Mercurial > sdl-ios-xcode
view src/main/symbian/EKA2/SDL_main.cpp @ 4266:62849663f20a SDL-1.2
Removed duplicate memset() calls.
author | Ryan C. Gordon <icculus@icculus.org> |
---|---|
date | Tue, 29 Sep 2009 13:40:34 +0000 |
parents | e85e65aec22f |
children |
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/* SDL_Main.cpp Symbian OS services for SDL Markus Mertama */ #include "epoc_sdl.h" #include"sdlepocapi.h" #include <e32base.h> #include <estlib.h> #include <stdio.h> #include <badesca.h> #include "vectorbuffer.h" #include <w32std.h> #include <aknappui.h> #include <aknapp.h> #include "SDL_epocevents_c.h" #include "SDL_keysym.h" #include "dsa.h" #ifdef SYMBIANC #include <reent.h> #endif //Markus Mertama extern SDLKey* KeyMap(); extern void ResetKeyMap(); class CCurrentAppUi; //const TUid KSDLUid = { 0xF01F3D69 }; NONSHARABLE_CLASS(EnvUtils) { public: static void DisableKeyBlocking(); static TBool Rendezvous(RThread& aThread, TRequestStatus& aStatus); }; TInt Panic(TInt aErr, TInt aLine) { TBuf<64> b; b.Format(_L("Main at %d"), aLine); User::Panic(b, aErr); return 0; } NONSHARABLE_CLASS(CCurrentAppUi) : public CAknAppUi { public: static CCurrentAppUi* Cast(CEikAppUi* aUi); void DisableKeyBlocking(); }; CCurrentAppUi* CCurrentAppUi::Cast(CEikAppUi* aUi) { return static_cast<CCurrentAppUi*>(aUi); } void CCurrentAppUi::DisableKeyBlocking() { SetKeyBlockMode(ENoKeyBlock); } class CEventQueue : public CBase, public MEventQueue { public: static CEventQueue* NewL(); ~CEventQueue(); public: TInt Append(const TWsEvent& aEvent); const TWsEvent& Shift(); void Lock(); void Unlock(); TBool HasData(); private: TVector<TWsEvent, 64> iVector; RCriticalSection iCS; }; CEventQueue* CEventQueue::NewL() { CEventQueue* q = new (ELeave) CEventQueue(); CleanupStack::PushL(q); User::LeaveIfError(q->iCS.CreateLocal()); CleanupStack::Pop(); return q; } CEventQueue::~CEventQueue() { iCS.Close(); } TInt CEventQueue::Append(const TWsEvent& aEvent) { iCS.Wait(); const TInt err = iVector.Append(aEvent); iCS.Signal(); return err; } TBool CEventQueue::HasData() { return iVector.Size() > 0; } void CEventQueue::Lock() { iCS.Wait(); } void CEventQueue::Unlock() { iCS.Signal(); } const TWsEvent& CEventQueue::Shift() { const TWsEvent& event = iVector.Shift(); return event; } TSdlCleanupItem::TSdlCleanupItem(TSdlCleanupOperation aOperation, TAny* aItem) : iOperation(aOperation), iItem(aItem), iThread(RThread().Id()) { } class CEikonEnv; class CSdlAppServ; NONSHARABLE_CLASS(EpocSdlEnvData) { public: void Free(); CEventQueue* iEventQueue; TMainFunc iMain; TInt iEpocEnvFlags; int iArgc; char** iArgv; CDsa* iDsa; CSdlAppServ* iAppSrv; TThreadId iId; CArrayFix<TSdlCleanupItem>* iCleanupItems; CEikAppUi* iAppUi; CSDL* iSdl; }; EpocSdlEnvData* gEpocEnv; #define MAINFUNC(x) EXPORT_C TMainFunc::TMainFunc(mainfunc##x