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) 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:
//
#include <f32file.h>
#include <fbs.h>
#include <bitdev.h>
#include <bitstd.h>
#include <graphics/gdi/gdiconsts.h>
#include "../sfbs/UTILS.H"
#include "trfile.h"
#include "fbsmessage.h"
#include "fbsdefs.h"
// Define FBSTEST_SCREENSHOT to save the screen to a .mbm file
//#define FBSTEST_SCREENSHOT
const TInt KNumBitmap = 3;
const TDisplayMode KDisplayMode = EColor64K;
const TSize KLargeSize(128,128);
const TSize KMidSize(64,64);
const TSize KSmallSize(32,32);
_LIT(KRamFile1,"c:\\rf1.mbm");
_LIT(KRamFile2,"c:\\rf2.mbm");
_LIT(KRamFile3,"c:\\rf3.mbm");
_LIT(KRamFile4,"c:\\rf123.mbm");
_LIT(KRomFile1,"z:\\system\\data\\rf1.mbm");
_LIT(KRomFile2,"z:\\system\\data\\rf2.mbm");
_LIT(KRomFile3,"z:\\system\\data\\rf3.mbm");
_LIT(KRomFile4,"z:\\system\\data\\rf123.mbm");
CTFile::CTFile(CTestStep* aStep):
CTGraphicsBase(aStep),
iFbs(NULL),
iSource(KNumBitmap)
{
}
CTFile::~CTFile()
{
CleanUp();
if (iShutdownFbs)
iFbs->SendCommand(EFbsMessShutdown);
iFbs->Disconnect();
}
void CTFile::ConstructL()
{
if(RFbsSession::Connect()==KErrNone)
{
RFbsSession::Disconnect();
iShutdownFbs = EFalse;
}
else
{
FbsStartup();
iShutdownFbs = ETrue;
}
TInt ret = RFbsSession::Connect();
TEST(ret==KErrNone);
iFbs = RFbsSession::GetSession();
TEST(iFbs != NULL);
ret = iFs.Connect();
TEST(ret==KErrNone);
// required to allow file handle to be adopted by another process
iFs.ShareProtected();
TUint32* romAddress = NULL;
if(!CFbsBitmap::IsFileInRom(KRomFile1, romAddress)) //any ROM bitmap
{
INFO_PRINTF2(_L("Skipping ROM bitmap tests since file \"%S\" is reported to not be a ROM bitmap."),
&KRomFile1);
INFO_PRINTF1(_L("This should only occur on non-XIP ROMs, e.g. NAND ROMs, where ROM bitmaps aren't supported."));
iSkipRomBitmapTests = ETrue;
}
}
void CTFile::CleanUp()
{
const TBufC<32> names[KNumBitmap] =
{
(const TDesC&)KRamFile1,
(const TDesC&)KRamFile2,
(const TDesC&)KRamFile3
};
TInt i;
for (i=0; i<KNumBitmap; ++i)
{
delete iSource[i];
iFs.Delete(names[i]);
}
iSource.Close();
iFs.Delete(KRamFile4);
iFs.Close();
}
void CTFile::RunTestCaseL(TInt aCurTestCase)
{
((CTFileStep*)iStep)->SetTestStepID(KUnknownSYMTestCaseIDName);
switch(aCurTestCase)
{
case 1:
((CTFileStep*)iStep)->SetTestStepID(_L(" GRAPHICS-FBSERV-0588"));
CreateL();
break;
case 2:
((CTFileStep*)iStep)->SetTestStepID(_L(" GRAPHICS-FBSERV-0589"));
SaveL();
break;
case 3:
((CTFileStep*)iStep)->SetTestStepID(_L(" GRAPHICS-FBSERV-0590"));
StoreL();
break;
case 4:
((CTFileStep*)iStep)->SetTestStepID(_L(" GRAPHICS-FBSERV-0591"));
LoadL();
break;
case 5:
((CTFileStep*)iStep)->SetTestStepID(_L(" GRAPHICS-FBSERV-0592"));
LoadAndCompressL();
break;
case 6:
((CTFileStep*)iStep)->SetTestStepID(KNotATestSYMTestCaseIDName);
((CTFileStep*)iStep)->CloseTMSGraphicsStep();
TestComplete();
break;
}
((CTFileStep*)iStep)->RecordTestResultL();
}
/**
Draw union jack
*/
void CTFile::Draw(CFbsBitGc* aGc, const TSize& aSize)
{
const TSize thick(aSize.iWidth/4,aSize.iWidth/4);
const TSize thin(thick.iWidth/2,thick.iWidth/2);
// background
aGc->SetBrushColor(KRgbBlue);
aGc->SetBrushStyle(CGraphicsContext::ESolidBrush);
aGc->SetPenStyle(CGraphicsContext::ESolidPen);
aGc->DrawRect(aSize);
// corner to corner section
aGc->SetPenColor(KRgbWhite);
aGc->SetPenSize(thick);
aGc->DrawLine(TPoint(0,0),TPoint(aSize.iWidth,aSize.iHeight));
aGc->DrawLine(TPoint(aSize.iWidth,0),TPoint(0,aSize.iHeight));
aGc->SetPenColor(KRgbRed);
aGc->SetPenSize(thin);
aGc->DrawLine(TPoint(0,0),TPoint(aSize.iWidth,aSize.iHeight));
aGc->DrawLine(TPoint(aSize.iWidth,0),TPoint(0,aSize.iHeight));
// cross section
aGc->SetPenColor(KRgbWhite);
aGc->SetPenSize(thick);
aGc->DrawLine(TPoint(aSize.iWidth/2,0),TPoint(aSize.iWidth/2,aSize.iHeight));
aGc->DrawLine(TPoint(0,aSize.iHeight/2),TPoint(aSize.iWidth,aSize.iHeight/2));
aGc->SetPenColor(KRgbRed);
aGc->SetPenSize(thin);
aGc->DrawLine(TPoint(aSize.iWidth/2,0),TPoint(aSize.iWidth/2,aSize.iHeight));
aGc->DrawLine(TPoint(0,aSize.iHeight/2),TPoint(aSize.iWidth,aSize.iHeight/2));
}
/**
*/
/**
@SYMTestCaseID
GRAPHICS-FBSERV-0588
@SYMTestCaseDesc
Create various size bitmap for testing (original bitmaps)
ie small (<4KB), mid (=4KB) and large (>4KB).
@SYMTestActions
@SYMTestExpectedResults
Test should pass
*/
void CTFile::CreateL()
{
const TSize sizes[KNumBitmap] =
{
KSmallSize,
KMidSize,
KLargeSize
};
TInt i;
for (i=0; i<KNumBitmap; ++i)
{
CFbsBitmap* bmp = new(ELeave) CFbsBitmap;
CleanupStack::PushL(bmp);
User::LeaveIfError(bmp->Create(sizes[i],KDisplayMode));
CFbsBitmapDevice* dev = CFbsBitmapDevice::NewL(bmp);
CleanupStack::PushL(dev);
CFbsBitGc* gc;
User::LeaveIfError(dev->CreateContext(gc));
Draw(gc,sizes[i]);
delete gc;
CleanupStack::PopAndDestroy(dev);
iSource.AppendL(bmp);
CleanupStack::Pop(bmp);
}
}
/**
@SYMTestCaseID
GRAPHICS-FBSERV-0589
@SYMTestCaseDesc
Save single bitmap to file using an opened file handle
