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/*
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* Copyright (c) 2000-2005 Nokia Corporation and/or its subsidiary(-ies).
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* All rights reserved.
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* This component and the accompanying materials are made available
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* under the terms of the License "Eclipse Public License v1.0"
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* which accompanies this distribution, and is available
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* at the URL "http://www.eclipse.org/legal/epl-v10.html".
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*
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* Initial Contributors:
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* Nokia Corporation - initial contribution.
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*
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* Contributors:
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*
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* Description:
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*
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*/
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#include <e32std.h>
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#include <e32base.h>
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#include <e32test.h>
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#include <f32file.h>
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#include <charconv.h>
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///////////////////////////////////////////////////////////////////////////////////////
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RTest TheTest(_L("THZ"));
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///////////////////////////////////////////////////////////////////////////////////////
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///////////////////////////////////////////////////////////////////////////////////////
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//Tests macroses and functions.
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//If (!aValue) then the test will be panicked, the test data files will be deleted.
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static void Check(TInt aValue, TInt aLine)
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{
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if(!aValue)
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{
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TheTest(EFalse, aLine);
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}
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}
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//If (aValue != aExpected) then the test will be panicked, the test data files will be deleted.
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static void Check(TInt aValue, TInt aExpected, TInt aLine)
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{
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if(aValue != aExpected)
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{
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RDebug::Print(_L("*** Expected error: %d, got: %d\r\n"), aExpected, aValue);
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TheTest(EFalse, aLine);
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}
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}
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//Use these to test conditions.
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#define TEST(arg) ::Check((arg), __LINE__)
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#define TEST2(aValue, aExpected) ::Check(aValue, aExpected, __LINE__)
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///////////////////////////////////////////////////////////////////////////////////////
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///////////////////////////////////////////////////////////////////////////////////////
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const TInt KBufferLength=100;
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/**
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@SYMTestCaseID SYSLIB-CHARCONV-CT-0503
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@SYMTestCaseDesc Tests for truncated conversion from Unicode to HZ character set
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@SYMTestPriority Medium
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@SYMTestActions Tests for generated Unicode with the original Unicode
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@SYMTestExpectedResults Test must not fail
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@SYMREQ REQ0000
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*/
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LOCAL_C void TestTruncatedConversionFromUnicodeToHz(CCnvCharacterSetConverter& aCharacterSetConverter, const TDesC16& aOriginalUnicode)
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{
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for (TInt i=aOriginalUnicode.Length(); i>=0; --i)
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{
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TBuf8<KBufferLength> generatedHz;
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const TInt returnValue=aCharacterSetConverter.ConvertFromUnicode(generatedHz, aOriginalUnicode.Left(i));
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TEST(returnValue>=0);
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TBuf8<KBufferLength> generatedsecondPartOfHz;
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TEST(aCharacterSetConverter.ConvertFromUnicode(generatedsecondPartOfHz, aOriginalUnicode.Mid(i-returnValue))==0);
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generatedHz.Append(generatedsecondPartOfHz);
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TInt state=CCnvCharacterSetConverter::KStateDefault;
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TBuf16<KBufferLength> generatedUnicode;
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TEST(aCharacterSetConverter.ConvertToUnicode(generatedUnicode, generatedHz, state)==0);
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TEST(generatedUnicode==aOriginalUnicode);
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}
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}
