Transplant KhronosRI changeset 22d01ad3515c -
Bug 1394 - KhronosRI - ARMv5 def files missing
Bug 1395 - KhronosRI - RVCT doesn't like 'OpenVGRI' qualified helper function names
Bug 31 - OpenVG implementation is a stub, so no icons or window decorations are displayed
// Copyright (c) 1997-2009 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:
//
// Epoc includes
#include "../inc/FBSMBMC.H"
#include "../sfbs/UTILS.H"
#include "TStreamIdCache.h"
#include "fbsmessage.h"
#include "fbsdefs.h"
//Eikon has 78 bitmaps inside the mbm file(id 0-77)
_LIT(KMbmFileEikon, "z:\\System\\Data\\tfbs_file4.mbm");
_LIT(KMbmFileEikon2, "z:\\System\\Data\\tfbs_file4a.mbm");
_LIT(KMbmFileEikon3, "z:\\System\\Data\\tfbs_file4b.mbm");
_LIT(KMbmFileEikon4, "z:\\System\\Data\\tfbs_file4c.mbm");
_LIT(KMbmFileEikon5, "z:\\System\\Data\\tfbs_file4d.mbm");
//Lafcurs has 28 bitmaps inside the mbm file(id 0-27)
_LIT(KMbmFileLafcurs, "z:\\System\\Data\\tfbs_file2.mbm");
//Resource file containing mbm file
_LIT(KMbmFileTFBSRSC, "z:\\System\\Data\\tfbs_rsc.rsc");
_LIT(KRscFileHeader, "z:\\system\\data\\RscHeader3.bin");
_LIT(KRscFileData, "z:\\system\\data\\DummyRscFile3.rsc");
// File with two 1x1 px mbm files: first is black, second is white. white mbm at 72 bytes into file
#define WHITE_OFFSET 72
_LIT(KBlackAndWhite, "z:\\system\\data\\blackandwhite.mbm");
// ============================================================================
//Default Constructor
CTStreamIdCache::CTStreamIdCache(CTestStep* aStep):
CTGraphicsBase(aStep),
iFbs(NULL)
{
}
CTStreamIdCache::~CTStreamIdCache()
{
if(iShutdownFbs)
RFbsSession::GetSession()->SendCommand(EFbsMessShutdown);
RFbsSession::Disconnect();
iFs.Close();
}
void CTStreamIdCache::ConstructL()
{
if(RFbsSession::Connect()==KErrNone)
{
iShutdownFbs = EFalse;
}
else
{
FbsStartup();
RFbsSession::Connect();
iShutdownFbs = ETrue;
}
iFs.Connect();
iFbs = RFbsSession::GetSession();
iSessionHandle = iFbs->SessionHandle();
ExpandCleanupStackL();
INFO_PRINTF1(_L("FBS Bitmap StreamId cache testing"));
}
void CTStreamIdCache::RunTestCaseL(TInt aCurTestCase)
{
((CTStreamIdCacheStep*)iStep)->SetTestStepID(KUnknownSYMTestCaseIDName);
switch(aCurTestCase)
{
case 1:
((CTStreamIdCacheStep*)iStep)->SetTestStepID(_L("GRAPHICS-FBSERV-0577"));
TestStreamIdCacheEntry();
break;
case 2:
((CTStreamIdCacheStep*)iStep)->SetTestStepID(_L("GRAPHICS-FBSERV-0578"));
TestProcessingBitmapStream();
break;
case 3:
((CTStreamIdCacheStep*)iStep)->SetTestStepID(_L("GRAPHICS-FBSERV-0580"));
TestReplacingFile();
break;
case 4:
((CTStreamIdCacheStep*)iStep)->SetTestStepID(_L("GRAPHICS-FBSERV-0579"));
TestComparingStreams();
break;
case 5:
((CTStreamIdCacheStep*)iStep)->SetTestStepID(_L("GRAPHICS-FBSERV-0581"));
TestInvalidArgument();
break;
case 6:
((CTStreamIdCacheStep*)iStep)->SetTestStepID(_L("GRAPHICS-FBSERV-0582"));
TestOOMCondition();
break;
case 7:
((CTStreamIdCacheStep*)iStep)->SetTestStepID(_L("GRAPHICS-FBSERV-0583"));
TestPerformance();
break;
case 8:
((CTStreamIdCacheStep*)iStep)->SetTestStepID(_L("GRAPHICS-FBSERV-0584"));
TestLoadAtOffset();
break;
case 9:
((CTStreamIdCacheStep*)iStep)->SetTestStepID(_L("GRAPHICS-FBSERV-0509"));
TestSessionClose();
break;
case 10:
((CTStreamIdCacheStep*)iStep)->SetTestStepID(KNotATestSYMTestCaseIDName);
((CTStreamIdCacheStep*)iStep)->CloseTMSGraphicsStep();
TestComplete();
break;
}
((CTStreamIdCacheStep*)iStep)->RecordTestResultL();
}
//This function is here to measure the offset in the rsc file