@SYMTestActions
Save original bitmap to file using file handle (saved bitmap)
Load saved bitmap using file name and compare against original
Leave saved bitmap files for next test (Load,LoadAndCompress)
@SYMTestExpectedResults
Saved bitmap match original bitmap
*/
void CTFile::SaveL()
{
const TBufC<32> names[KNumBitmap] =
{
(const TDesC&)KRamFile1,
(const TDesC&)KRamFile2,
(const TDesC&)KRamFile3
};
INFO_PRINTF1(_L("Saving bitmap"));
TInt i;
for (i=0; i<KNumBitmap; ++i)
{
RFile f;
TInt mode = EFileWrite;
TInt ret = f.Open(iFs,names[i],mode);
if (ret==KErrNotFound)
ret = f.Create(iFs,names[i],mode);
TEST(ret==KErrNone);
TEST(iSource[i]->Save(f)==KErrNone);
f.Close();
CFbsBitmap bmp;
TEST(bmp.Load(names[i])==KErrNone);
CFbsBitmap* orig = iSource[i];
TSize size = orig->SizeInPixels();
TInt bytes = orig->ScanLineLength(size.iWidth,KDisplayMode)*size.iHeight;
orig->LockHeap();
bmp.LockHeap();
TEST(Mem::Compare((TUint8*)orig->DataAddress(),bytes,(TUint8*)bmp.DataAddress(),bytes)==0);
orig->UnlockHeap();
bmp.UnlockHeap();
}
}
/**
@SYMTestCaseID
GRAPHICS-FBSERV-0590
@SYMTestCaseDesc
Save multi bitmaps to file using an opened file handle.
@SYMTestActions
Save original bitmaps to file (saved bitmaps).
Load saved bitmaps and compare it against originals.
@SYMTestExpectedResults
Saved bitmaps match original bitmaps
*/
void CTFile::StoreL()
{
const TBufC<32> names[KNumBitmap] =
{
(const TDesC&)KRamFile1,
(const TDesC&)KRamFile2,
(const TDesC&)KRamFile3
};
INFO_PRINTF1(_L("Storing bitmaps"));
RFile f;
TInt mode = EFileWrite;
TInt ret = f.Open(iFs,KRamFile4,mode);
if (ret==KErrNotFound)
ret = f.Create(iFs,KRamFile4,mode);
TEST(ret==KErrNone);
const TDesC* bmps[] = {&names[0],&names[1],&names[2]};
TInt32 ids[] = {0,0,0};
TRAP(ret,CFbsBitmap::StoreL(f,KNumBitmap,bmps,ids));
TEST(ret==KErrNone);
f.Close();
TInt id;
for (id=0; id<KNumBitmap; ++id)
{
CFbsBitmap bmp;
TEST(bmp.Load(KRamFile4,id)==KErrNone);
CFbsBitmap* orig = iSource[id];
TSize size = orig->SizeInPixels();
TInt bytes = orig->ScanLineLength(size.iWidth,KDisplayMode)*size.iHeight;
orig->LockHeap();
bmp.LockHeap();
TEST(Mem::Compare((TUint8*)orig->DataAddress(),bytes,(TUint8*)bmp.DataAddress(),bytes)==0);
orig->UnlockHeap();
bmp.UnlockHeap();
}
}
/**
@SYMTestCaseID
GRAPHICS-FBSERV-0591
@SYMTestCaseDesc
Load bitmap from file using an opened file handle.
@SYMTestActions
Load bitmap using file handle.
Compare loaded bitmaps against original.