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/**
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@SYMTestCaseID SYSLIB-CHARCONV-CT-0504
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@SYMTestCaseDesc Splitting and converting from Unicode to HZ test
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@SYMTestPriority Medium
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@SYMTestActions Tests for conversion after splitting from Unicode to Hz and back to Unicode
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@SYMTestExpectedResults Test must not fail
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@SYMREQ REQ0000
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*/
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LOCAL_C void TestSplittingConvertingFromUnicodeToHz(CCnvCharacterSetConverter& aCharacterSetConverter, TInt aMaximumLengthLowerLimit, TInt aMaximumLengthUpperLimit, TInt aExpectedNumberOfUnicodeCharactersNotConvertedAtSplit, const TDesC8& aExpectedFirstPartOfHz, const TDesC8& aExpectedSecondPartOfHz, const TDesC16& aOriginalUnicode)
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{
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TEST(aMaximumLengthLowerLimit<=aMaximumLengthUpperLimit);
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TEST(aMaximumLengthUpperLimit<=KBufferLength);
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TUint8 hzBuffer[KBufferLength];
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for (TInt i=aMaximumLengthLowerLimit; i<=aMaximumLengthUpperLimit; ++i)
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{
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TPtr8 generatedFirstPartOfHz(hzBuffer, i);
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TEST(aCharacterSetConverter.ConvertFromUnicode(generatedFirstPartOfHz, aOriginalUnicode)==aExpectedNumberOfUnicodeCharactersNotConvertedAtSplit);
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TEST(generatedFirstPartOfHz==aExpectedFirstPartOfHz);
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TBuf8<KBufferLength> generatedSecondPartOfHz;
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TEST(aCharacterSetConverter.ConvertFromUnicode(generatedSecondPartOfHz, aOriginalUnicode.Right(aExpectedNumberOfUnicodeCharactersNotConvertedAtSplit))==0);
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TEST(generatedSecondPartOfHz==aExpectedSecondPartOfHz);
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TInt state=CCnvCharacterSetConverter::KStateDefault;
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TBuf16<KBufferLength> generatedUnicode;
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TEST(aCharacterSetConverter.ConvertToUnicode(generatedUnicode, generatedFirstPartOfHz, state)==0);
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TEST(state==CCnvCharacterSetConverter::KStateDefault);
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TBuf16<KBufferLength> generatedSecondPartOfUnicode;
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TEST(aCharacterSetConverter.ConvertToUnicode(generatedSecondPartOfUnicode, generatedSecondPartOfHz, state)==0);
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TEST(state==CCnvCharacterSetConverter::KStateDefault);
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generatedUnicode.Append(generatedSecondPartOfUnicode);
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TEST(generatedUnicode==aOriginalUnicode);
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}
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}
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/**
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@SYMTestCaseID SYSLIB-CHARCONV-CT-0505
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@SYMTestCaseDesc Tests for truncated conversion from HZ to Unicode
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@SYMTestPriority Medium
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@SYMTestActions Tests for conversion after truncation from HZ to Unicode and back to HZ
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@SYMTestExpectedResults Test must not fail
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@SYMREQ REQ0000
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*/
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LOCAL_C void TestTruncatedConversionToUnicodeFromHz(CCnvCharacterSetConverter& aCharacterSetConverter, const TDesC16& aExpectedUnicode, const TDesC8& aOriginalHz)
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{
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for (TInt i=aOriginalHz.Length(); i>=2; --i) // 2 is the length of HZ's "tilde" sequences
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{
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TInt state=CCnvCharacterSetConverter::KStateDefault;
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TBuf16<KBufferLength> generatedUnicode;
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const TInt returnValue=aCharacterSetConverter.ConvertToUnicode(generatedUnicode, aOriginalHz.Left(i), state);
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TEST(returnValue>=0);
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TBuf16<KBufferLength> generatedsecondPartOfUnicode;
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TEST(aCharacterSetConverter.ConvertToUnicode(generatedsecondPartOfUnicode, aOriginalHz.Mid(i-returnValue), state)==0);
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generatedUnicode.Append(generatedsecondPartOfUnicode);
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TEST(generatedUnicode==aExpectedUnicode);
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}
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}
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/**
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@SYMTestCaseID SYSLIB-CHARCONV-CT-0506
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@SYMTestCaseDesc Splitting and converting to Unicode from HZ test
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@SYMTestPriority Medium
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@SYMTestActions Tests for conversion after splitting from Hz to Unicode and back to Hz
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@SYMTestExpectedResults Test must not fail
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@SYMREQ REQ0000
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*/