TInt CTStreamIdCache::FileSizeL(const TDesC& aFileName)
{
RFile file;
User::LeaveIfError(file.Open(iFs, aFileName, EFileRead));
CleanupClosePushL(file);
TInt size = 0;
User::LeaveIfError(file.Size(size));
CleanupStack::PopAndDestroy(&file);
return size;
}
void CTStreamIdCache::ExpandCleanupStackL()
{
TInt count=0;
for(;count<10;count++)
CleanupStack::PushL((TUint32*)0x1);
CleanupStack::Pop(count);
}
/**
@SYMTestCaseID
GRAPHICS-FBSERV-0577
@SYMTestCaseDesc
Tests the API functionality of the class ensuring
the internal states are correct during the construction
and other operation.
@SYMTestActions
Tests the API on a defaultly built element object.
@SYMTestExpectedResults
Test should pass
*/
void CTStreamIdCache::TestStreamIdCacheEntry()
{
INFO_PRINTF1(_L("Test of CFbTopStreamIdCache API"));
// Test the API on a defaultly built element object
CFbTopStreamIdCache* mbmcache=new CFbTopStreamIdCache(20,30,1);
TEST(mbmcache->iEntries.Count() == 0);
TEST(mbmcache->iMaxCacheFilestores == 1);
TEST(mbmcache->iBackwardCacheSize ==30);
TEST(mbmcache->iForwardCacheSize ==20);
delete mbmcache;
}
/**
@SYMTestCaseID
GRAPHICS-FBSERV-0578
@SYMTestCaseDesc
Tests the loading of a bitmap from an mbm file using
the cache and the content of the cache after the loading
i.e. how many stream ids are stored, the last bitmap file
name, the last id, the cache forward and backward size.
@SYMTestActions
Tests the GetStreamIdL method. Loads eikon.mbm with 78
bitmap files. Tests loading some rsc file which contains offset.
Tests the flushing.
@SYMTestExpectedResults
Test should pass
*/
void CTStreamIdCache::TestProcessingBitmapStream()
{
TInt ret;
INFO_PRINTF1(_L("Test loading a bitmap file and processing the stream id"));
//Testing the GetStreamIdL method
CFbTopStreamIdCache* mbmcacheptr = new CFbTopStreamIdCache(30,30,1);
CFbTopStreamIdCache& mbmcache = *mbmcacheptr;
INFO_PRINTF1(_L("Loading eikon.mbm with 78 bitmap files"));
//Loading eikon.mbm with 78 bitmap files
RFile file;
ret=file.Open(iFs,KMbmFileEikon,EFileShareReadersOnly);
TEST(ret==KErrNone);
TRAP(ret,mbmcache.GetStreamIdL(file,KMbmFileEikon,50,0,iSessionHandle));
TEST(ret==KErrNone);
//the cache only stores 30 ids before 50 + max of 30 after(including 50)
//but in this case the bitmap only has 78 bitmaps so it only stores 28 after
TEST(mbmcache.iEntries.Count() == 1);
TEST(mbmcache.iEntries[0]->iStreamIdCount==58);
TEST(mbmcache.iEntries[0]->iLastId==50);
TEST(mbmcache.iForwardCacheSize==30);
TEST(mbmcache.iBackwardCacheSize==30);
TEST(mbmcache.iEntries[0]->iFilename.CompareF(KMbmFileEikon)==0);
TEST(mbmcache.iEntries[0]->iFilestore!=NULL);
//Test loading some rsc file which contains offset
TInt mbm_offset = FileSizeL(KRscFileHeader) + FileSizeL(KRscFileData);
ret=file.Open(iFs,KMbmFileTFBSRSC,EFileShareReadersOnly);
TEST(ret==KErrNone);
TRAP(ret,mbmcache.GetStreamIdL(file,KMbmFileTFBSRSC,0,mbm_offset,iSessionHandle));
TEST(ret==KErrNone);
TEST(mbmcache.iEntries.Count() == 1);
TEST(mbmcache.iEntries[0]->iLastId==0);
TEST(mbmcache.iEntries[0]->iStreamIdCount==2);
TEST(mbmcache.iEntries[0]->iFilename.CompareF(KMbmFileTFBSRSC)==0);
// Test the flushing
mbmcache.FlushCache();
TEST(mbmcache.iEntries.Count() == 0);
TEST(mbmcache.iMaxCacheFilestores == 1);
TEST(mbmcache.iBackwardCacheSize == 30);
TEST(mbmcache.iForwardCacheSize == 30);
delete mbmcacheptr;
}
/**
@SYMTestCaseID
GRAPHICS-FBSERV-0579
@SYMTestCaseDesc
Tests the correct functionality of the cache storing the stream ids.