@SYMTestExpectedResults
Loaded bitmap match original
*/
void CTFile::LoadL()
{
// Load single bitmap file
const TBufC<32> names[2*KNumBitmap] =
{
(const TDesC&)KRamFile1, //keep ram files at the top to make it easier to skip rom bitmaps
(const TDesC&)KRamFile2,
(const TDesC&)KRamFile3,
(const TDesC&)KRomFile1,
(const TDesC&)KRomFile2,
(const TDesC&)KRomFile3
};
INFO_PRINTF1(_L("Loading bitmaps"));
TInt i;
TInt maxIndex = (iSkipRomBitmapTests ? KNumBitmap - 1 : 2 * KNumBitmap - 1);
for (i=0; i <= maxIndex; ++i)
{
RFile f;
TInt mode = EFileShareReadersOnly;
TInt ret = f.Open(iFs,names[i],mode);
TEST(ret==KErrNone);
CFbsBitmap bmp;
TEST(bmp.Load(f)==KErrNone);
f.Close();
CFbsBitmap* orig = iSource[i%KNumBitmap];
TSize size = orig->SizeInPixels();
TInt bytes = orig->ScanLineLength(size.iWidth,KDisplayMode)*size.iHeight;
orig->LockHeap();
bmp.LockHeap();
TEST(Mem::Compare((TUint8*)orig->DataAddress(),bytes,(TUint8*)bmp.DataAddress(),bytes)==0);
orig->UnlockHeap();
bmp.UnlockHeap();
}
// Load multi bitmap file
const TBufC<32> mbm[] =
{
(const TDesC&)KRamFile4, //keep ram files at the top to make it easier to skip rom bitmaps
(const TDesC&)KRomFile4
};
maxIndex = (iSkipRomBitmapTests ? 0 : 1);
for (i=0; i <= maxIndex; ++i)
{
RFile f;
TInt mode = EFileShareReadersOnly;
TInt ret = f.Open(iFs,mbm[i],mode);
TEST(ret==KErrNone);
TInt id;
for (id=0; id<KNumBitmap; ++id)
{
CFbsBitmap bmp;
TEST(bmp.Load(f,id)==KErrNone);
CFbsBitmap* orig = iSource[id];
TSize size = orig->SizeInPixels();
TInt bytes = orig->ScanLineLength(size.iWidth,KDisplayMode)*size.iHeight;
orig->LockHeap();
bmp.LockHeap();
TEST(Mem::Compare((TUint8*)orig->DataAddress(),bytes,(TUint8*)bmp.DataAddress(),bytes)==0);
orig->UnlockHeap();
bmp.UnlockHeap();
}
f.Close();
}
}
/**
@SYMTestCaseID
GRAPHICS-FBSERV-0592
@SYMTestCaseDesc
Load and compress bitmap from file using an opened file handle.
@SYMTestActions
Compress original bitmap.
Load and compress bitmap using file handle.
Blit loaded+compressed bitmaps and compressed original to screen.
Compare screen area.
@SYMTestExpectedResults
LoadAndCompress ROM file return KErrAccessDenied.
Drawn bitmap on screen match.
*/
void CTFile::LoadAndCompressL()
{
INFO_PRINTF1(_L("Loading and compressing bitmaps"));
RFile f;
TInt ret = KErrNone;
if(!iSkipRomBitmapTests)
{
// load and compress ROM file
ret = f.Open(iFs,KRomFile1,EFileShareReadersOnly);
TEST(ret==KErrNone);
CFbsBitmap bmp;
TEST(bmp.LoadAndCompress(f)==KErrAccessDenied);
f.Close();
}
// load single bitmap file
const TBufC<32> names[KNumBitmap] =
{
(const TDesC&)KRamFile1,
(const TDesC&)KRamFile2,
(const TDesC&)KRamFile3
};
TInt i;
for (i=0; i<KNumBitmap; ++i)
{
ret = f.Open(iFs,names[i],EFileShareReadersOnly);
TEST(ret==KErrNone);
CFbsBitmap bmp;
TEST(bmp.LoadAndCompress(f)==KErrNone);
f.Close();
TEST(bmp.IsCompressedInRAM());
CFbsBitmap* orig = iSource[i];
TEST(orig->Compress()==KErrNone);
