MCL/sf/os/kernelhwsrv: comparison userlibandfileserver/fatfilenameconversionplugins/test/T

equal deleted inserted replaced

--1:000000000000
+:a41df078684a
+// Copyright (c) 2008-2009 Nokia Corporation and/or its subsidiary(-ies).
+// All rights reserved.
+// This component and the accompanying materials are made available
+// under the terms of the License "Eclipse Public License v1.0"
+// which accompanies this distribution, and is available
+// at the URL "http://www.eclipse.org/legal/epl-v10.html".
+//
+// Initial Contributors:
+// Nokia Corporation - initial contribution.
+//
+// Contributors:
+//
+// Description:
+//
+#include <e32test.h>
+#include <e32des8.h>
+#include <hal.h>
+LOCAL_D RTest test(_L("T_CP54936.exe"));
+_LIT(KName,"CP54936");
+const TUid KPluginUid={0x1028703b};
+void TestOut(const TDesC16 &des)
+	{
+	for (TInt i=0; i<des.Length(); i++)
+		test.Printf(_L("%04X "), des[i]);
+	}
+void TestOut(const TDesC8 &des)
+	{
+	for (TInt i=0; i<des.Length(); i++)
+		test.Printf(_L("%02X "), des[i]);
+	}
+// Used for supressing warning in OOM tests
+#define __UNUSED_VAR(var) var = var
+/**
+@SYMTestCaseID          SYSLIB-FATCHARSETCONV-CT-1778
+@SYMTestCaseDesc	    Tests API behaviours of UnicodeConv class
+@SYMTestPriority 	    High
+@SYMTestActions  	    Tests for conversions from/to Unicode, using a function pointer
+@SYMTestExpectedResults Test must not fail
+*/
+void Test()
+	{
+	test.Next(_L(" @SYMTestCaseID:SYSLIB-FATCHARSETCONV-CT-1778 "));
+	RLibrary lib;
+	const TUidType serverUid(KNullUid,KNullUid,KPluginUid);
+	// load the dll
+	TInt returnValue = lib.Load(KName,serverUid);
+	test(returnValue==0);
+	// get a pointer to the specified ordinal function and call it
+	TLibraryFunction function1 = lib.Lookup(1);
+	TLibraryFunction function2 = lib.Lookup(2);
+	TLibraryFunction function3 = lib.Lookup(3);
+	//cast the function pointer f to a function of type void with two arguments
+	typedef void (*TConvertFromUnicodeL)(TDes8&, const TDesC16&);
+	TConvertFromUnicodeL aConvertFromUnicodeL = reinterpret_cast <TConvertFromUnicodeL> (function1);
+	typedef void (*TConvertToUnicodeL)(TDes16&, const TDesC8&);
+	TConvertToUnicodeL aConvertToUnicodeL = reinterpret_cast <TConvertToUnicodeL> (function2);
+	typedef TBool (*TIsLegalShortNameCharacter)(TUint);
+	TIsLegalShortNameCharacter aIsLegalShortNameCharacter = reinterpret_cast <TIsLegalShortNameCharacter> (function3);
+	// from Test Analysis:
+	// p1:		0x40 -> 0x40
+	// p2:		0x24 -> 0x24
+	// p3:		0x706C -> 0xECE1
+	// p4:		0x4E96 -> 0x8181
+	// p5:		0x20AC -> 0xA2E3
+	// p6:		0x3622 -> 0x8230A730, 0x060C -> 0x81318132
+	// p7:		0x201AD (0xD840 0xDDAD) -> 0x9532AD35
+	// p10-p15:	N/A
+	// p20-p22: N/A
+	// p30:		0x32FF -> 0x8139D633
+	// p31:		0x10500 (0xD801 0xDD00) -> 0x90318330
+	//			0xFFFF -> 0x8431A439
+	_LIT16(Uni_1, "\x0040\xD840\x0024\x060C\x706C\x4E96\x20AC\x3622\xD840\xDDAD\x32FF\xD801\xDD00\xDC00\xFFFF");
+	_LIT8(CP54936_1, "\x40\x5F\x24\x81\x31\x81\x32\xEC\xE1\x81\x81\xA2\xE3\x82\x30\xA7\x30\x95\x32\xAD\x35\x81\x39\xD6\x33\x90\x31\x83\x30\x5F\x84\x31\xA4\x39");
+	TBuf8<200> foreign1;
+	TBuf16<200> unicode2;
+	const TDesC16& unicode1(Uni_1);
+	test.Printf(_L("source: "));	TestOut(unicode1);	test.Printf(_L("\n"));
+	test.Printf(_L("expect: "));	TestOut(CP54936_1);	test.Printf(_L("\n"));
+	//TRAPD(err, (*aConvertFromUnicodeL)(foreign1, unicode1));
+	(*aConvertFromUnicodeL)(foreign1, unicode1); 	//testing conversion from Unicode