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LOCAL_C void TestSplittingConvertingToUnicodeFromHz(CCnvCharacterSetConverter& aCharacterSetConverter, TInt aMaximumLengthLowerLimit, TInt aMaximumLengthUpperLimit, TInt aExpectedNumberOfHzBytesNotConvertedAtSplit, TInt aExpectedStateAtSplit, TInt aExpectedLengthOfFirstPartOfUnicode, const TDesC16& aExpectedUnicode, const TDesC8& aOriginalHz)
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{
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TEST(aMaximumLengthLowerLimit<=aMaximumLengthUpperLimit);
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TEST(aMaximumLengthUpperLimit<=KBufferLength);
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TUint16 unicodeBuffer[KBufferLength];
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for (TInt i=aMaximumLengthLowerLimit; i<=aMaximumLengthUpperLimit; ++i)
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{
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TPtr16 generatedFirstPartOfUnicode(unicodeBuffer, i);
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TInt state=CCnvCharacterSetConverter::KStateDefault;
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const TInt returnValue=aCharacterSetConverter.ConvertToUnicode(generatedFirstPartOfUnicode, aOriginalHz, state);
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TEST(generatedFirstPartOfUnicode==aExpectedUnicode.Left(aExpectedLengthOfFirstPartOfUnicode));
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TEST((returnValue==aExpectedNumberOfHzBytesNotConvertedAtSplit) && (state==aExpectedStateAtSplit));
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{
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TBuf16<KBufferLength> generatedSecondPartOfUnicode;
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state=aExpectedStateAtSplit;
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TEST(aCharacterSetConverter.ConvertToUnicode(generatedSecondPartOfUnicode, aOriginalHz.Right(aExpectedNumberOfHzBytesNotConvertedAtSplit), state)==0);
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TEST(generatedSecondPartOfUnicode==aExpectedUnicode.Mid(aExpectedLengthOfFirstPartOfUnicode));
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TEST(state==CCnvCharacterSetConverter::KStateDefault);
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TBuf8<KBufferLength> generatedHz;
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TEST(aCharacterSetConverter.ConvertFromUnicode(generatedHz, generatedFirstPartOfUnicode)==0);
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TBuf8<KBufferLength> generatedSecondPartOfHz;
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TEST(aCharacterSetConverter.ConvertFromUnicode(generatedSecondPartOfHz, generatedSecondPartOfUnicode)==0);
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generatedHz.Append(generatedSecondPartOfHz);
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TBuf16<KBufferLength> regeneratedUnicode;
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state=CCnvCharacterSetConverter::KStateDefault;
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TEST(aCharacterSetConverter.ConvertToUnicode(regeneratedUnicode, generatedHz, state)==0);
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TEST(regeneratedUnicode==aExpectedUnicode);
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TEST(state==CCnvCharacterSetConverter::KStateDefault);
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TEST(aCharacterSetConverter.ConvertToUnicode(regeneratedUnicode, aOriginalHz, state)==0);
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TEST(regeneratedUnicode==aExpectedUnicode);
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TEST(state==CCnvCharacterSetConverter::KStateDefault);
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}
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{
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TBuf16<KBufferLength> generatedSecondPartOfUnicode;
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state=aExpectedStateAtSplit;
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TEST(aCharacterSetConverter.ConvertToUnicode(generatedSecondPartOfUnicode, aOriginalHz.Right(aExpectedNumberOfHzBytesNotConvertedAtSplit), state)==0);
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TEST(generatedSecondPartOfUnicode==aExpectedUnicode.Mid(aExpectedLengthOfFirstPartOfUnicode));
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TEST(state==CCnvCharacterSetConverter::KStateDefault);
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TBuf8<KBufferLength> generatedHz;
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TEST(aCharacterSetConverter.ConvertFromUnicode(generatedHz, generatedFirstPartOfUnicode)==0);
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TBuf8<KBufferLength> generatedSecondPartOfHz;
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TEST(aCharacterSetConverter.ConvertFromUnicode(generatedSecondPartOfHz, generatedSecondPartOfUnicode)==0);
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generatedHz.Append(generatedSecondPartOfHz);
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TBuf16<KBufferLength> regeneratedUnicode;
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state=CCnvCharacterSetConverter::KStateDefault;
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TEST(aCharacterSetConverter.ConvertToUnicode(regeneratedUnicode, generatedHz, state)==0);
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TEST(regeneratedUnicode==aExpectedUnicode);
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TEST(state==CCnvCharacterSetConverter::KStateDefault);
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TEST(aCharacterSetConverter.ConvertToUnicode(regeneratedUnicode, aOriginalHz, state)==0);
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TEST(regeneratedUnicode==aExpectedUnicode);
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TEST(state==CCnvCharacterSetConverter::KStateDefault);
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}
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}
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}
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/**
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@SYMTestCaseID SYSLIB-CHARCONV-CT-0507
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@SYMTestCaseDesc Conversion of bad HZ format to Unicode test
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@SYMTestPriority Medium
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@SYMTestActions Tests to convert bad Hz format to Unicode.