Three different caches are used to load the same mbm file but the
bitmap id to be loaded are different however the bitmap ids are chosen in
such a way that these three caches will store some common bitmap id.
We then accessed the cache content and check that these three caches
will give the same stream id values for that common bitmap id.
@SYMTestActions
@SYMTestExpectedResults
Test should pass
*/
void CTStreamIdCache::TestComparingStreams()
{
TInt ret;
INFO_PRINTF1(_L("Test comparing the stream ids from three different caches"));
CFbTopStreamIdCache* cache1=new CFbTopStreamIdCache(30,30,1);
CFbTopStreamIdCache* cache2=new CFbTopStreamIdCache(10,30,1);
CFbTopStreamIdCache* cache3=new CFbTopStreamIdCache(25,5,1);
//CACHE1 Loading this will fill up the streams with ids from 0-55
RFile file;
ret=file.Open(iFs,KMbmFileEikon,EFileShareReadersOnly);
TEST(ret==KErrNone);
TRAP(ret,cache1->GetStreamIdL(file,KMbmFileEikon,25,0,iSessionHandle));
TEST(ret==KErrNone);
TEST(cache1->iEntries.Count() == 1);
TEST(cache1->iEntries[0]->iStreamIdCount==55);
TEST(cache1->iEntries[0]->iLastId==25);
//now storing the actual TStreamId for bitmap id 26 for future comparison
//stream id for bitmapid=26 will be @ the 26th position inside the array
TStreamId id25_26=cache1->iEntries[0]->iStreamIdCache[26];
delete cache1;
//CACHE2 Loading this will fill up the streams with ids from 36-65
ret=file.Open(iFs,KMbmFileEikon,EFileShareReadersOnly);
TEST(ret==KErrNone);
TRAP(ret,cache2->GetStreamIdL(file,KMbmFileEikon,56,0,iSessionHandle));
TEST(ret==KErrNone);
TEST(cache2->iEntries.Count() == 1);
TEST(cache2->iEntries[0]->iStreamIdCount==40);
TEST(cache2->iEntries[0]->iLastId==56);
//stream id for bitmapid=26 will be @ the 0th position inside the array
TStreamId id56_26=cache2->iEntries[0]->iStreamIdCache[0];
TEST(id25_26.Value()==id56_26.Value());
delete cache2;
//CACHE3 Loading this will fill up the streams with ids from 1-30
ret=file.Open(iFs,KMbmFileEikon,EFileShareReadersOnly);
TEST(ret==KErrNone);
TRAP(ret,cache3->GetStreamIdL(file,KMbmFileEikon,6,0,iSessionHandle));
TEST(ret==KErrNone);
TEST(cache3->iEntries.Count() == 1);
TEST(cache3->iEntries[0]->iStreamIdCount==30);
TEST(cache3->iEntries[0]->iLastId==6);
TStreamId id6_26=cache3->iEntries[0]->iStreamIdCache[25];
TEST(id25_26.Value()==id6_26.Value());
delete cache3;
}
/**
@SYMTestCaseID
GRAPHICS-FBSERV-0580
@SYMTestCaseDesc
Tests the functionality of the cache when it has already
stored some existing bitmap ids The cache is loaded with a
different mbm file and the cache content is examined to make
sure it has the correct new data.