+	test.Printf(_L("result: "));	TestOut(foreign1);	test.Printf(_L("\n"));
+	TInt error = foreign1.Compare(CP54936_1);
+	test(error==0);
+	foreign1.Zero();
+	// from Test Analysis:
+	// p1:		0x40
+	// p2:		0x24
+	// p3:		0x706C <- 0xECE1
+	// p4:		0x4E96 <- 0x8181
+	// p5:		0x20AC <- 0xA2E3
+	// p6:		0x3622 <- 0x8230A730, 0x060C <- 0x81318132
+	// p7:		0x201AD (0xD840 0xDDAD) <- 0x9532AD35
+	// p10:		//0x0E -> 0xFFFD
+	// p11:		//0xA0 -> 0xFFFD
+	// p12:		0xA1A0 -> 0xE525
+	// p13:		0xA07F -> 0xFFFD
+	// p14:		0x95328230 -> 0x1FFFA (0xD83F 0xDFFA) //0xFFFD
+	// p15:		0x8130813A -> 0xFFFD
+	// p20-p22:	N/A
+	// p30-p31:	N/A
+	_LIT16(Uni_2, "\x0040\x0024\x706C\x4E96\x20AC\x3622\x060C\xD840\xDDAD\xE525\xFFFD\xD83F\xDFFA\xFFFD");
+	_LIT8(CP54936_2, "\x40\x24\xEC\xE1\x81\x81\xA2\xE3\x82\x30\xA7\x30\x81\x31\x81\x32\x95\x32\xAD\x35\xA1\xA0\xA0\x7F\x95\x32\x82\x30\x81\x30\x81\x3A");
+	const TDesC8& foreign2(CP54936_2);
+	test.Printf(_L("source: "));	TestOut(foreign2);	test.Printf(_L("\n"));
+	test.Printf(_L("expect: "));	TestOut(Uni_2);		test.Printf(_L("\n"));
+	//TRAP(err, (*aConvertToUnicodeL)(unicode2,foreign2));
+	(*aConvertToUnicodeL)(unicode2,foreign2);//); 	//testing conversion to Unicode
+	test.Printf(_L("result: "));	TestOut(unicode2);	test.Printf(_L("\n"));
+	error = unicode2.Compare(Uni_2);
+	test(error==0);
+	unicode2.Zero();
+	//testing for legal short name character
+	TInt result = (*aIsLegalShortNameCharacter)(0x005F); //testing for existent character
+	test(result==1);
+	result = (*aIsLegalShortNameCharacter)(0x003F); //testing for illegal character
+	test(result==0);
+	result = (*aIsLegalShortNameCharacter)(0x2999);
+	test(result==1);
+	result = (*aIsLegalShortNameCharacter)(0x4E02); //testing for a double byte character
+	test(result==1);
+	lib.Close();
+	}
+/**
+@SYMTestCaseID          SYSLIB-FATCHARSETCONV-CT-1847-0001
+@SYMTestCaseDesc	    Tests API behaviours of UnicodeConv class as part of INC090073
+@SYMTestPriority 	    High
+@SYMTestActions  	    Tests for correct character conversion on certain chinese characters for CP936
+@SYMTestExpectedResults Test must not fail
+*/
+void TestINC090073()
+	{
+	test.Next(_L(" @SYMTestCaseID:SYSLIB-FATCHARSETCONV-CT-1847-0001 "));
+	_LIT16(unicode, "\x7CCD\x74EF\x8026\x8F8F\x94F3\x7633\x6DFC\x9785\x7F81\x7A37\x61A9\x80B1\x86A3\x89E5\x80F2\x9B48\x9E47\x6C19\x7B71\x946B\x6B46\x6615");
+	_LIT8(CP932Code, "\xF4\xD9\xEA\xB1\xF1\xEE\xEA\xA3\xEF\xA5\xF1\xAC\xED\xB5\xF7\xB1\xEE\xBF\xF0\xA2\xED\xAC\xEB\xC5\xF2\xBC\xF6\xA1\xEB\xDC\xF7\xCC\xF0\xC2\xEB\xAF\xF3\xE3\xF6\xCE\xEC\xA7\xEA\xBF");
+	RLibrary lib;
+	const TUidType serverUid(KNullUid,KNullUid,KPluginUid);
+	// load the dll
+	TInt returnValue = lib.Load(KName,serverUid);
+	test(returnValue==0);
+	// get a pointer to the specified ordinal function and call it
+	TLibraryFunction function1 = lib.Lookup(1);
+	//cast the function pointer f to a function of type void with two arguments
+	typedef void (*TConvertFromUnicodeL)(TDes8&, const TDesC16&);
+	TConvertFromUnicodeL aConvertFromUnicodeL = reinterpret_cast <TConvertFromUnicodeL> (function1);
+	TBuf8<50> foreign1;
+	foreign1.Zero();
+	const TDesC16& unicode1(unicode);
+	TRAPD(err,(*aConvertFromUnicodeL)(foreign1, unicode1)); 	//testing conversion from Unicode
+	test(err==0);
+	TInt error = foreign1.Compare(CP932Code);
+	test(error==0);
+	foreign1.Zero();
+	lib.Close();
+	}
