// Copyright (c) 2006-2009 Nokia Corporation and/or its subsidiary(-ies).
// All rights reserved.
// This component and the accompanying materials are made available
// under the terms of "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:
// These macros and templates extend the tef testsuite support.
//
//
/**
@file
@test
@internalComponent - Internal Symbian test code
*/
#ifndef __EXTENDTEF_H__
#define __EXTENDTEF_H__
#include <test/tefunit.h>
// Adds a test suite that is not called CreateSuiteL so that one class can describe multiple subsets of tests.
#define ADD_TEST_SUITE_SUB(subname) \
_LIT( KTest ## subname, #subname); \
lTestSuite->AddL( CreateSuiteSub##subname##L( KTest##subname));
// Calls a subfunction to add more members to the current test suite at the current level. Can be the same function as used to create nested tests.
#define ADD_TEST_SUITE_SUB_FLAT(subname) \
_LIT( KTest ## subname, #subname); \
CreateSuiteSub##subname##L( KTest##subname,lTestSuite);
// Allows the class suite to be added with a name different to the class name, so class names can be computational
#define ADD_TEST_SUITE_MODULE_SUB_AS(module,subname,as) \
_LIT( KTest ## as, #as); \
lTestSuite->AddL( module::CreateSuiteSub##subname##L( KTest##as));
/** Use in a subsuite to distinguish between ADD_TEST_SUITE_SUB and ADD_TEST_SUITE_SUB_FLAT caller
* ClassName is required - it defines the name of the class containing the referenced methods.
* aTestSuite is optional - it should be the function parameter aTestSuite or the keyword NULL
**/
#define SUB_SUITE_OPT(ClassName,aTestSuite) \
CTestSuite* lTestSuite = aTestSuite? (CTestSuite*)aTestSuite: CTestSuite::NewL(aName); \
typedef ClassName ThisThis;
// Create a dotted name subtest in the script that represents a parameter to the named test
// This should be called from a ADD_TEST_SUITE_SUB with the same name as the test method,
// so that entries can be inserted of the form CMyTestClass.MyTest.EColor256
#define ADD_TEST_STEP_PARAM_1(method,param) \
_LIT( KTest ## method ## param, #param); \
AddTestCaseParam(lTestSuite, KTest ## method ## param, method, param);
// Insert a test that takes a parameter and a range of dotted subtests that set that parameter
// This allows tests of the form CMyTestClass.MyLoopTest.8
#define ADD_TEST_STEP_PARAM_RANGE(method,minparam,maxparam) \
_LIT(KTest ## method,#method); \
AddTestCaseParamRangeL(lTestSuite,KTest ## method,&ThisThis::method,minparam,maxparam);
// Insert a test that takes a parameter and a range of dotted subtests that set that parameter
// This allows tests of the form CMyTestClass.MyLoopTest.8
#define ADD_TEST_STEP_PARAM_RANGE_STEP(method,minparam,maxparam,step) \
_LIT( KTest ## method , #method); \
AddTestCaseParamRangeL(lTestSuite, KTest ## method, &ThisThis::method, minparam,maxparam,step);
// Insert a test that takes a boolean parameter and a range of dotted subtests that set that parameter
// Names for dotted tests include "true", "yes", "on", "1"
// This allows tests of the form CMyTestClass.EnableFeature.on
#define ADD_TEST_STEP_PARAM_BOOL(method) \
_LIT(KTest ## method,#method); \
AddTestCaseParamBoolL(lTestSuite,KTest ## method,&ThisThis::method);
// Insert a test that that just requires calling a function
#define ADD_WSGCE_TEST_STEP(classname,method) \
_LIT(KTest ## method,#method); \
AddTestCase(lTestSuite,KTest ## method,&classname::method);
// Insert an asyncronus test that that just requires calling a function
#define ADD_WSGCE_ASYNC_TEST_STEP(classname,method) \
_LIT(KTest ## method,#method); \
AddAsyncTestCase(lTestSuite,KTest ## method,&classname::method);
// Insert a test that that just requires calling a function
#define ADD_THIS_TEST_STEP(method) \
_LIT(KTest ## method,#method); \
AddTestCase(lTestSuite,KTest ## method,&ThisThis::method);
// Insert an asyncronus test that that just requires calling a function
#define ADD_THIS_ASYNC_TEST_STEP(method) \
_LIT(KTest ## method,#method); \
AddAsyncTestCase(lTestSuite,KTest ## method,&ThisThis::method);
/*********************************************************************************
* Base class for derived doers that use the Setup/Shutdown
*********************************************************************************/
template <class Fixture>
class CTestCaseDoTemplate : public CTestCase
{
private:
public:
CTestCaseDoTemplate(const TDesC &aName);
virtual ~CTestCaseDoTemplate();
virtual void RunL(CTestConfig& aConfig, CTestExecuteLogger& aLogger);
virtual void DoRunL(Fixture*aFixture)=0;
protected:
};
/*********************************************************************************
* Derived dorun to run a test with a parameter
*********************************************************************************/
template <class Fixture,class Param>
class CTestCaseParamTemplate : public CTestCaseDoTemplate<Fixture>
{
private:
typedef void (Fixture::*TestMethod)(Param aParam);
public:
CTestCaseParamTemplate(const TDesC &aName, TestMethod aTestMethod, Param aParam)
: CTestCaseDoTemplate<Fixture>(aName),
iTest(aTestMethod),iParam(aParam)
{}
virtual void DoRunL(Fixture*aFixture)
{
(aFixture->*iTest)(iParam);
}
protected:
TestMethod iTest;
Param iParam;
};
/***************************************
*
* Implementation of template <class Fixture,class Param> class CTestCaseTemplate
*
***************************************/
template <class Fixture>
CTestCaseDoTemplate<Fixture>::CTestCaseDoTemplate(const TDesC &aName)
: CTestCase(aName)
{
}
template <class Fixture>
CTestCaseDoTemplate<Fixture>::~CTestCaseDoTemplate()
{
}
template <class Fixture>
void CTestCaseDoTemplate<Fixture>::RunL(CTestConfig& aConfig, CTestExecuteLogger& aLogger)
/**
* Creates and destroys the test fixture, but runs the DoRunL in the derived class, which in turn runs the test.