@SYMTestActions
@SYMTestExpectedResults
Test should pass
*/
void CTStreamIdCache::TestReplacingFile()
{
TInt ret;
INFO_PRINTF1(_L("Test loading a file different from previous stored in cache"));
CFbTopStreamIdCache* cache1ptr = new CFbTopStreamIdCache(30,30,1);
CFbTopStreamIdCache& cache1 = *cache1ptr;
RFile file;
ret=file.Open(iFs,KMbmFileEikon,EFileShareReadersOnly);
TEST(ret==KErrNone);
TRAP(ret,cache1.GetStreamIdL(file,KMbmFileEikon,25,0,iSessionHandle));
TEST(ret==KErrNone);
TEST(cache1.iEntries.Count() == 1);
TEST(cache1.iEntries[0]->iStreamIdCount==55);
TEST(cache1.iEntries[0]->iLastId==25);
TEST(cache1.iEntries[0]->iFilename.Compare(KMbmFileEikon)==0);
//Now trying to load an entirely different bitmap file
//and check to ensure the cache has reflushed itself
//and load itself with new stuff
ret=file.Open(iFs,KMbmFileLafcurs,EFileShareReadersOnly);
TEST(ret==KErrNone);
TRAP(ret,cache1.GetStreamIdL(file,KMbmFileLafcurs,12,0,iSessionHandle));
TEST(ret==KErrNone);
TEST(cache1.iEntries.Count() == 1);
TEST(cache1.iEntries[0]->iStreamIdCount==28);
TEST(cache1.iEntries[0]->iLastId==12);
TEST(cache1.iEntries[0]->iFilename.Compare(KMbmFileLafcurs)==0);
delete cache1ptr;
}
/**
@SYMTestCaseID
GRAPHICS-FBSERV-0581
@SYMTestCaseDesc
Tests the error values that would be returned by
the cache when supplied with invalid arguments such
as bad file name negative bitmap ids, out of range
bitmap ids, and invalid file offset.
@SYMDEF INC047122 INC046632
@SYMTestActions
Creates an FbTopStreamIdCache object. Tests to ensure the cache
can deal with non error cases immediately after error cases.
Passing an in bound bitmap id. Passing an out of bound bitmap id.
Passing an in bound bitmap id. Passing an out of bound bitmap id.
Passing an in bound bitmap id. Passing negative bitmap id.
Passing an invalid file name. Passing an invalid file offset.
@SYMTestExpectedResults
Test should pass
*/
void CTStreamIdCache::TestInvalidArgument()
{
TInt ret;
INFO_PRINTF1(_L("Test loading a file bitmap with invalid argument"));
CFbTopStreamIdCache* cache1ptr = new CFbTopStreamIdCache(30,30,1);
CFbTopStreamIdCache& cache1 = *cache1ptr;
//Eikon mbm only can accept ids from 0-77
//The following sequence of 4 tests ensures the cache can deal with
//non error cases immediately after error cases.
//Passing an in bound bitmap id
RFile file;
ret=file.Open(iFs,KMbmFileEikon,EFileShareReadersOnly);
TEST(ret==KErrNone);
TRAP(ret,cache1.GetStreamIdL(file,KMbmFileEikon,0,0,iSessionHandle));
TEST(ret==KErrNone);
//Passing an out of bound bitmap id
ret=file.Open(iFs,KMbmFileEikon,EFileShareReadersOnly);
TEST(ret==KErrNone);
TRAP(ret,cache1.GetStreamIdL(file,KMbmFileEikon,78,0,iSessionHandle));
TEST(ret==KErrEof);
//Passing an in bound bitmap id
ret=file.Open(iFs,KMbmFileEikon,EFileShareReadersOnly);
TEST(ret==KErrNone);
TRAP(ret,cache1.GetStreamIdL(file,KMbmFileEikon,74,0,iSessionHandle));
TEST(ret==KErrNone);
//Passing an out of bound bitmap id
ret=file.Open(iFs,KMbmFileEikon,EFileShareReadersOnly);
TEST(ret==KErrNone);
TRAP(ret,cache1.GetStreamIdL(file,KMbmFileEikon,78,0,iSessionHandle));
TEST(ret==KErrEof);
//Passing an in bound bitmap id
ret=file.Open(iFs,KMbmFileEikon,EFileShareReadersOnly);
TEST(ret==KErrNone);