+void OOMTest()
+	{
+	test.Next(_L("OOM testing"));
+	TInt err, tryCount = 0;
+	do
+		{
+			__UHEAP_MARK;
+		// find out the number of open handles
+		TInt startProcessHandleCount;
+		TInt startThreadHandleCount;
+		RThread().HandleCount(startProcessHandleCount, startThreadHandleCount);
+			// Setting Heap failure for OOM test
+		__UHEAP_SETFAIL(RHeap::EDeterministic, ++tryCount);
+		TRAP(err,Test());
+		__UHEAP_SETFAIL(RHeap::ENone, 0);
+		// check that no handles have leaked
+		TInt endProcessHandleCount;
+		TInt endThreadHandleCount;
+		RThread().HandleCount(endProcessHandleCount, endThreadHandleCount);
+		test(startProcessHandleCount == endProcessHandleCount);
+		test(startThreadHandleCount  == endThreadHandleCount);
+		__UHEAP_MARKEND;
+		}while (err == KErrNoMemory);
+	test(err == KErrNone);
+	test.Printf(_L("- server succeeded at heap failure rate of %i\n"), tryCount);
+	}
+const TInt MaxCount = 10000;	// iteration number for performance tests
+// cp54936 should be faster than cp936
+_LIT(KName936,"CP936");
+const TUid KPluginUid936={0x10206A91};
+void PerformanceTest1()
+	{
+	test.Next(_L("Performance test 1 (comparing with cp936)"));
+	RLibrary lib936;
+	RLibrary lib54936;
+	const TUidType serverUid936(KNullUid,KNullUid,KPluginUid936);
+	const TUidType serverUid54936(KNullUid,KNullUid,KPluginUid);
+	// load the dll
+	TInt returnValue = lib936.Load(KName936,serverUid936);
+	test(returnValue==0);
+	TInt returnValue2 = lib54936.Load(KName,serverUid54936);
+	test(returnValue2==0);
+	// get a pointer to the specified ordinal function and call it
+	TLibraryFunction function9361 = lib936.Lookup(1);
+	TLibraryFunction function9362 = lib936.Lookup(2);
+	TLibraryFunction function9363 = lib936.Lookup(3);
+	TLibraryFunction function549361 = lib54936.Lookup(1);
+	TLibraryFunction function549362 = lib54936.Lookup(2);
+	TLibraryFunction function549363 = lib54936.Lookup(3);
+	//cast the function pointer f to a function of type void with two arguments
+	typedef void (*TConvertFromUnicodeL)(TDes8&, const TDesC16&);
+	TConvertFromUnicodeL aConvertFromUnicode936L = reinterpret_cast <TConvertFromUnicodeL> (function9361);
+	TConvertFromUnicodeL aConvertFromUnicode54936L = reinterpret_cast <TConvertFromUnicodeL> (function549361);
+	typedef void (*TConvertToUnicodeL)(TDes16&, const TDesC8&);
+	TConvertToUnicodeL aConvertToUnicode936L = reinterpret_cast <TConvertToUnicodeL> (function9362);
+	TConvertToUnicodeL aConvertToUnicode54936L = reinterpret_cast <TConvertToUnicodeL> (function549362);
+	// timer
+	TInt count;
+	TChar res2;
+	TBuf<256> msg;
+	TInt fastTimerFreq;
+	HAL::Get(HALData::EFastCounterFrequency, fastTimerFreq);
+	TReal ticksPerMicroSec = 1.0E-6 * fastTimerFreq;
+	TUint prevTime;
+	TUint timeDiff;
+	TReal64 fsSessionMicroSecs;
+	_LIT16(Uni_1, "\x0053\x0059\x004D\x3125\x3122\x9673\xFA29");
+	_LIT8(CP54936_1, "\x53\x59\x4D\xA8\xE5\xA8\xE2\xEA\x90\xFE\x4F");
+	TBuf8<20> foreign1;
+	TBuf16<20> unicode2;
+	const TDesC16& unicode1(Uni_1);
+	TInt error;
+//////////////////////////////////////////////////////////////////////////////
+//////////////////////////////////////////////////////////////////////////////
+	// 1, unicode -> 936
+	// test result: 1448 ms for 100000 iterations
+	test.Printf(_L("unicode --> 936:\n"));
+	test.Printf(_L("        source: "));	TestOut(unicode1);	test.Printf(_L("\n"));
+	test.Printf(_L("        expect: "));	TestOut(CP54936_1);	test.Printf(_L("\n"));
