345678l));
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ValuesI64.push_back((wxInt64(0x12345678l) << 32) + wxInt64(0xabcdef01l));
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ValuesUI64.push_back(wxUint64(0l));
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ValuesUI64.push_back(wxUint64(1l));
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ValuesUI64.push_back(wxUint64(0x12345678l));
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ValuesUI64.push_back((wxUint64(0x12345678l) << 32) + wxUint64(0xabcdef01l));
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CPPUNIT_ASSERT( TestRW(wxUint64(0x12345678l)) == wxUint64(0x12345678l) );
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CPPUNIT_ASSERT( TestRW((wxUint64(0x12345678l) << 32) + wxUint64(0xabcdef01l)) == (wxUint64(0x12345678l) << 32) + wxUint64(0xabcdef01l) );
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CPPUNIT_ASSERT( TestMultiRW<wxInt64>(ValuesI64, &wxDataOutputStream::Write64, &wxDataInputStream::Read64).IsOk() );
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CPPUNIT_ASSERT( TestMultiRW<wxUint64>(ValuesUI64, &wxDataOutputStream::Write64, &wxDataInputStream::Read64).IsOk() );
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}
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#endif
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void DataStreamTestCase::NaNRW()
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{
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//TODO?
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}
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