TRAP(ret,cache1.GetStreamIdL(file,KMbmFileEikon,77,0,iSessionHandle));
TEST(ret==KErrNone);
//Passing negative bitmap id
ret=file.Open(iFs,KMbmFileEikon,EFileShareReadersOnly);
TEST(ret==KErrNone);
TRAP(ret,cache1.GetStreamIdL(file,KMbmFileEikon,-1,0,iSessionHandle));
TEST(ret==KErrEof);
//Passing an invalid file name
ret=file.Open(iFs,_L("invalid.mbm"),EFileShareReadersOnly);
cache1.FlushCache();
TEST((ret==KErrNotFound)||(ret==KErrPathNotFound));
//Passing an invalid file offset
ret=file.Open(iFs,KMbmFileEikon,EFileShareReadersOnly);
TEST(ret==KErrNone);
TRAP(ret,cache1.GetStreamIdL(file,KMbmFileEikon,12,10,iSessionHandle));
TEST(ret==KErrNotSupported);
//Tests for INC047122 and INC046632
TInt err(KErrNone);
TInt id(0);
for (; id<100; id++)
{
err=file.Open(iFs,KMbmFileEikon,EFileShareReadersOnly);
TEST(err==KErrNone);
TRAP(err,cache1.GetStreamIdL(file,KMbmFileEikon,id,0,iSessionHandle));
if(err != KErrNone)
break;
}
TEST(id==78);
INFO_PRINTF2(_L("Starting from 0 the number of bitmaps in KMbmFileEikon is calculated to be %d\n\n"), id);
delete cache1ptr;
// New cache, start from Id 50
CFbTopStreamIdCache* cache2ptr = new CFbTopStreamIdCache(30,30,1);
CFbTopStreamIdCache& cache2 = *cache2ptr;
for (id=50, err=KErrNone; id<100; id++)
{
err=file.Open(iFs,KMbmFileEikon,EFileShareReadersOnly);
TEST(err==KErrNone);
TRAP(err,cache2.GetStreamIdL(file,KMbmFileEikon,id,0,iSessionHandle));
if(err != KErrNone)
break;
}
TEST(id==78);
INFO_PRINTF2(_L("Starting from 50 the number of bitmaps in KMbmFileEikon is calculated to be %d\n\n"), id);
delete cache2ptr;
}
/**
@SYMTestCaseID
GRAPHICS-FBSERV-0582
@SYMTestCaseDesc
Tests the out of memory condition during memory
allocation inside the test function GetStreamIdL
to ensure that there is no memory leaks.
@SYMTestActions
Tests the cache by opening a file and calls GetStreamIdL
and checks the heap for memory leaks. Tests the cache
for a cache hit. Test the cache for a cache miss.
@SYMTestExpectedResults
Test should pass
*/
void CTStreamIdCache::TestOOMCondition()
{
INFO_PRINTF1(_L("Test of CFbTopStreamIdCache OOM"));
// Test a cache for the first time
for (TInt count = 1; ; count++)
{
__UHEAP_MARK;
CFbTopStreamIdCache* cache=new CFbTopStreamIdCache(30,30,1);
__UHEAP_SETFAIL(RHeap::EDeterministic,count);
RFile file;
TInt ret=file.Open(iFs,KMbmFileEikon,EFileShareReadersOnly);
TEST(ret==KErrNone);
TRAP(ret,cache->GetStreamIdL(file,KMbmFileEikon,30,0,iSessionHandle));
__UHEAP_RESET;
delete cache;
__UHEAP_MARKEND;
if (ret==KErrNone)
break;
TEST(ret==KErrNoMemory);
}
// Test a cache hit
for (TInt count = 1; ; count++)
{
__UHEAP_MARK;
CFbTopStreamIdCache* cache=new CFbTopStreamIdCache(30,30,1);
RFile file1;
TInt ret=file1.Open(iFs,KMbmFileEikon,EFileShareReadersOnly);
TEST(ret==KErrNone);
TRAP(ret,cache->GetStreamIdL(file1,KMbmFileEikon,30,0,iSessionHandle));
TEST(ret==KErrNone);
__UHEAP_SETFAIL(RHeap::EDeterministic,count);
RFile file;
ret=file.Open(iFs,KMbmFileEikon,EFileShareReadersOnly);
TEST(ret==KErrNone);
TRAP(ret,cache->GetStreamIdL(file,KMbmFileEikon,30,0,iSessionHandle));
__UHEAP_RESET;
delete cache;
__UHEAP_MARKEND;
if (ret==KErrNone)
break;
TEST(ret==KErrNoMemory);
}
// Test a cache miss
for (TInt count = 1; ; count++)
{