+	prevTime = User::FastCounter();
+	for (count=0; count<MaxCount; count++)
+		{
+		foreign1.Zero();
+		(*aConvertFromUnicode936L)(foreign1, unicode1);
+		}
+	timeDiff = User::FastCounter() - prevTime;
+	fsSessionMicroSecs = timeDiff / (ticksPerMicroSec);
+	msg.Format(_L("                    %10.2lf us, "), fsSessionMicroSecs);
+	test.Printf(_L("        result: "));	TestOut(foreign1);	test.Printf(_L("\n"));
+	test.Printf(msg);
+	error = foreign1.Compare(CP54936_1);
+	test(error==0);
+	foreign1.Zero();
+	test.Printf(_L("\n"));
+	// 2, unicode -> 54936
+	// test result: 44 ms for 100000 iterations
+	test.Printf(_L("unicode --> 54936:\n"));
+	test.Printf(_L("        source: "));	TestOut(unicode1);	test.Printf(_L("\n"));
+	test.Printf(_L("        expect: "));	TestOut(CP54936_1);	test.Printf(_L("\n"));
+	prevTime = User::FastCounter();
+	for (count=0; count<MaxCount; count++)
+		{
+		foreign1.Zero();
+		(*aConvertFromUnicode54936L)(foreign1, unicode1);
+		}
+	timeDiff = User::FastCounter() - prevTime;
+	fsSessionMicroSecs = timeDiff / (ticksPerMicroSec);
+	msg.Format(_L("                    %10.2lf us, "), fsSessionMicroSecs);
+	test.Printf(_L("        result: "));	TestOut(foreign1);	test.Printf(_L("\n"));
+	test.Printf(msg);
+	error = foreign1.Compare(CP54936_1);
+	test(error==0);
+	foreign1.Zero();
+	test.Printf(_L("\n"));
+//////////////////////////////////////////////////////////////////////////////
+//////////////////////////////////////////////////////////////////////////////
+	_LIT16(Uni_2, "\x0032\xFFFD\x7FB1\x0032\xFFFD\x7FB1\x7FB1");
+	_LIT8(CP54936_2, "\x32\xC1\x7F\xC1\x7E\x32\xC1\x7F\xC1\x7E\xC1\x7E");
+	const TDesC8& foreign2(CP54936_2);
+	// 3, 936 -> unicode
+	// test result: 89 ms for 100000 iterations
+	test.Printf(_L("936 ---> unicode:\n"));
+	test.Printf(_L("        source: "));	TestOut(foreign2);	test.Printf(_L("\n"));
+	test.Printf(_L("        expect: "));	TestOut(Uni_2);		test.Printf(_L("\n"));
+	prevTime = User::FastCounter();
+	for (count=0; count<MaxCount; count++)
+		{
+		unicode2.Zero();
+		(*aConvertToUnicode936L)(unicode2,foreign2);
+		}
+	timeDiff = User::FastCounter() - prevTime;
+	fsSessionMicroSecs = timeDiff / (ticksPerMicroSec);
+	msg.Format(_L("                    %10.2lf us, "), fsSessionMicroSecs);
+	test.Printf(_L("        result: "));	TestOut(unicode2);	test.Printf(_L("\n"));
+	test.Printf(msg);
+	error = unicode2.Compare(Uni_2);
+	test(error==0);
+	unicode2.Zero();
+	test.Printf(_L("\n"));
+	// 4, 54936 -> unicode
+	// test result: 36 ms for 100000 iterations
+	test.Printf(_L("54936 ---> unicode:\n"));
+	test.Printf(_L("        source: "));	TestOut(foreign2);	test.Printf(_L("\n"));
+	test.Printf(_L("        expect: "));	TestOut(Uni_2);		test.Printf(_L("\n"));
+	prevTime = User::FastCounter();
+	for (count=0; count<MaxCount; count++)
+		{
+		unicode2.Zero();
+		(*aConvertToUnicode54936L)(unicode2,foreign2);
+		}
+	timeDiff = User::FastCounter() - prevTime;
+	fsSessionMicroSecs = timeDiff / (ticksPerMicroSec);
+	msg.Format(_L("                    %10.2lf us, "), fsSessionMicroSecs);
+	test.Printf(_L("        result: "));	TestOut(unicode2);	test.Printf(_L("\n"));
+	test.Printf(msg);
+	error = unicode2.Compare(Uni_2);
+	test(error==0);
+	unicode2.Zero();
+	test.Printf(_L("\n"));
+	lib936.Close();
+	lib54936.Close();
+//	test.Printf(_L("Press any key...\n"));
+//	test.Getch();
+	}
+// performance when converting mixed data.