*
* @param aConfig - Test configuration
* @param aLogger - Test logger
*/
{
Fixture* iFixture = new (ELeave) Fixture();
CleanupStack::PushL(iFixture);
// Must set the Logger and Config now
iFixture->SetLoggerL( aLogger );
iFixture->SetConfigL( aConfig );
// Setup code
iFixture->SetupL();
// Run the test
TRAPD( err, DoRunL(iFixture) );
// Log the result
CTEFLogger::LogResult( iName, err, aLogger );
// Now the test case has been logged we need to leave
// again if that is what the test did
if( err != KErrTEFUnitPass )
{
User::Leave(err);
}
// Teardown code
iFixture->TearDownL();
CleanupStack::PopAndDestroy();
}
/**
* Support method to add a test that takes a specific value as its parameter.
* Can be used from ADD_TEST_STEP_PARAM_1, or from the methods below
**/
template <class Param,class Fixture>
inline void AddTestCaseParam(CTestSuite* aTestSuite, const TDesC& aName, void (Fixture::*aTestMethod)(Param aParam),Param aParam)
{
CTestCaseParamTemplate<Fixture,Param> *testCaseTemplate = new (ELeave) CTestCaseParamTemplate<Fixture,Param>(aName, aTestMethod,aParam);
CleanupStack::PushL(testCaseTemplate);
aTestSuite->AddL( testCaseTemplate );
CleanupStack::Pop(testCaseTemplate);
}
/**
* Adds a test with a range of parameter values. Usually launched from ADD_TEST_STEP_PARAM_RANGE
*
**/
template <class Param,class Fixture>
inline void AddTestCaseParamRangeL(CTestSuite* aTestSuite, const TDesC& aName, void (Fixture::*aTestMethod)(Param aParam),TInt aParamMin,TInt aParamMax,TInt aDelta=1)
{
CTestSuite* lTestSuite = CTestSuite::NewL(aName);
CleanupStack::PushL(lTestSuite);
__ASSERT_ALWAYS(aDelta!=0 && aParamMin!=aParamMax,User::Invariant());
__ASSERT_ALWAYS((aDelta>0) == (aParamMax>aParamMin),User::Invariant());
for (TInt count=aParamMin;count!=aParamMax;count+=aDelta)
{
TBuf<10> name2;
name2.AppendNum(count);
CTestCaseParamTemplate<Fixture,Param> *testCaseTemplate = new (ELeave) CTestCaseParamTemplate<Fixture,Param>(name2, aTestMethod,Param(count));
CleanupStack::PushL(testCaseTemplate);
lTestSuite->AddL( testCaseTemplate );
CleanupStack::Pop(testCaseTemplate);
}
aTestSuite->AddL(lTestSuite);
CleanupStack::Pop(lTestSuite);
}
/**
* Adds a test with a range of parameter values. Usually launched from ADD_TEST_STEP_PARAM_BOOL
*
**/
template <class Param,class Fixture>
inline void AddTestCaseParamBoolL(CTestSuite* aTestSuite, const TDesC& aName, void (Fixture::*aTestMethod)(Param aParam))
{
class CTestSuiteBool: public CTestSuite
{
public:
static CTestSuite* NewL(const TTestName& aName)
{
CTestSuite* lTestSuite = new (ELeave) CTestSuiteBool(aName);
CleanupStack::PushL(lTestSuite);
lTestSuite->ConstructL();
CleanupStack::Pop();
return lTestSuite;
}
protected:
CTestSuiteBool(const TTestName& aName): CTestSuite(aName)
{ }
virtual void RunL(CTestConfig& aConfig, CTestExecuteLogger& aLogger)
{ //run "all the tests"
// Log that the runner is currently in this suite
CTEFLogger::LogTraverse( iName, aLogger );
TInt lError=KErrNone;
for(TInt lIndex = 0; lIndex < Count() && lIndex<2; lIndex++)
{
TRAPD(err,TestL(lIndex)->RunL(aConfig, aLogger));
if(err != KErrTEFUnitPass)
{
lError=err;
}
}
if(lError != KErrTEFUnitPass)