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Check the status of CCnvCharacterSetConverter::EErrorIllFormedInput error flag
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@SYMTestExpectedResults Test must not fail
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@SYMREQ REQ0000
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*/
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LOCAL_C void TestIsIllFormedHz(CCnvCharacterSetConverter& aCharacterSetConverter, const TDesC8& aHz)
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{
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TBuf16<50> generatedUnicode;
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TInt state=CCnvCharacterSetConverter::KStateDefault;
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TPtrC8 remainderOfHz(aHz);
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TInt lastReturnValue=KMaxTInt;
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FOREVER
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{
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const TInt returnValue=aCharacterSetConverter.ConvertToUnicode(generatedUnicode, remainderOfHz, state);
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if (returnValue==CCnvCharacterSetConverter::EErrorIllFormedInput)
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{
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break;
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}
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TEST(returnValue>0);
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TEST(returnValue<lastReturnValue);
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lastReturnValue=returnValue;
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remainderOfHz.Set(remainderOfHz.Right(returnValue));
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}
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}
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/**
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@SYMTestCaseID SYSLIB-CHARCONV-CT-0508
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@SYMTestCaseDesc HZ to Unicode and Unicode to HZ conversion tests
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@SYMTestPriority Medium
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@SYMTestActions Wrapper function to call HZ conversion test functions
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@SYMTestExpectedResults Test must not fail
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@SYMREQ REQ0000
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*/
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LOCAL_C void DoE32MainL()
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{
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RFs fileServerSession;
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CleanupClosePushL(fileServerSession);
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User::LeaveIfError(fileServerSession.Connect());
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CCnvCharacterSetConverter* characterSetConverter=CCnvCharacterSetConverter::NewLC();
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CArrayFix<CCnvCharacterSetConverter::SCharacterSet>* arrayOfCharacterSetsAvailable=CCnvCharacterSetConverter::CreateArrayOfCharacterSetsAvailableLC(fileServerSession);
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TheTest.Printf(_L("Available:\n"));
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for (TInt i=arrayOfCharacterSetsAvailable->Count()-1; i>=0; --i)
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{
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const CCnvCharacterSetConverter::SCharacterSet& charactersSet=(*arrayOfCharacterSetsAvailable)[i];
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characterSetConverter->PrepareToConvertToOrFromL(charactersSet.Identifier(), *arrayOfCharacterSetsAvailable, fileServerSession);
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TPtrC charactersSetName(charactersSet.Name());
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if (charactersSet.NameIsFileName())
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{
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charactersSetName.Set(TParsePtrC(charactersSetName).Name());