+// just for reference.
+// ideally, the test result should be similar to that in PerformanceTest1()
+void PerformanceTest2()
+	{
+	test.Next(_L("Performance test 2 (reference)"));
+	RLibrary lib54936;
+	const TUidType serverUid54936(KNullUid,KNullUid,KPluginUid);
+	// load the dll
+	TInt returnValue2 = lib54936.Load(KName,serverUid54936);
+	test(returnValue2==0);
+	// get a pointer to the specified ordinal function and call it
+	TLibraryFunction function549361 = lib54936.Lookup(1);
+	TLibraryFunction function549362 = lib54936.Lookup(2);
+	TLibraryFunction function549363 = lib54936.Lookup(3);
+	//cast the function pointer f to a function of type void with two arguments
+	typedef void (*TConvertFromUnicodeL)(TDes8&, const TDesC16&);
+	TConvertFromUnicodeL aConvertFromUnicode54936L = reinterpret_cast <TConvertFromUnicodeL> (function549361);
+	typedef void (*TConvertToUnicodeL)(TDes16&, const TDesC8&);
+	TConvertToUnicodeL aConvertToUnicode54936L = reinterpret_cast <TConvertToUnicodeL> (function549362);
+	// timer
+	TInt count;
+	TBuf<256> msg;
+	TInt fastTimerFreq;
+	HAL::Get(HALData::EFastCounterFrequency, fastTimerFreq);
+	TReal ticksPerMicroSec = 1.0E-6 * fastTimerFreq;
+	TUint prevTime;
+	TUint timeDiff;
+	TReal64 fsSessionMicroSecs;
+//////////////////////////////////////////////////////////////////////////////
+//////////////////////////////////////////////////////////////////////////////
+	_LIT16(Uni_1, "\x0053\x0059\x004D\x3125\x3122\x9673\xFA29\x060C\xD840\xDC00");
+	_LIT8(CP54936_1, "\x53\x59\x4D\xA8\xE5\xA8\xE2\xEA\x90\xFE\x4F\x81\x31\x81\x32\x95\x32\x82\x36");
+	TBuf8<200> foreign1;
+	TBuf16<200> unicode2;
+	const TDesC16& unicode1(Uni_1);
+	TInt error;
+	// 2, unicode -> 54936
+	// test result: 130 ms for 100000 iterations (44 ms if one huge table for BMP characters)
+	test.Printf(_L("unicode --> 54936:\n"));
+	test.Printf(_L("        source: "));	TestOut(unicode1);	test.Printf(_L("\n"));
+	test.Printf(_L("        expect: "));	TestOut(CP54936_1);	test.Printf(_L("\n"));
+	prevTime = User::FastCounter();
+	for (count=0; count<MaxCount; count++)
+		{
+		foreign1.Zero();
+		(*aConvertFromUnicode54936L)(foreign1, unicode1);
+		}
+	timeDiff = User::FastCounter() - prevTime;
+	fsSessionMicroSecs = timeDiff / (ticksPerMicroSec);
+	msg.Format(_L("                    %10.2lf us, "), fsSessionMicroSecs);
+	test.Printf(_L("        result: "));	TestOut(foreign1);	test.Printf(_L("\n"));
+	test.Printf(msg);
+	error = foreign1.Compare(CP54936_1);
+	test(error==0);
+	foreign1.Zero();
+	test.Printf(_L("\n"));
+//////////////////////////////////////////////////////////////////////////////
+//////////////////////////////////////////////////////////////////////////////
+	_LIT16(Uni_2, "\x0032\x20AC\xFFFD\x7FB1\x47BB\xD840\xDC00");
+	_LIT8(CP54936_2, "\x32\xA2\xE3\xC1\x7F\xC1\x7E\x82\x33\xED\x33\x95\x32\x82\x36");
+	const TDesC8& foreign2(CP54936_2);
+	// 4, 54936 -> unicode
+	// test result: 36 ms for 100000 iterations
+	test.Printf(_L("54936 ---> unicode:\n"));
+	test.Printf(_L("        source: "));	TestOut(foreign2);	test.Printf(_L("\n"));
+	test.Printf(_L("        expect: "));	TestOut(Uni_2);		test.Printf(_L("\n"));
+	prevTime = User::FastCounter();
+	for (count=0; count<MaxCount; count++)
+		{
+		unicode2.Zero();
+		(*aConvertToUnicode54936L)(unicode2,foreign2);
+		}
+	timeDiff = User::FastCounter() - prevTime;