{
User::Leave(lError);
}
}
};
typedef Fixture ThisThis;
CTestSuite* lTestSuite = CTestSuiteBool::NewL(aName);
CleanupStack::PushL(lTestSuite);
#define yes 1
#define true 1
#define on 1
#define off 0
#define no 0
#define false 0
#define Yes 1
#define True 1
#define On 1
#define Off 0
#define No 0
#define False 0
#define YES 1
#define ON 1
#define OFF 0
#define NO 0
#define ETrue 1
#define EFalse 0
//The first two MUST be a true and a false so running "all" will run them both
ADD_TEST_STEP_PARAM_1(aTestMethod,ETrue);
ADD_TEST_STEP_PARAM_1(aTestMethod,EFalse);
ADD_TEST_STEP_PARAM_1(aTestMethod,1);
ADD_TEST_STEP_PARAM_1(aTestMethod,0);
ADD_TEST_STEP_PARAM_1(aTestMethod,yes);
ADD_TEST_STEP_PARAM_1(aTestMethod,true);
ADD_TEST_STEP_PARAM_1(aTestMethod,on);
ADD_TEST_STEP_PARAM_1(aTestMethod,no);
ADD_TEST_STEP_PARAM_1(aTestMethod,false);
ADD_TEST_STEP_PARAM_1(aTestMethod,off);
ADD_TEST_STEP_PARAM_1(aTestMethod,Yes);
ADD_TEST_STEP_PARAM_1(aTestMethod,True);
ADD_TEST_STEP_PARAM_1(aTestMethod,On);
ADD_TEST_STEP_PARAM_1(aTestMethod,No);
ADD_TEST_STEP_PARAM_1(aTestMethod,False);
ADD_TEST_STEP_PARAM_1(aTestMethod,Off);
ADD_TEST_STEP_PARAM_1(aTestMethod,YES);
ADD_TEST_STEP_PARAM_1(aTestMethod,TRUE);
ADD_TEST_STEP_PARAM_1(aTestMethod,ON);
ADD_TEST_STEP_PARAM_1(aTestMethod,NO);
ADD_TEST_STEP_PARAM_1(aTestMethod,FALSE);
ADD_TEST_STEP_PARAM_1(aTestMethod,OFF);
#undef yes
#undef true
#undef on
#undef off
#undef no
#undef false
#undef Yes
#undef True
#undef On
#undef Off
#undef No
#undef False
#undef YES
#undef ON
#undef OFF
#undef NO
#undef ETrue
#undef EFalse
aTestSuite->AddL(lTestSuite);
CleanupStack::Pop(lTestSuite);
}
void TefUnitFailLeaveL();
#undef __ASSERT_SHARED
#define __MAKE_L_STRING(S) L##S
/**
* Redefining this macro allows the condition text of the assert to be logged when the fail is reported as well as the file and line number
* This allows simple issues to be diagnosed without resorting to the source.
**/
#define __ASSERT_SHARED(aFunction, aMessage) \
if(!aFunction) \
{ \
struct Log \
{ /*This wrapper is provided purely to hide the temp string from the debugger.*/ \
static const TLitC<sizeof("ASSERT FAILED: " #aFunction)>& Str()\
{\
_LIT(aMessage, "ASSERT FAILED: " __MAKE_L_STRING(#aFunction) ); \
return aMessage;\
}\
};\
Logger().LogExtra(((TText8*)__FILE__), __LINE__, ESevrAll, Log::Str() );\
TefUnitFailLeaveL();\
}
#define ASSERT_NOT_EQUALS(aExpected, aActual) \
__ASSERT_SHARED(!AssertEquals(aExpected, aActual) , KAssertFailedEquals);
template <class Pointer>
inline TBool AssertTrue(Pointer* aCondition)
{
return AssertTrue((TBool)aCondition);
}
#define LOG_AND_RETURN_IF_GOT_GCE \
{ \
if (GCEIsSupported()) \
{ \
INFO_PRINTF1(_L("Test skipped: GCE support is loaded")); \
User::Panic(_L("GCE.Wrong.Mode"),1); \
return; \
} \
}
#define LOG_AND_PANIC_IF_NOT_GCE \
{ \
if (!GCEIsSupported()) \
{ \
INFO_PRINTF1(_L("Test skipped: GCE support is not loaded")); \
User::Panic(_L("GCE.Wrong.Mode"),1); \
return; \
} \
}
#define _LIT2(NAME,STRING) \
class NAME \
{ \
public: \
static const TLitC<sizeof(L##STRING)/2>& S() \
{ \
_LIT(singleton,STRING); \
return singleton; \
} \
} ;
#endif //__EXTENDTEF_H__