__UHEAP_MARK;
CFbTopStreamIdCache* cache=new CFbTopStreamIdCache(30,30,1);
RFile file1;
TInt ret=file1.Open(iFs,KMbmFileLafcurs,EFileShareReadersOnly);
TEST(ret==KErrNone);
TRAP(ret,cache->GetStreamIdL(file1,KMbmFileLafcurs,0,0,iSessionHandle));
TEST(ret==KErrNone);
__UHEAP_SETFAIL(RHeap::EDeterministic,count);
RFile file;
ret=file.Open(iFs,KMbmFileEikon,EFileShareReadersOnly);
TEST(ret==KErrNone);
TRAP(ret,cache->GetStreamIdL(file,KMbmFileEikon,30,0,iSessionHandle));
__UHEAP_RESET;
delete cache;
__UHEAP_MARKEND;
if (ret==KErrNone)
{
__UHEAP_SETFAIL(RHeap::ENone,count);
break;
}
TEST(ret==KErrNoMemory);
}
}
/**
@SYMTestCaseID
GRAPHICS-FBSERV-0583
@SYMTestCaseDesc
This test is used to measure the performance improvement
when the font bitmap server is using a cache to store the
stream ids.
@SYMTestActions
Starts the timing. Gets the current time. Creates a FbsBitmap
on the heap. Simulates loading during boot time by loading
bitmaps from ROM. Does forward testing before optimised duration.
Retreives the current time and calculates the time taken by the tests.
Does forward testing after optimised duration. Does backward testing
before optimised duration. Does backward testing after optimised duration.
@SYMTestExpectedResults
Test should pass
*/
void CTStreamIdCache::TestPerformance()
{
//Start the timing
TTime starttime;
starttime.UniversalTime();
CFbsBitmap* bitmap=new (ELeave) CFbsBitmap;
TInt ret;
//simulating loading during boottime
TInt i,j;
for (i=0;i<30;i++)
{
for (j=0;j<10;j++)
{
ret=bitmap->Load(KMbmFileEikon,j,EFalse);
TEST(ret==KErrNone);
}
for (j=0;j<2;j++)
{
ret=bitmap->Load(_L("z:\\system\\data\\tfbs.mbm"),j,EFalse);
TEST(ret==KErrNone);
}
for (j=0;j<28;j++)
{
ret=bitmap->Load(KMbmFileLafcurs,j,EFalse);
TEST(ret==KErrNone);
}
for (j=71;j<73;j++)
{
ret=bitmap->Load(KMbmFileEikon,j,EFalse);
TEST(ret==KErrNone);
}
for (j=0;j<2;j++)
{
ret=bitmap->Load(_L("z:\\system\\data\\tfbs.mbm"),j,EFalse);
TEST(ret==KErrNone);
}
for (j=20;j<22;j++)
{
ret=bitmap->Load(KMbmFileLafcurs,j,EFalse);
TEST(ret==KErrNone);
}
}
TTime endtime;
endtime.UniversalTime();
INFO_PRINTF1(_L("Forward Testing Before optimised duration= 3515625 microseconds \n"));
TTimeIntervalMicroSeconds difftime=endtime.MicroSecondsFrom(starttime);
INFO_PRINTF2(_L("Forward Testing After optimised duration=%Ld microseconds\n\n"),difftime.Int64());
starttime.UniversalTime();
for (i=0;i<30;i++)
{
for (j=10;j>=0;j--)
{
ret=bitmap->Load(KMbmFileEikon,j,EFalse);
TEST(ret==KErrNone);
}
for (j=1;j>=0;j--)
{
ret=bitmap->Load(_L("z:\\system\\data\\tfbs.mbm"),j,EFalse);
TEST(ret==KErrNone);
}
for (j=27;j>=0;j--)
{
ret=bitmap->Load(KMbmFileLafcurs,j,EFalse);
TEST(ret==KErrNone);
}
for (j=73;j>=72;j--)
{
ret=bitmap->Load(KMbmFileEikon,j,EFalse);
TEST(ret==KErrNone);
}
for (j=1;j>=0;j--)
{
ret=bitmap->Load(_L("z:\\system\\data\\tfbs.mbm"),j,EFalse);
TEST(ret==KErrNone);
}
for (j=22;j>=20;j--)
{
ret=bitmap->Load(KMbmFileLafcurs,j,EFalse);
TEST(ret==KErrNone);
}
}
endtime.UniversalTime();
difftime=endtime.MicroSecondsFrom(starttime);
INFO_PRINTF1(_L("Backward Testing Before optimised duration= 3515625 microseconds \n"));
INFO_PRINTF2(_L("Backward Testing After optimised duration=%Ld microseconds\n\n"),difftime.Int64());
starttime.UniversalTime();