+	fsSessionMicroSecs = timeDiff / (ticksPerMicroSec);
+	msg.Format(_L("                    %10.2lf us, "), fsSessionMicroSecs);
+	test.Printf(_L("        result: "));	TestOut(unicode2);	test.Printf(_L("\n"));
+	test.Printf(msg);
+	error = unicode2.Compare(Uni_2);
+	test(error==0);
+	unicode2.Zero();
+	test.Printf(_L("\n"));
+	lib54936.Close();
+//	test.Printf(_L("Press any key...\n"));
+//	test.Getch();
+	}
+/**
+@SYMTestCaseID          TI18N-FATCHARCONV-CIT-4001
+@SYMTestCaseDesc        Check GB18030 support
+@SYMTestPriority        High
+@SYMTestActions         1. Get one-byte Unicode codepoint
+2. Convert to/from GB18030 to/from Unicode
+3. Get two-byte Unicode codepoint
+4. Convert to/from GB18030 to/from Unicode
+5. Get four-byte Unicode codepoint
+6. Convert to/from GB18030 to/from Unicode
+@SYMTestExpectedResults No side effect
+@SYMREQ                 REQ12067
+*/
+LOCAL_C void TestConversion( const TDesC16& aUnicode, const TDesC8& a54936, TBool aZero1=ETrue, TBool aZero2=ETrue )
+{
+	test.Next(_L(" @SYMTestCaseID:SYSLIB-FATCHARSETCONV-CT-1778 "));
+	RLibrary lib;
+	const TUidType serverUid(KNullUid,KNullUid,KPluginUid);
+	// load the dll
+	TInt returnValue = lib.Load(KName,serverUid);
+	test(returnValue==0);
+	// get a pointer to the specified ordinal function and call it
+	TLibraryFunction function1 = lib.Lookup(1);
+	TLibraryFunction function2 = lib.Lookup(2);
+	TLibraryFunction function3 = lib.Lookup(3);
+	//cast the function pointer f to a function of type void with two arguments
+	typedef void (*TConvertFromUnicodeL)(TDes8&, const TDesC16&);
+	TConvertFromUnicodeL aConvertFromUnicodeL = reinterpret_cast <TConvertFromUnicodeL> (function1);
+	typedef void (*TConvertToUnicodeL)(TDes16&, const TDesC8&);
+	TConvertToUnicodeL aConvertToUnicodeL = reinterpret_cast <TConvertToUnicodeL> (function2);
+	//	testing conversion from Unicode
+	TBuf8<200> generated54936;
+	test.Printf(_L("source: "));
+	TestOut(aUnicode);
+	test.Printf(_L("\n"));
+	test.Printf(_L("expect: "));
+	TestOut(a54936);
+	test.Printf(_L("\n"));
+	(*aConvertFromUnicodeL)(generated54936, aUnicode);
+	test.Printf(_L("result: "));
+	TestOut(generated54936);
+	test.Printf(_L("\n"));
+	TInt error = generated54936.Compare(a54936);
+	if ( aZero1 )
+	{
+		test(error==0);
+	}
+	else
+	{
+		test(error!=0);
+	}
+	//	testing conversion to Unicode
+	TBuf16<200> generatedUnicode;
+	test.Printf(_L("source: "));
+	TestOut(a54936);
+	test.Printf(_L("\n"));
+	test.Printf(_L("expect: "));
+	TestOut(aUnicode);
+	test.Printf(_L("\n"));
+	(*aConvertToUnicodeL)(generatedUnicode,a54936);
+	test.Printf(_L("result: "));
+	TestOut(generatedUnicode);
+	test.Printf(_L("\n"));
+	error = generatedUnicode.Compare(aUnicode);
+	if ( aZero2 )
+	{
+		test(error==0);
+	}
+	else
+	{
+		test(error!=0);
+	}
+	lib.Close();
+}
+/**
+@SYMTestCaseID          TI18N-CHARCONV-CT-
+@SYMTestCaseDesc        Check GB18030 support
+@SYMTestPriority        High
+@SYMTestActions         1. Get one-byte Unicode codepoint
+						2. Convert to/from GB18030 to/from Unicode
+						3. Get two-byte Unicode codepoint
+						4. Convert to/from GB18030 to/from Unicode
+						5. Get four-byte Unicode codepoint
+						6. Convert to/from GB18030 to/from Unicode
+@SYMTestExpectedResults No side effect
+@SYMREQ                 REQ12067
+*/
+LOCAL_C void TestGbConversion()
+{
+	//	Test() function covers GB 1,2,4 bytes
+	//	one-byte