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}
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TheTest.Printf(_L(" %S\n"), &charactersSetName);
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}
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TheTest.Start(_L("Testing HZ conversions"));
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characterSetConverter->PrepareToConvertToOrFromL(KCharacterSetIdentifierHz, *arrayOfCharacterSetsAvailable, fileServerSession);
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//
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TheTest.Next(_L("Empty descriptor"));
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TestSplittingConvertingFromUnicodeToHz(*characterSetConverter, 0, 10, 0, KNullDesC8, KNullDesC8, KNullDesC16);
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TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 0, 10, 0, CCnvCharacterSetConverter::KStateDefault, 0, KNullDesC16, KNullDesC8);
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TheTest.Next(_L("Testing converting to HZ"));
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TBuf16<50> originalUnicode;
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originalUnicode.Format(_L16("%c%cxyz%c%c~%c~~%ce~a%c"), 0x4e2d, 0x56fd, 0x5979, 0x4ed6, 0x4eba, 0x4e09, 0x7259);
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TestTruncatedConversionFromUnicodeToHz(*characterSetConverter, originalUnicode);
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TestSplittingConvertingFromUnicodeToHz(*characterSetConverter, 0, 5, 16, KNullDesC8, _L8("~{VP9z~}xyz~{K}K{~}~~~{HK~}~~~~~{H}~}e~~a~{Q@~}"), originalUnicode);
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TestSplittingConvertingFromUnicodeToHz(*characterSetConverter, 6, 7, 15, _L8("~{VP~}"), _L8("~{9z~}xyz~{K}K{~}~~~{HK~}~~~~~{H}~}e~~a~{Q@~}"), originalUnicode);
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TestSplittingConvertingFromUnicodeToHz(*characterSetConverter, 8, 8, 14, _L8("~{VP9z~}"), _L8("xyz~{K}K{~}~~~{HK~}~~~~~{H}~}e~~a~{Q@~}"), originalUnicode);
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TestSplittingConvertingFromUnicodeToHz(*characterSetConverter, 9, 9, 13, _L8("~{VP9z~}x"), _L8("yz~{K}K{~}~~~{HK~}~~~~~{H}~}e~~a~{Q@~}"), originalUnicode);
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TestSplittingConvertingFromUnicodeToHz(*characterSetConverter, 10, 10, 12, _L8("~{VP9z~}xy"), _L8("z~{K}K{~}~~~{HK~}~~~~~{H}~}e~~a~{Q@~}"), originalUnicode);
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TestSplittingConvertingFromUnicodeToHz(*characterSetConverter, 11, 16, 11, _L8("~{VP9z~}xyz"), _L8("~{K}K{~}~~~{HK~}~~~~~{H}~}e~~a~{Q@~}"), originalUnicode);
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TestSplittingConvertingFromUnicodeToHz(*characterSetConverter, 17, 18, 10, _L8("~{VP9z~}xyz~{K}~}"), _L8("~{K{~}~~~{HK~}~~~~~{H}~}e~~a~{Q@~}"), originalUnicode);
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TestSplittingConvertingFromUnicodeToHz(*characterSetConverter, 19, 20, 9, _L8("~{VP9z~}xyz~{K}K{~}"), _L8("~~~{HK~}~~~~~{H}~}e~~a~{Q@~}"), originalUnicode);
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TestSplittingConvertingFromUnicodeToHz(*characterSetConverter, 21, 26, 8, _L8("~{VP9z~}xyz~{K}K{~}~~"), _L8("~{HK~}~~~~~{H}~}e~~a~{Q@~}"), originalUnicode);
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TestSplittingConvertingFromUnicodeToHz(*characterSetConverter, 27, 28, 7, _L8("~{VP9z~}xyz~{K}K{~}~~~{HK~}"), _L8("~~~~~{H}~}e~~a~{Q@~}"), originalUnicode);
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TestSplittingConvertingFromUnicodeToHz(*characterSetConverter, 29, 30, 6, _L8("~{VP9z~}xyz~{K}K{~}~~~{HK~}~~"), _L8("~~~{H}~}e~~a~{Q@~}"), originalUnicode);
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TestSplittingConvertingFromUnicodeToHz(*characterSetConverter, 31, 36, 5, _L8("~{VP9z~}xyz~{K}K{~}~~~{HK~}~~~~"), _L8("~{H}~}e~~a~{Q@~}"), originalUnicode);
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TestSplittingConvertingFromUnicodeToHz(*characterSetConverter, 37, 37, 4, _L8("~{VP9z~}xyz~{K}K{~}~~~{HK~}~~~~~{H}~}"), _L8("e~~a~{Q@~}"), originalUnicode);
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TestSplittingConvertingFromUnicodeToHz(*characterSetConverter, 38, 39, 3, _L8("~{VP9z~}xyz~{K}K{~}~~~{HK~}~~~~~{H}~}e"), _L8("~~a~{Q@~}"), originalUnicode);