TEST(orig->IsCompressedInRAM());
TRAP(ret,BlitAndCompareL(orig,&bmp,orig->SizeInPixels()));
TEST(ret==KErrNone);
}
// Load multi bitmap KRamFile4
ret = f.Open(iFs,KRamFile4,EFileShareReadersOnly);
TEST(ret==KErrNone);
TInt id;
for (id=0; id<KNumBitmap; ++id)
{
CFbsBitmap bmp;
TEST(bmp.LoadAndCompress(f,id)==KErrNone);
TEST(bmp.IsCompressedInRAM());
CFbsBitmap* orig = iSource[id];
TEST(orig->Compress()==KErrNone);
TEST(orig->IsCompressedInRAM());
TRAP(ret,BlitAndCompareL(orig,&bmp,orig->SizeInPixels()));
TEST(ret==KErrNone);
}
f.Close();
}
/**
Blit two bitmap to screen device and compare if both match
*/
void CTFile::BlitAndCompareL(CFbsBitmap* aBmpOrig,CFbsBitmap* aBmpTest,const TSize& aBmpSize)
{
CFbsScreenDevice* scd=NULL;
TRAPD(err,scd=CFbsScreenDevice::NewL(KDefaultScreenNo,KDisplayMode));
if (err!=KErrNone)
{
_LIT(KLog,"Failed to create screen device for mode %S err=%d");
INFO_PRINTF3(KLog,&ColorModeName(KDisplayMode),err);
}
if (err==KErrNotSupported)
{
TRAPD(err,scd=CFbsScreenDevice::NewL(KDefaultScreenNo,EColor256));
if (err!=KErrNone)
{
_LIT(KLog,"Failed to create Color256 screen device err=%d");
INFO_PRINTF2(KLog,err);
}
}
if (err==KErrNotSupported)
{
TRAPD(err,scd=CFbsScreenDevice::NewL(KDefaultScreenNo,EColor16MA));
if (err!=KErrNone)
{
_LIT(KLog,"Failed to create Color16MA screen device err=%d");
INFO_PRINTF2(KLog,err);
}
}
if (err==KErrNotSupported)
{
TRAPD(err,scd=CFbsScreenDevice::NewL(KDefaultScreenNo,EColor16MAP));
if (err!=KErrNone)
{
_LIT(KLog,"Failed to create Color16MA screen device err=%d");
INFO_PRINTF2(KLog,err);
}
}
_LIT(KLog,"Create screen device with mode %S");
INFO_PRINTF2(KLog,&ColorModeName(scd->DisplayMode()));
CleanupStack::PushL(scd);
scd->ChangeScreenDevice(NULL);
CFbsBitGc* sgc;
User::LeaveIfError(scd->CreateContext((CGraphicsContext*&)sgc));
CleanupStack::PushL(sgc);
TSize scrSize = scd->SizeInPixels();
TPoint left(0,0);
TPoint right(scrSize.iWidth/2,0);
TRect bmpRect(TPoint(0,0),aBmpSize);
// if bitmap width is greater than half screen width,
// try positioning right bitmap below original.
if (scrSize.iWidth < aBmpSize.iWidth*2)
{
if (scrSize.iHeight < aBmpSize.iHeight/2)
{
//That still doesn't work out, so restrict size of rect
// being blitted to half screen size.
INFO_PRINTF1(_L("Warning: the whole of the test images may not be compared"));
bmpRect = TRect(TPoint(0,0),TSize(scrSize.iWidth/2,aBmpSize.iHeight));
}
else
{
right = TPoint(0, scrSize.iHeight/2);
}
}
sgc->BitBlt(left, aBmpOrig, bmpRect);
sgc->BitBlt(right, aBmpTest, bmpRect);
scd->Update();
#ifdef FBSTEST_SCREENSHOT
SaveScreenShotL(scd);
#endif //FBSTEST_SCREENSHOT
TBool match=scd->RectCompare(TRect(left,bmpRect.Size()),*scd,TRect(right,bmpRect.Size()));
if (!match)
{
_LIT(KLog,"Two areas of the screen don't match");
INFO_PRINTF1(KLog);
}
TEST(match);
CleanupStack::PopAndDestroy(2,scd);
}
//--------------
__CONSTRUCT_STEP__(File)