aFunc){Mem::FillZ(iMainFunc, sizeof(iMainFunc)); iMainFunc[x - 1] = (void*) aFunc;} MAINFUNC(1) MAINFUNC(2) MAINFUNC(3) MAINFUNC(4) MAINFUNC(5) MAINFUNC(6) EXPORT_C TMainFunc::TMainFunc() { Mem::FillZ(iMainFunc, sizeof(iMainFunc)); } const void* TMainFunc::operator[](TInt aIndex) const { return iMainFunc[aIndex]; } NONSHARABLE_CLASS(CSdlAppServ) : public CActive { public: enum { EAppSrvNoop = CDsa::ELastDsaRequest, EAppSrvWindowWidth, EAppSrvWindowHeight, EAppSrvWindowDisplayMode, EAppSrvWindowPointerCursorMode, EAppSrvDsaStatus, EAppSrvStopThread, EAppSrvWaitDsa }; CSdlAppServ(); void ConstructL(); ~CSdlAppServ(); TInt Request(TInt aService); TInt RequestValue(TInt aService); void Init(); void PanicMain(TInt aReason); void PanicMain(const TDesC& aInfo, TInt aReason); void SetObserver(MSDLObserver* aObserver); TInt ObserverEvent(TInt aEvent, TInt aParam); void SetParam(TInt aParam); void HandleObserverValue(TInt aService, TInt aReturnValue, TBool aMainThread); MSDLObserver* Observer(); private: void RunL(); void DoCancel(); private: const TThreadId iMainId; RThread iAppThread; TInt iService; TInt iReturnValue; RSemaphore iSema; MSDLObserver* iObserver; TRequestStatus* iStatusPtr; }; CSdlAppServ::CSdlAppServ() : CActive(CActive::EPriorityHigh), iMainId(RThread().Id()) { } MSDLObserver* CSdlAppServ::Observer() { return iObserver; } void CSdlAppServ::SetObserver(MSDLObserver* aObserver) { iObserver = aObserver; } TInt CSdlAppServ::ObserverEvent(TInt aEvent, TInt aParam) { if(iObserver != NULL) { if(RThread().Id() == gEpocEnv->iId) { return iObserver->SdlThreadEvent(aEvent, aParam); } else if(RThread().Id() == iMainId) { return iObserver->SdlEvent(aEvent, aParam); } PANIC(KErrNotSupported); } return 0; } void CSdlAppServ::PanicMain(TInt aReason) { iAppThread.Panic(RThread().Name(), aReason); } void CSdlAppServ::PanicMain(const TDesC& aInfo, TInt aReason) { iAppThread.Panic(aInfo, aReason); } void CSdlAppServ::ConstructL() { CActiveScheduler::Add(this); User::LeaveIfError(iSema.CreateLocal(1)); iStatus = KRequestPending; iStatusPtr = &iStatus; SetActive(); } CSdlAppServ::~CSdlAppServ() { Cancel(); if(iSema.Handle() != NULL) iSema.Signal(); iSema.Close(); iAppThread.Close(); } TInt CSdlAppServ::Request(TInt aService) { if(RThread().Id() != iAppThread.Id()) { iSema.Wait(); iService = aService; iAppThread.RequestComplete(iStatusPtr, KErrNone); return KErrNone; } return KErrBadHandle; } TInt CSdlAppServ::RequestValue(TInt aService) { Request(aService); Request(EAppSrvNoop); return iReturnValue; } void CSdlAppServ::Init() { PANIC_IF_ERROR(iAppThread.Open(iMainId)); } void CSdlAppServ::SetParam(TInt aParam) { iReturnValue = aParam; } void CSdlAppServ::HandleObserverValue(TInt aService, TInt aReturnValue, TBool aMainThread) { if(iObserver != NULL && aMainThread) { switch(aService) { case MSDLObserver::EEventScreenSizeChanged: if(aReturnValue == MSDLObserver::EScreenSizeChangedDefaultPalette) EpocSdlEnv::LockPalette(EFalse); break; } } if(!aMainThread && aService == MSDLObserver::EEventSuspend) { if(iObserver == NULL || (gEpocEnv->iDsa->Stopped() && aReturnValue != MSDLObserver::ESuspendNoSuspend)) { EpocSdlEnv::Suspend(); } } } void CSdlAppServ::RunL() { if(iStatus == KErrNone) { switch(iService) { case CSdlAppServ::EAppSrvWaitDsa: EpocSdlEnv::SetWaitDsa(); iReturnValue = EpocSdlEnv::IsDsaAvailable(); // } // gEpocEnv->iDsa->Stop(); // gEpocEnv->iDsa->RestartL(); break; case CSdlAppServ::EAppSrvStopThread: gEpocEnv->iDsa->SetSuspend(); break; case EpocSdlEnv::EDisableKeyBlocking: EnvUtils::DisableKeyBlocking(); break; case EAppSrvWindowPointerCursorMode: iReturnValue = gEpocEnv->iDsa != NULL ? gEpocEnv->iDsa->Session().PointerCursorMode() : KErrNotReady; break; case EAppSrvDsaStatus: gEpocEnv->iDsa->Stop(); iReturnValue = KErrNone; break; case CDsa::ERequestUpdate: gEpocEnv->iDsa->UnlockHWSurfaceRequestComplete(); break; case EAppSrvNoop: break; case MSDLObserver::EEventResume: case MSDLObserver::EEventSuspend: case MSDLObserver::EEventScreenSizeChanged: case MSDLObserver::EEventWindowReserved: case MSDLObserver::EEventKeyMapInit: case MSDLObserver::EEventWindowNotAvailable: case MSDLObserver::EEventMainExit: iReturnValue = ObserverEvent(iService, iReturnValue); HandleObserverValue(iService, iReturnValue, ETrue); break; default: PANIC(KErrNotSupported); } iStatus = KRequestPending; iStatusPtr = &iStatus; SetActive(); } iSema.Signal(); } void CSdlAppServ::DoCancel() { iSema.Wait(); TRequestStatus* s = &iStatus; iAppThread.RequestComplete(s, KErrCancel); } MEventQueue& EpocSdlEnv::EventQueue() { __ASSERT_DEBUG(gEpocEnv != NULL, PANIC(KErrNotReady)); return *gEpocEnv->iEventQueue; } TBool EpocSdlEnv::Flags(TInt aFlag) { const TInt flag = gEpocEnv->iEpocEnvFlags & aFlag; return flag == aFlag; } TInt EpocSdlEnv::Argc() { __ASSERT_DEBUG(gEpocEnv != NULL, PANIC(KErrNotReady)); return gEpocEnv->iArgc; } char** EpocSdlEnv::Argv() { __ASSERT_DEBUG(gEpocEnv != NULL, PANIC(KErrNotReady)); return gEpocEnv->iArgv; } TBool EpocSdlEnv::IsDsaAvailable() { __ASSERT_DEBUG(gEpocEnv != NULL, PANIC(KErrNotReady)); return gEpocEnv->iDsa != NULL && gEpocEnv->iDsa->IsDsaAvailable(); } void EpocSdlEnv::WaitDsaAvailable() { EpocSdlEnv::ObserverEvent(MSDLObserver::EEventWindowNotAvailable, 0); gEpocEnv->iAppSrv->Request(CSdlAppServ::EAppSrvStopThread); if(EpocSdlEnv::Flags(CSDL::EEnableFocusStop)) { EpocSdlEnv::ObserverEvent(MSDLObserver::EEventSuspend, 0); } } void EpocSdlEnv::Suspend() { if(gEpocEnv->iDsa->Stopped() || EpocSdlEnv::Flags(CSDL::EEnableFocusStop)) { // gEpocEnv->iDsa->ReleaseStop(); gEpocEnv->iDsa->SetSuspend(); RThread().Suspend(); EpocSdlEnv::ObserverEvent(MSDLObserver::EEventResume, 0); } } void