+	//	border 0x80
+	_LIT16(Uni_0, "\x0000");
+	_LIT8(CP54936_0, "\x00");
+	TestConversion( Uni_0, CP54936_0 );
+	_LIT16(Uni_1, "\x0079");
+	_LIT8(CP54936_1, "\x79");
+	TestConversion( Uni_1, CP54936_1 );
+	_LIT16(Uni_2, "\x0080");
+	_LIT8(CP54936_2, "\x81\x30\x81\x30");
+	TestConversion( Uni_2, CP54936_2 );
+	_LIT16(Uni_3, "\x0081");
+	_LIT8(CP54936_3, "\x81\x30\x81\x31");
+	TestConversion( Uni_3, CP54936_3 );
+	_LIT16(Uni_4, "\x00fe");
+	_LIT8(CP54936_4, "\x81\x30\x8B\x36");
+	TestConversion( Uni_4, CP54936_4 );
+	_LIT16(Uni_5, "\x00ff");
+	_LIT8(CP54936_5, "\x81\x30\x8B\x37");
+	TestConversion( Uni_5, CP54936_5 );
+	//	two-byte
+	_LIT16(Uni_6, "\x0100");
+	_LIT8(CP54936_6, "\x81\x30\x8B\x38");
+	TestConversion( Uni_6, CP54936_6 );
+	_LIT16(Uni_7, "\x0101");
+	_LIT8(CP54936_7, "\xA8\xA1");
+	TestConversion( Uni_7, CP54936_7 );
+	_LIT16(Uni_8, "\x0ffe");
+	_LIT8(CP54936_8, "\x81\x33\x83\x38");
+	TestConversion( Uni_8, CP54936_8 );
+	_LIT16(Uni_9, "\x0fff");
+	_LIT8(CP54936_9, "\x81\x33\x83\x39");
+	TestConversion( Uni_9, CP54936_9 );
+	_LIT16(Uni_10, "\x1000");
+	_LIT8(CP54936_10, "\x81\x33\x84\x30");
+	TestConversion( Uni_10, CP54936_10 );
+	_LIT16(Uni_11, "\x1001");
+	_LIT8(CP54936_11, "\x81\x33\x84\x31");
+	TestConversion( Uni_11, CP54936_11 );
+	_LIT16(Uni_12, "\xfffe");
+	_LIT8(CP54936_12, "\x84\x31\xA4\x38");
+	TestConversion( Uni_12, CP54936_12 );
+	_LIT16(Uni_13, "\xffff");
+	_LIT8(CP54936_13, "\x84\x31\xA4\x39");
+	TestConversion( Uni_13, CP54936_13 );
+	//	four-byte
+	_LIT16(Uni_14, "\xd840\xdc00");
+	_LIT8(CP54936_14, "\x95\x32\x82\x36");
+	TestConversion( Uni_14, CP54936_14 );
+	_LIT16(Uni_15, "\xd840\xdc01");
+	_LIT8(CP54936_15, "\x95\x32\x82\x37");
+	TestConversion( Uni_15, CP54936_15 );
+	_LIT16(Uni_16, "\xD87F\xdffe");
+	_LIT8(CP54936_16, "\x9a\x34\x84\x30");
+	TestConversion( Uni_16, CP54936_16 );
+	_LIT16(Uni_17, "\xD87F\xdfff");
+	_LIT8(CP54936_17, "\x9a\x34\x84\x31");
+	TestConversion( Uni_17, CP54936_17 );
+	//	4-byte gb
+	_LIT16(Uni_18, "\xd840\xddad");
+	_LIT8(CP54936_18, "\x95\x32\xAD\x35");
+	TestConversion( Uni_18, CP54936_18 );
+	_LIT16(Uni_19, "\xd801\xdd00");
+	_LIT8(CP54936_19, "\x90\x31\x83\x30");
+	TestConversion( Uni_19, CP54936_19 );
+}
+/**
+@SYMTestCaseID          TI18N-CHARCONV-CT-
+@SYMTestCaseDesc        Test FAT short name legal character
+@SYMTestPriority        High
+@SYMTestActions         1. Get one-byte Unicode codepoint
+						2. Check if it's legal short name character
+						3. Get two-byte Unicode codepoint
+						4. Check if it's legal short name character
+						5. Get four-byte Unicode codepoint
+						6. Check if it's legal short name character
+@SYMTestExpectedResults No side effect
+@SYMREQ                 REQ12067
+*/
+LOCAL_C void TestShortNameCharacter()
+{
+	test.Next(_L(" @SYMTestCaseID:SYSLIB-FATCHARSETCONV-CT-1778 "));
+	RLibrary lib;
+	const TUidType serverUid(KNullUid,KNullUid,KPluginUid);
+	// 	load the dll
+	TInt returnValue = lib.Load(KName,serverUid);
+	test(returnValue==0);
+	// 	get a pointer to the specified ordinal function and call it
+	TLibraryFunction function1 = lib.Lookup(1);
+	TLibraryFunction function2 = lib.Lookup(2);
+	TLibraryFunction function3 = lib.Lookup(3);
+	typedef TBool (*TIsLegalShortNameCharacter)(TUint);
+	TIsLegalShortNameCharacter aIsLegalShortNameCharacter = reinterpret_cast <TIsLegalShortNameCharacter> (function3);
