Merge 3. Improve performance by switching to less aggressive settings for RI_NUM_TESSELLATED_SEGMENTS and RI_MAX_SAMPLES. Ignored the WIN32 specific API decoration defines when doing the merge. Note the code is now optimised in riPath.cpp to change from RI_NUM_TESSELLATED_SEGMENTS to _QUAD, _CUBIC, _ARC settings which are each now set to 8. SVG Tiger now renders in 5 seconds (15 seconds quicker). The quality of the OVG icons is slightly reduced but still very useable.
// Copyright (c) 2005-2009 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:
//
/**
@file
@test
@internalComponent - Internal Symbian test code
*/
#include "TFbsServer.h"
#include "TALLOC.H"
#include "TBitmap.h"
#include "TCLEAN.H"
#include "TFBS.H"
#include "tcompressed.h"
#include "TRalc.h"
#include "TFBSDefect.h"
#include "TStreamIdCache.h"
#include "TSecureFBS.h"
#include "trfile.h"
#include "TGetAllBitmapsCapability.h"
#include "tipctest.h"
#include "textendedbitmap.h"
#include "textendedbitmapnegative.h"
#include "textendedbitmaplegacy.h"
#include "textendedbitmappanic.h"
#include "twdp.h"
/* Path to the script
z:\GraphicsTest\fbstest.script
*/
CTFbsServer* CTFbsServer::NewL()
/**
@return - Instance of the test server
Same code for Secure and non-secure variants
Called inside the MainL() function to create and start the
CTestServer derived server.
*/
{
CTFbsServer * server = new (ELeave) CTFbsServer();
CleanupStack::PushL(server);
// Get server name from process so we can use SetCap to change the capabilites and use this server with a different filename
RProcess handle = RProcess();
TParsePtrC serverName(handle.FileName());
// CServer base class call
server->StartL(serverName.Name());
CleanupStack::Pop(server);
return server;
}
LOCAL_C void MainL()
//
// Secure variant
// Much simpler, uses the new Rendezvous() call to sync with the client
//
{
RProcess().DataCaging(RProcess::EDataCagingOn);
RProcess().SecureApi(RProcess::ESecureApiOn);
CActiveScheduler* sched=NULL;
sched=new(ELeave) CActiveScheduler;
CActiveScheduler::Install(sched);
CTFbsServer* server = NULL;
// Create the CTestServer derived server
TRAPD(err,server = CTFbsServer::NewL());
if(!err)
{
// Sync with the client and enter the active scheduler
RProcess::Rendezvous(KErrNone);
sched->Start();
}
delete server;
delete sched;
}
/** @return - Standard Epoc error code on process exit
Secure variant only
Process entry point. Called by client using RProcess API
*/
GLDEF_C TInt E32Main()
{
__UHEAP_MARK;
CTrapCleanup* cleanup = CTrapCleanup::New();
if(cleanup == NULL)
{
return KErrNoMemory;
}
TRAPD(err,MainL());
if (err)
{
RProcess handle = RProcess();
TParsePtrC serverName(handle.FileName());
RDebug::Print(_L("CTFbsServer::MainL - Error: %d"), err);
User::Panic(serverName.Name(),err);
}
delete cleanup;
__UHEAP_MARKEND;
return KErrNone;
}
CTestStep* CTFbsServer::CreateTestStep(const TDesC& aStepName)
/**
@return - A CTestStep derived instance
Secure and non-secure variants
Implementation of CTestServer pure virtual
*/
{
CTestStep* testStep = NULL;
if(aStepName == KTAllocStep)
{
testStep = new CTAllocStep();
}
else if(aStepName == KTBitmapStep)
{
testStep = new CTBitmapStep();
}
else if(aStepName == KTCleanStep)
{
testStep = new CTCleanStep();
}
else if(aStepName == KTFbsStep)
{
testStep = new CTFbsStep();
}
else if(aStepName == KTCompressedStep)
{
testStep = new CTCompressedStep();
}
else if(aStepName == KTRalcStep)
{
testStep = new CTRalcStep();
}
else if(aStepName == KTFbsDefectStep)
{
testStep = new CTFbsDefectStep();
}
else if(aStepName == KTStreamIdCacheStep)
{
testStep = new CTStreamIdCacheStep();
}
else if(aStepName == KTFbsSecureStep)
{
testStep = new CTFbsSecureStep();
}
else if(aStepName == KTFileStep)
{
testStep = new CTFileStep();
}
else if(aStepName == KTGetAllBitmapsCapabilityStep)
{
testStep = new CTGetAllBitmapsCapabilityStep();
}
else if(aStepName == KTIPCTestStep)
{
testStep = new CTIPCTestStep();
}
else if(aStepName == KTExtendedBitmapStep)
{
testStep = new CTExtendedBitmapStep();
}
else if(aStepName == KTExtendedBitmapNegativeStep)
{
testStep = new CTExtendedBitmapNegativeStep();
}
else if(aStepName == KTExtendedBitmapLegacyStep)
{
testStep = new CTExtendedBitmapLegacyStep();
}
else if(aStepName == KTExtendedBitmapPanicStep)
{
testStep = new CTExtendedBitmapPanicStep();
}
else if(aStepName == KTWDPStep)
{
testStep = new CTWDPStep();
}
return testStep;
}