for (i=0;i<30;i++)
{
for (j=40;j<70;j++)
{
ret=bitmap->Load(KMbmFileEikon,j,EFalse);
TEST(ret==KErrNone);
ret=bitmap->Load(KMbmFileEikon2,j,EFalse);
TEST(ret==KErrNone);
ret=bitmap->Load(KMbmFileEikon3,j,EFalse);
TEST(ret==KErrNone);
ret=bitmap->Load(KMbmFileEikon4,j,EFalse);
TEST(ret==KErrNone);
ret=bitmap->Load(KMbmFileEikon5,j,EFalse);
TEST(ret==KErrNone);
}
}
endtime.UniversalTime();
difftime=endtime.MicroSecondsFrom(starttime);
INFO_PRINTF1(_L("Multiple File Testing Before optimised duration= ? microseconds \n"));
INFO_PRINTF2(_L("Multiple File Testing After optimised duration=%Ld microseconds\n\n"),difftime.Int64());
starttime.UniversalTime();
for (i=0;i<30;i++)
{
for (j=0;j<30;j++)
{
ret=bitmap->Load(KMbmFileEikon,j,EFalse);
TEST(ret==KErrNone);
}
for (j=40;j<70;j++)
{
ret=bitmap->Load(KMbmFileEikon,j,EFalse);
TEST(ret==KErrNone);
}
}
endtime.UniversalTime();
difftime=endtime.MicroSecondsFrom(starttime);
INFO_PRINTF1(_L("Single File Testing Before optimised duration= ? microseconds \n"));
INFO_PRINTF2(_L("Single File Testing After optimised duration=%Ld microseconds\n\n"),difftime.Int64());
bitmap->Reset();
delete bitmap;
}
/**
@SYMTestCaseID
GRAPHICS-FBSERV-0584
@SYMTestCaseDesc
Tests loading of bitmaps at an offset
(Bitmap file section offset within the file).
@SYMTestActions
Creates an FbsBitmap object on the heap. Loads
a monochrone bitmap with zero offset. Checks if
loading completed successfully. Checks the pixel
size. Gets a pixel. Checks if pixel is KRgbBlack.
@SYMTestExpectedResults
Test should pass
*/
void CTStreamIdCache::TestLoadAtOffset()
{
CFbsBitmap* bitmap = NULL;
TRAPD(ret, bitmap = new (ELeave) CFbsBitmap);
TEST(ret==KErrNone);
if(iStep->TestStepResult() != EPass)
{
return;
}
INFO_PRINTF1(_L("Testing repeated CFbsBitmap Load with different offsets"));
do // use a do{}while(false) so we can break out of the test code and fall back to the cleanup code
{
ret = bitmap->Load(KBlackAndWhite, 0, EFalse, 0);
TEST(ret==KErrNone);
if(iStep->TestStepResult() != EPass)
{
INFO_PRINTF1(_L("TestLoadAtOffset: Failed to load first mbm"));
break;
}
TEST( bitmap->SizeInPixels() == TSize(1,1) && bitmap->IsMonochrome() );
if(iStep->TestStepResult() == EPass)
{
TRgb colour;
bitmap->GetPixel(colour, TPoint(0,0));
TEST( colour == KRgbBlack );
}
if(iStep->TestStepResult() != EPass)
{
INFO_PRINTF1(_L("TestLoadAtOffset: First mbm loaded incorrectly"));
break;
}
ret = bitmap->Load(KBlackAndWhite, 0, EFalse, WHITE_OFFSET);
TEST(ret==KErrNone);
if(iStep->TestStepResult() != EPass)
{
INFO_PRINTF1(_L("TestLoadAtOffset: Failed to load second mbm"));
break;
}
TEST( bitmap->SizeInPixels() == TSize(1,1) && bitmap->IsMonochrome() );
if(iStep->TestStepResult() == EPass)
{
TRgb colour;
bitmap->GetPixel(colour, TPoint(0,0));
TEST( colour == KRgbWhite );
}
if(iStep->TestStepResult() != EPass)
{
INFO_PRINTF1(_L("TestLoadAtOffset: Second mbm loaded incorrectly"));
break;
}
} while( EFalse );
bitmap->Reset();
delete bitmap;
}
/**
@SYMTestCaseID GRAPHICS-FBSERV-0509
@SYMDEF DEF104261
@SYMTestCaseDesc Tests file store cleanup for corresponding fbs session
@SYMTestPriority Medium
@SYMTestStatus Implemented
@SYMTestActions 1. Create a file store object from file stream cache using current session handle