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TestSplittingConvertingFromUnicodeToHz(*characterSetConverter, 40, 40, 2, _L8("~{VP9z~}xyz~{K}K{~}~~~{HK~}~~~~~{H}~}e~~"), _L8("a~{Q@~}"), originalUnicode);
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TestSplittingConvertingFromUnicodeToHz(*characterSetConverter, 41, 46, 1, _L8("~{VP9z~}xyz~{K}K{~}~~~{HK~}~~~~~{H}~}e~~a"), _L8("~{Q@~}"), originalUnicode);
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TestSplittingConvertingFromUnicodeToHz(*characterSetConverter, 47, 50, 0, _L8("~{VP9z~}xyz~{K}K{~}~~~{HK~}~~~~~{H}~}e~~a~{Q@~}"), KNullDesC8, originalUnicode);
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TheTest.Next(_L("Testing converting to Unicode"));
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const TPtrC8 originalHz(_S8("My name is ~{3W~} ~~~~{~~I ~{'X'Z'S'e~} in ~{11>)~}~~~~}~~~~"));
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TBuf16<50> expectedUnicode;
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expectedUnicode.Format(_L16("My name is %c ~~{~I %c%c%c%c in %c%c~~}~~"), 0x5319, 0x0436, 0x0438, 0x0432, 0x0443, 0x5317, 0x4eac);
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TestTruncatedConversionToUnicodeFromHz(*characterSetConverter, expectedUnicode, originalHz);
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TestTruncatedConversionToUnicodeFromHz(*characterSetConverter, _L16("Hello"), _L8("~{~}~{~}~{~}Hello"));
|
|
291 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 0, 0, 60, CCnvCharacterSetConverter::KStateDefault, 0, expectedUnicode, originalHz);
|
|
292 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 1, 1, 59, CCnvCharacterSetConverter::KStateDefault, 1, expectedUnicode, originalHz);
|
|
293 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 2, 2, 58, CCnvCharacterSetConverter::KStateDefault, 2, expectedUnicode, originalHz);
|
|
294 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 3, 3, 57, CCnvCharacterSetConverter::KStateDefault, 3, expectedUnicode, originalHz);
|
|
295 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 4, 4, 56, CCnvCharacterSetConverter::KStateDefault, 4, expectedUnicode, originalHz);
|
|
296 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 5, 5, 55, CCnvCharacterSetConverter::KStateDefault, 5, expectedUnicode, originalHz);
|
|
297 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 6, 6, 54, CCnvCharacterSetConverter::KStateDefault, 6, expectedUnicode, originalHz);
|
|
298 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 7, 7, 53, CCnvCharacterSetConverter::KStateDefault, 7, expectedUnicode, originalHz);
|
|
299 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 8, 8, 52, CCnvCharacterSetConverter::KStateDefault, 8, expectedUnicode, originalHz);
|
|
300 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 9, 9, 51, CCnvCharacterSetConverter::KStateDefault, 9, expectedUnicode, originalHz);
|
|
301 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 10, 10, 50, CCnvCharacterSetConverter::KStateDefault, 10, expectedUnicode, originalHz);
|
|
302 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 11, 11, 47, CCnvCharacterSetConverter::KStateDefault+1, 11, expectedUnicode, originalHz);
|
|
303 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 12, 12, 43, CCnvCharacterSetConverter::KStateDefault, 12, expectedUnicode, originalHz);
|
|
304 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 13, 13, 42, CCnvCharacterSetConverter::KStateDefault, 13, expectedUnicode, originalHz);
|
|
305 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 14, 14, 40, CCnvCharacterSetConverter::KStateDefault, 14, expectedUnicode, originalHz);
|
|
306 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 15, 15, 38, CCnvCharacterSetConverter::KStateDefault, 15, expectedUnicode, originalHz);
|
|
307 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 16, 16, 37, CCnvCharacterSetConverter::KStateDefault, 16, expectedUnicode, originalHz);
|
|
308 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 17, 17, 35, CCnvCharacterSetConverter::KStateDefault, 17, expectedUnicode, originalHz);
|
|
309 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 18, 18, 34, CCnvCharacterSetConverter::KStateDefault, 18, expectedUnicode, originalHz);
|
|