+	//	testing for legal short name character
+	//	one-byte unicode
+	//	0x20 is space
+	TInt result = (*aIsLegalShortNameCharacter)(0x0019);
+	test(result==0);
+	result = (*aIsLegalShortNameCharacter)(0x0020);
+	test(result==0);
+	result = (*aIsLegalShortNameCharacter)(0x0021);
+	test(result==1);
+	result = (*aIsLegalShortNameCharacter)(0x005F);
+	test(result==1);
+	//	0x80 is ascii border
+	result = (*aIsLegalShortNameCharacter)(0x0079);
+	test(result==1);
+	result = (*aIsLegalShortNameCharacter)(0x0080);
+	test(result==1);
+	result = (*aIsLegalShortNameCharacter)(0x0081);
+	test(result==1);
+	//	testing for illegal character
+	result = (*aIsLegalShortNameCharacter)(0x003F);
+	test(result==0);
+	result = (*aIsLegalShortNameCharacter)(0x22);
+	test(result==0);
+	result = (*aIsLegalShortNameCharacter)(0x2A);
+	test(result==0);
+	result = (*aIsLegalShortNameCharacter)(0x2B);
+	test(result==0);
+	result = (*aIsLegalShortNameCharacter)(0x2C);
+	test(result==0);
+	result = (*aIsLegalShortNameCharacter)(0x2F);
+	test(result==0);
+	result = (*aIsLegalShortNameCharacter)(0x3A);
+	test(result==0);
+	result = (*aIsLegalShortNameCharacter)(0x3B);
+	test(result==0);
+	result = (*aIsLegalShortNameCharacter)(0x3C);
+	test(result==0);
+	result = (*aIsLegalShortNameCharacter)(0x3D);
+	test(result==0);
+	result = (*aIsLegalShortNameCharacter)(0x3E);
+	test(result==0);
+	result = (*aIsLegalShortNameCharacter)(0x5B);
+	test(result==0);
+	result = (*aIsLegalShortNameCharacter)(0x5C);
+	test(result==0);
+	result = (*aIsLegalShortNameCharacter)(0x5D);
+	test(result==0);
+	result = (*aIsLegalShortNameCharacter)(0x7C);
+	test(result==0);
+	//	two-byte unicode
+	result = (*aIsLegalShortNameCharacter)(0x1000);
+	test(result==1);
+	result = (*aIsLegalShortNameCharacter)(0x1001);
+	test(result==1);
+	result = (*aIsLegalShortNameCharacter)(0x2999); //testing for non-existent character
+	test(result==1);
+	result = (*aIsLegalShortNameCharacter)(0x4E02); //testing for a double byte character
+	test(result==1);
+	result = (*aIsLegalShortNameCharacter)(0xfffe);
+	test(result==1);
+	result = (*aIsLegalShortNameCharacter)(0xffff);
+	test(result==1);
+	result = (*aIsLegalShortNameCharacter)(0xd7ff);
+	test(result==1);
+	//	surrogate part
+	result = (*aIsLegalShortNameCharacter)(0xd800);
+	test(result==0);
+	result = (*aIsLegalShortNameCharacter)(0xdfff);
+	test(result==0);
+	result = (*aIsLegalShortNameCharacter)(0xe000);
+	test(result==1);
+	//	four-byte unicode
+	result = (*aIsLegalShortNameCharacter)(0x10000);
+	test(result==1);
+	result = (*aIsLegalShortNameCharacter)(0x10001);
+	test(result==1);
+	result = (*aIsLegalShortNameCharacter)(0x10fffe);
+	test(result==1);
+	result = (*aIsLegalShortNameCharacter)(0x10ffff);
+	test(result==1);
+	result = (*aIsLegalShortNameCharacter)(0x110000);
+	test(result==0);
+	lib.Close();
+}
+LOCAL_C void DoE32MainL()
+	{
+	__UHEAP_MARK;
+	TestGbConversion();
+	TestShortNameCharacter();
+	Test();
+	TestINC090073();
+	OOMTest();
+	PerformanceTest1();
+	PerformanceTest2();
+	__UHEAP_MARKEND;
+	}
+GLDEF_C TInt E32Main()
+	{
+	__UHEAP_MARK;
+	test.Title();
+	test.Start(_L("CP54936 test..."));
+	CTrapCleanup* trapCleanup=CTrapCleanup::New();
+	TRAPD(error, DoE32MainL());
+	test(error==KErrNone);
+	delete trapCleanup;
+	test.End();
+	test.Close();
+	__UHEAP_MARKEND;
+	return error;
+	}

changeset 0	a41df078684a
child 2	4122176ea935