2. Create new file store object using some dummy session handle
3. Check two file store object belongs to the corresponding dummy session handle.
4. Close file store and check
- if corresponing session's handle file store used to close.
- if we send wrong session handle none of the file store should close
- if we haven't send any session handle close all the file store object irrespective of the session handle
@SYMTestExpectedResults 1. File store should close only for the corresponding session, while disconnecting the session
2. By flushing cache should close all file stores and reset cache entries, irrespective of the session
*/
void CTStreamIdCache::TestSessionClose()
{
TInt ret;
INFO_PRINTF1(_L("Test file store clean up"));
CFbTopStreamIdCache* mbmcacheptr = new CFbTopStreamIdCache(30,30,2);
CFbTopStreamIdCache& mbmcache = *mbmcacheptr;
RFile file1;
ret=file1.Open(iFs,KMbmFileEikon,EFileShareReadersOnly);
TEST(ret==KErrNone);
RFile file2;
ret=file2.Open(iFs,KMbmFileLafcurs,EFileShareReadersOnly);
TEST(ret==KErrNone);
//Create a file store with dummy session handle 1
TRAP(ret,mbmcache.GetStreamIdL(file1,KMbmFileEikon,50,0,1));
TEST(ret==KErrNone);
//Create a file store with dummy session handle 2
TRAP(ret,mbmcache.GetStreamIdL(file2,KMbmFileLafcurs,12,0,2));
TEST(ret==KErrNone);
TEST(mbmcache.iEntries.Count() == 2);
TEST(2==mbmcache.iEntries[0]->SessionHandle());
TEST(1==mbmcache.iEntries[1]->SessionHandle());
TEST(mbmcache.iEntries[0]->iFilestore!=NULL);
TEST(mbmcache.iEntries[1]->iFilestore!=NULL);
mbmcache.CloseFileStores(1);
TEST(mbmcache.iEntries.Count() == 2);
TEST(mbmcache.iEntries[0]->iFilestore!=NULL);
TEST(mbmcache.iEntries[1]->iFilestore==NULL);
TEST(2==mbmcache.iEntries[0]->SessionHandle());
TEST(0==mbmcache.iEntries[1]->SessionHandle());
//All File stores should deleted
mbmcache.CloseFileStores(0);
TEST(mbmcache.iEntries.Count() == 2);
TEST(mbmcache.iEntries[0]->iFilestore==NULL);
TEST(mbmcache.iEntries[1]->iFilestore==NULL);
TEST(0==mbmcache.iEntries[0]->SessionHandle());
TEST(0==mbmcache.iEntries[1]->SessionHandle());
// Should remove all the file store objects and reset the cache entries.
mbmcache.FlushCache();
TEST(mbmcache.iEntries.Count() == 0);
delete mbmcacheptr;
}
//--------------
__CONSTRUCT_STEP__(StreamIdCache)
void CTStreamIdCacheStep::TestSetupL()
{
// Leaking thread handles
iThread.HandleCount(iStartProcessHandleCount, iStartThreadHandleCount);
}
void CTStreamIdCacheStep::TestClose()
{
// Check for open handles
iThread.HandleCount(iEndProcessHandleCount, iEndThreadHandleCount);
if(iStartThreadHandleCount != iEndThreadHandleCount)
{__DEBUGGER()} // Oops leaked some handles
}