310 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 19, 19, 31, CCnvCharacterSetConverter::KStateDefault+1, 19, expectedUnicode, originalHz);
|
|
311 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 20, 20, 29, CCnvCharacterSetConverter::KStateDefault+1, 20, expectedUnicode, originalHz);
|
|
312 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 21, 21, 27, CCnvCharacterSetConverter::KStateDefault+1, 21, expectedUnicode, originalHz);
|
|
313 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 22, 22, 25, CCnvCharacterSetConverter::KStateDefault+1, 22, expectedUnicode, originalHz);
|
|
314 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 23, 23, 21, CCnvCharacterSetConverter::KStateDefault, 23, expectedUnicode, originalHz);
|
|
315 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 24, 24, 20, CCnvCharacterSetConverter::KStateDefault, 24, expectedUnicode, originalHz);
|
|
316 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 25, 25, 19, CCnvCharacterSetConverter::KStateDefault, 25, expectedUnicode, originalHz);
|
|
317 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 26, 26, 18, CCnvCharacterSetConverter::KStateDefault, 26, expectedUnicode, originalHz);
|
|
318 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 27, 27, 15, CCnvCharacterSetConverter::KStateDefault+1, 27, expectedUnicode, originalHz);
|
|
319 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 28, 28, 13, CCnvCharacterSetConverter::KStateDefault+1, 28, expectedUnicode, originalHz);
|
|
320 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 29, 29, 9, CCnvCharacterSetConverter::KStateDefault, 29, expectedUnicode, originalHz);
|
|
321 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 30, 30, 7, CCnvCharacterSetConverter::KStateDefault, 30, expectedUnicode, originalHz);
|
|
322 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 31, 31, 5, CCnvCharacterSetConverter::KStateDefault, 31, expectedUnicode, originalHz);
|
|
323 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 32, 32, 4, CCnvCharacterSetConverter::KStateDefault, 32, expectedUnicode, originalHz);
|
|
324 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 33, 33, 2, CCnvCharacterSetConverter::KStateDefault, 33, expectedUnicode, originalHz);
|
|
325 |
TestSplittingConvertingToUnicodeFromHz(*characterSetConverter, 34, 40, 0, CCnvCharacterSetConverter::KStateDefault, 34, expectedUnicode, originalHz);
|
|
326 |
TheTest.Next(_L("Having '~' as the second byte of a Chinese character"));
|
|
327 |
originalUnicode.Format(_L16("1%c2"), 0x4e8c);
|
|
328 |
TestSplittingConvertingFromUnicodeToHz(*characterSetConverter, 0, 0, 3, KNullDesC8, _L8("1~{6~~}2"), originalUnicode);
|
|
329 |
TestSplittingConvertingFromUnicodeToHz(*characterSetConverter, 1, 6, 2, _L8("1"), _L8("~{6~~}2"), originalUnicode);
|
|
330 |
TestSplittingConvertingFromUnicodeToHz(*characterSetConverter, 7, 7, 1, _L8("1~{6~~}"), _L8("2"), originalUnicode);
|
|
331 |
TestSplittingConvertingFromUnicodeToHz(*characterSetConverter, 8, 20, 0, _L8("1~{6~~}2"), KNullDesC8, originalUnicode);
|
|
332 |
TheTest.Next(_L("Testing ill-formed HZ"));
|
|
333 |
TestIsIllFormedHz(*characterSetConverter, _L8("abc ~{C~} def"));
|
|
334 |
TestIsIllFormedHz(*characterSetConverter, _L8("abc ~{C;C~} def"));
|
|
335 |
TestIsIllFormedHz(*characterSetConverter, _L8("abc ~{C;C;C~} def"));
|
|
336 |
TestIsIllFormedHz(*characterSetConverter, _L8("abc ~"));
|
|
337 |
TestIsIllFormedHz(*characterSetConverter, _L8("abc ~{~"));
|
|
338 |
TestIsIllFormedHz(*characterSetConverter, _L8("abc ~{C"));
|
|
339 |
// note that...................................._L8("abc ~{C~") is actually well-formed
|
|
340 |
TestIsIllFormedHz(*characterSetConverter, _L8("abc ~{C;~"));
|
|
341 |
CleanupStack::PopAndDestroy(3); // arrayOfCharacterSetsAvailable and characterSetConverter and fileServerSession
|
|
342 |
}
|
|
343 |
|
|
344 |
GLDEF_C TInt E32Main()
|
|
345 |
{
|
|
346 |
__UHEAP_MARK;
|
|
347 |
|
|
348 |
TheTest.Title();
|
|
349 |
|
|
350 |
CTrapCleanup* trapCleanup=CTrapCleanup::New();
|
|
351 |
TEST(trapCleanup != NULL);
|
|
352 |
|
|
353 |
TRAPD(error, DoE32MainL());
|
|
354 |
TEST2(error, KErrNone);
|
|
355 |
|
|
356 |
delete trapCleanup;
|
|
357 |
|
|
358 |
TheTest.End();
|
|
359 |
TheTest.Close();
|
|
360 |
|
|
361 |
__UHEAP_MARKEND;
|
|
362 |
return KErrNone;
|
|
363 |
}
|
|
364 |
|