EpocSdlEnv::SetWaitDsa() { if(!IsDsaAvailable()) { RThread th; th.Open(gEpocEnv->iId); th.Suspend(); th.Close(); gEpocEnv->iDsa->SetSuspend(); } } void EpocSdlEnv::Resume() { gEpocEnv->iDsa->Resume(); RThread th; th.Open(gEpocEnv->iId); th.Resume(); th.Close(); const TInt value = gEpocEnv->iAppSrv->ObserverEvent(MSDLObserver::EEventResume, 0); gEpocEnv->iAppSrv->HandleObserverValue(MSDLObserver::EEventResume, value, ETrue); } TInt EpocSdlEnv::AllocSwSurface(const TSize& aSize, TDisplayMode aMode) { return gEpocEnv->iDsa->AllocSurface(EFalse, aSize, aMode); } TInt EpocSdlEnv::AllocHwSurface(const TSize& aSize, TDisplayMode aMode) { return gEpocEnv->iDsa->AllocSurface(ETrue, aSize, aMode); } void EpocSdlEnv::UnlockHwSurface() { gEpocEnv->iDsa->UnlockHwSurface(); } TUint8* EpocSdlEnv::LockHwSurface() { return gEpocEnv->iDsa->LockHwSurface(); } void EpocSdlEnv::UpdateSwSurface() { gEpocEnv->iDsa->UpdateSwSurface(); } TBool EpocSdlEnv::AddUpdateRect(TUint8* aAddress, const TRect& aUpdateRect, const TRect& aRect) { return gEpocEnv->iDsa->AddUpdateRect(aAddress, aUpdateRect, aRect); } void EpocSdlEnv::Request(TInt aService) { __ASSERT_DEBUG(gEpocEnv != NULL, PANIC(KErrNotReady)); gEpocEnv->iAppSrv->Request(aService); } TSize EpocSdlEnv::WindowSize(const TSize& aRequestedSize) { __ASSERT_DEBUG(gEpocEnv != NULL, PANIC(KErrNotReady)); if(EpocSdlEnv::Flags(CSDL::EAllowImageResize) && gEpocEnv->iDsa->WindowSize() != aRequestedSize) { TRAP_IGNORE(gEpocEnv->iDsa->CreateZoomerL(aRequestedSize)); } return gEpocEnv->iDsa->WindowSize(); } TSize EpocSdlEnv::WindowSize() { __ASSERT_DEBUG(gEpocEnv != NULL, PANIC(KErrNotReady)); return gEpocEnv->iDsa->WindowSize(); } TDisplayMode EpocSdlEnv::DisplayMode() { return gEpocEnv->iDsa->DisplayMode(); } TPointerCursorMode EpocSdlEnv::PointerMode() { return static_cast<TPointerCursorMode> (gEpocEnv->iAppSrv->RequestValue(CSdlAppServ::EAppSrvWindowPointerCursorMode)); } TInt EpocSdlEnv::SetPalette(TInt aFirstcolor, TInt aColorCount, TUint32* aPalette) { return gEpocEnv->iDsa->SetPalette(aFirstcolor, aColorCount, aPalette); } void EpocSdlEnv::PanicMain(TInt aErr) { gEpocEnv->iAppSrv->PanicMain(aErr); } TInt EpocSdlEnv::AppendCleanupItem(const TSdlCleanupItem& aItem) { TRAPD(err, gEpocEnv->iCleanupItems->AppendL(aItem)); return err; } void EpocSdlEnv::RemoveCleanupItem(TAny* aItem) { for(TInt i = 0; i < gEpocEnv->iCleanupItems->Count(); i++) { if(gEpocEnv->iCleanupItems->At(i).iItem == aItem) gEpocEnv->iCleanupItems->Delete(i); } } void EpocSdlEnv::CleanupItems() { const TThreadId id = RThread().Id(); TInt last = gEpocEnv->iCleanupItems->Count() - 1; TInt i; for(i = last; i >= 0 ; i--) { TSdlCleanupItem& item = gEpocEnv->iCleanupItems->At(i); if(item.iThread == id) { item.iThread = TThreadId(0); item.iOperation(item.iItem); } } last = gEpocEnv->iCleanupItems->Count() - 1; for(i = last; i >= 0 ; i--) { TSdlCleanupItem& item = gEpocEnv->iCleanupItems->At(i); if(item.iThread == TThreadId(0)) { gEpocEnv->iCleanupItems->Delete(i); } } } void EpocSdlEnv::FreeSurface() { Request(CSdlAppServ::EAppSrvDsaStatus); gEpocEnv->iDsa->Free(); } void EpocSdlEnv::LockPalette(TBool aLock) { gEpocEnv->iDsa->LockPalette(aLock); } void EpocSdlEnv::ObserverEvent(TInt aService, TInt aParam) { const TBool sdlThread = RThread().Id() == gEpocEnv->iId; const TInt valuea = gEpocEnv->iAppSrv->ObserverEvent(aService, aParam); gEpocEnv->iAppSrv->HandleObserverValue(aService, valuea, !sdlThread); if(sdlThread) { gEpocEnv->iAppSrv->SetParam(aParam); const TInt valuet = gEpocEnv->iAppSrv->RequestValue(aService); gEpocEnv->iAppSrv->HandleObserverValue(aService, valuet, EFalse); } } TPoint EpocSdlEnv::WindowCoordinates(const TPoint& aPoint) { return gEpocEnv->iDsa->WindowCoordinates(aPoint); } void EpocSdlEnv::PanicMain(const TDesC& aInfo, TInt aErr) { gEpocEnv->iAppSrv->PanicMain(aInfo, aErr); } //Dsa is a low priority ao, it has to wait if its pending event, but ws //event has been prioritized before it //this is not called from app thread! void EpocSdlEnv::WaitDeviceChange() { LockPalette(ETrue); gEpocEnv->iAppSrv->RequestValue(CSdlAppServ::EAppSrvWaitDsa); const TSize sz = WindowSize(); const TInt param = reinterpret_cast<TInt>(&sz); ObserverEvent(MSDLObserver::EEventScreenSizeChanged, param); // RThread().Suspend(); } LOCAL_C TBool CheckSdl() { TInt isExit = ETrue; RThread sdl; if(sdl.Open(gEpocEnv->iId) == KErrNone) { if(sdl.ExitType() == EExitPending) { isExit = EFalse; } sdl.Close(); } return isExit; } void EpocSdlEnvData::Free() { if(RThread().Id() == gEpocEnv->iId) { iDsa->Free(); return; } __ASSERT_ALWAYS(iArgv == NULL || CheckSdl(), PANIC(KErrNotReady)); for(TInt i = 0; i < iArgc; i++) User::Free( iArgv[i] ); User::Free(iArgv); delete iEventQueue; if(iDsa != NULL) iDsa->Free(); delete iDsa; delete iAppSrv; } _LIT(KSDLMain, "SDLMain"); LOCAL_C int MainL() { gEpocEnv->iCleanupItems = new (ELeave) CArrayFixFlat<TSdlCleanupItem>(8); char** envp=0; /* !! process exits here if there is "exit()" in main! */ int ret = 0; for(TInt i = 0; i < 6; i++) { void* f = (void*) gEpocEnv->iMain[i]; if(f != NULL) { switch(i) { case 0: ret = ((mainfunc1)f)(); return ret; case 3: ((mainfunc1)f)(); return ret; case 1: ret = ((mainfunc2)f)(EpocSdlEnv::Argc(), EpocSdlEnv::Argv()); return ret; case 4: ((mainfunc2)f)(EpocSdlEnv::Argc(), EpocSdlEnv::Argv()); return ret; case 2: ret = ((mainfunc3)f)(EpocSdlEnv::Argc(), EpocSdlEnv::Argv(), envp); return ret; case 5: ((mainfunc3)f)(EpocSdlEnv::Argc(), EpocSdlEnv::Argv(), envp); return ret; } } } PANIC(KErrNotFound); return 0; } LOCAL_C TInt DoMain(TAny* /*aParam*/) { CTrapCleanup* cleanup = CTrapCleanup::New(); TBool fbsconnected = EFalse; if(RFbsSession::GetSession() == NULL) { PANIC_IF_ERROR(RFbsSession::Connect()); fbsconnected = ETrue; } gEpocEnv->iAppSrv->Init(); #ifdef SYMBIANC // Create stdlib _REENT; #endif // Call stdlib main int ret = 0; //completes waiting rendesvous RThread::Rendezvous(KErrNone); TRAPD(err, err = MainL()); EpocSdlEnv::ObserverEvent(MSDLObserver::EEventMainExit, err); // Free resources and return EpocSdlEnv::CleanupItems(); gEpocEnv->iCleanupItems->Reset(); delete gEpocEnv->iCleanupItems; gEpocEnv->iCleanupItems = NULL; gEpocEnv->Free(); //free up in thread resources #ifdef SYMBIANC _cleanup(); //this is normally called at exit, I call it here #endif if(fbsconnected) RFbsSession::Disconnect(); #ifdef SYMBIANC CloseSTDLIB(); #endif // delete as; delete cleanup; return err == KErrNone ? ret : err;; } EXPORT_C CSDL::~CSDL() { gEpocEnv->Free(); User::Free(gEpocEnv); gEpocEnv->iSdl = NULL; } EXPORT_C CSDL* CSDL::NewL(TInt aFlags) { __ASSERT_ALWAYS(gEpocEnv == NULL, PANIC(KErrAlreadyExists)); gEpocEnv = (EpocSdlEnvData*) User::AllocL(sizeof(EpocSdlEnvData)); Mem::FillZ(gEpocEnv, sizeof(EpocSdlEnvData)); gEpocEnv->iEpocEnvFlags = aFlags; gEpocEnv->iEventQueue = CEventQueue::NewL(); gEpocEnv->iAppSrv = new (ELeave) CSdlAppServ(); gEpocEnv->iAppSrv->ConstructL(); CSDL* sdl = new (ELeave) CSDL(); gEpocEnv->iSdl = sdl; return sdl; } /* EXPORT_C void CSDL::ReInitL(TFlags aFlags) { const TFlags prevFlags = gEpocEnv->iEpocEnvFlags; gEpocEnv->iEpocEnvFlags = aFlags; TInt err = KErrNone; if(((prevFlags & EDrawModeDSB) != (aFlags & EDrawModeDSB)) && gEpocEnv->iDsa) { delete gEpocEnv->iDsa; gEpocEnv->iDsa = NULL; gEpocEnv->iDsa = CDsa::RecreateL(EpocSdlEnv::Flags(CSDL::EDrawModeDSB)); } } */ EXPORT_C void CSDL::SetContainerWindowL(RWindow& aWindow, RWsSession& aSession, CWsScreenDevice& aDevice) { if(gEpocEnv->iDsa == NULL) gEpocEnv->iDsa = CDsa::CreateL(aSession); gEpocEnv->iDsa->ConstructL(aWindow, aDevice); } EXPORT_C TThreadId CSDL::CallMainL(const TMainFunc& aFunc, TRequestStatus* const aStatus, const CDesC8Array* const aArg, TInt aFlags, TInt aStackSize) { ASSERT(gEpocEnv != NULL); gEpocEnv->iMain = aFunc; const TBool args = aArg != NULL; gEpocEnv->iArgc = aArg->Count() + 1; gEpocEnv->iArgv = (char**) User::AllocL(sizeof(char*) * (gEpocEnv->iArgc + 1)); TInt k = 0; const TFileName processName = RProcess().FileName(); const TInt len = processName.Length(); gEpocEnv->iArgv[k] = (char*) User::AllocL(len + 1); Mem::Copy(gEpocEnv->iArgv[k], processName.Ptr(), len); gEpocEnv->iArgv[k][len] = 0; for(TInt i = 0; args && (i < aArg->Count()); i++) { k++; const TInt len = aArg->MdcaPoint(i).Length(); gEpocEnv->iArgv[k] = (char*) User::AllocL(len + 1); Mem::Copy(gEpocEnv->iArgv[k], aArg->MdcaPoint(i).Ptr(), len); gEpocEnv->iArgv[k][len] = 0; } gEpocEnv->iArgv[gEpocEnv->iArgc] = NULL; RThread thread; User::LeaveIfError(thread.Create(KSDLMain, DoMain, aStackSize, NULL, NULL)); if(aStatus != NULL) { thread.Logon(*aStatus); } gEpocEnv->iId = thread.Id(); thread.SetPriority(EPriorityLess); if((aFlags & CSDL::ERequestResume) == 0) { thread.Resume(); } thread.Close(); return gEpocEnv->iId; } EXPORT_C TInt CSDL::AppendWsEvent(const TWsEvent& aEvent) { return EpocSdlEnv::EventQueue().Append(aEvent); } EXPORT_C void CSDL::SDLPanic(const TDesC& aInfo, TInt aErr) { EpocSdlEnv::PanicMain(aInfo, aErr); } EXPORT_C TInt CSDL::GetSDLCode(TInt aScanCode) { if(aScanCode < 0) return MAX_SCANCODE; if(aScanCode >= MAX_SCANCODE) return -1; return KeyMap()[aScanCode]; } EXPORT_C TInt CSDL::SDLCodesCount() const { return MAX_SCANCODE; } EXPORT_C void CSDL::ResetSDLCodes() { ResetKeyMap(); } EXPORT_C void CSDL::SetOrientation(TOrientationMode aMode) { gEpocEnv->iDsa->SetOrientation(aMode); } EXPORT_C TInt CSDL::SetSDLCode(TInt aScanCode, TInt aSDLCode) { const TInt current = GetSDLCode(aScanCode); if(aScanCode >= 0 && aScanCode < MAX_SCANCODE) KeyMap()[aScanCode] = static_cast<SDLKey>(aSDLCode); return current; } EXPORT_C MSDLObserver* CSDL::Observer() { return gEpocEnv->iAppSrv->Observer(); } EXPORT_C void CSDL::SetObserver(MSDLObserver* aObserver) { gEpocEnv->iAppSrv->SetObserver(aObserver); } EXPORT_C void CSDL::Resume() { EpocSdlEnv::Resume(); } EXPORT_C void CSDL::Suspend() { gEpocEnv->iDsa->DoStop(); } EXPORT_C CSDL::CSDL() { } EXPORT_C void CSDL::DisableKeyBlocking(CAknAppUi& aAppUi) const { gEpocEnv->iAppUi = &aAppUi; EnvUtils::DisableKeyBlocking(); } EXPORT_C TInt CSDL::SetBlitter(MBlitter* aBlitter) { if(gEpocEnv && gEpocEnv->iDsa) { gEpocEnv->iDsa->SetBlitter(aBlitter); return KErrNone; } return KErrNotReady; } EXPORT_C TInt CSDL::AppendOverlay(MOverlay& aOverlay, TInt aPriority) { if(gEpocEnv && gEpocEnv->iDsa) { return gEpocEnv->iDsa->AppendOverlay(aOverlay, aPriority); } return KErrNotReady; } EXPORT_C TInt CSDL::RemoveOverlay(MOverlay& aOverlay) { if(gEpocEnv && gEpocEnv->iDsa) { return gEpocEnv->iDsa->RemoveOverlay(aOverlay); } return KErrNotReady; } EXPORT_C TInt CSDL::RedrawRequest() { if(gEpocEnv && gEpocEnv->iDsa) { return gEpocEnv->iDsa->RedrawRequest(); } return KErrNotReady; } /* EXPORT_C CSDL* CSDL::Current() { return gEpocEnv != NULL ? gEpocEnv->iSdl : NULL; } EXPORT_C TInt CSDL::SetVolume(TInt aVolume) { return EpocSdlEnv::SetVolume(aVolume); } EXPORT_C TInt CSDL::Volume() const { return EpocSdlEnv::Volume(); } EXPORT_C TInt CSDL::MaxVolume() const { return EpocSdlEnv::MaxVolume(); } */ void EnvUtils::DisableKeyBlocking() { if(gEpocEnv->iAppUi != NULL) return CCurrentAppUi::Cast(gEpocEnv->iAppUi)->DisableKeyBlocking(); } TBool EnvUtils::Rendezvous(RThread& aThread, TRequestStatus& aStatus) { if(gEpocEnv->iId != TThreadId(0) && aThread.Open(gEpocEnv->iId) && aThread.ExitType() == EExitPending) { aThread.Rendezvous(aStatus); return ETrue; } return EFalse; }