/*==LICENSE==* CyanWorlds.com Engine - MMOG client, server and tools Copyright (C) 2011 Cyan Worlds, Inc. This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . Additional permissions under GNU GPL version 3 section 7 If you modify this Program, or any covered work, by linking or combining it with any of RAD Game Tools Bink SDK, Autodesk 3ds Max SDK, NVIDIA PhysX SDK, Microsoft DirectX SDK, OpenSSL library, Independent JPEG Group JPEG library, Microsoft Windows Media SDK, or Apple QuickTime SDK (or a modified version of those libraries), containing parts covered by the terms of the Bink SDK EULA, 3ds Max EULA, PhysX SDK EULA, DirectX SDK EULA, OpenSSL and SSLeay licenses, IJG JPEG Library README, Windows Media SDK EULA, or QuickTime SDK EULA, the licensors of this Program grant you additional permission to convey the resulting work. Corresponding Source for a non-source form of such a combination shall include the source code for the parts of OpenSSL and IJG JPEG Library used as well as that of the covered work. You can contact Cyan Worlds, Inc. by email legal@cyan.com or by snail mail at: Cyan Worlds, Inc. 14617 N Newport Hwy Mead, WA 99021 *==LICENSE==*/ #pragma warning(disable: 4284) #include "HeadSpin.h" #include "hsWindows.h" #include "plClient.h" #include "hsStream.h" #include "plResMgr/plResManager.h" #include "plResMgr/plKeyFinder.h" #include "pnKeyedObject/plKey.h" #include "pnKeyedObject/plFixedKey.h" #include "pnMessage/plRefMsg.h" #include "pnSceneObject/plSceneObject.h" #include "pnSceneObject/plCoordinateInterface.h" #include "plScene/plSceneNode.h" #include "pnMessage/plTimeMsg.h" #include "pnMessage/plClientMsg.h" #include "pfCamera/plVirtualCamNeu.h" #include "hsTimer.h" #include "plPipeline/hsG3DDeviceSelector.h" #include "plFile/plEncryptedStream.h" #include "plInputCore/plInputManager.h" #include "plInputCore/plInputInterfaceMgr.h" #include "plInputCore/plInputDevice.h" #include "plPhysX/plSimulationMgr.h" #include "plNetClient/plNetClientMgr.h" #include "plAvatar/plAvatarMgr.h" #include "plScene/plRelevanceMgr.h" #include "pnTimer/plTimerCallbackManager.h" #include "pfAudio/plListener.h" #include "pnMessage/plCmdIfaceModMsg.h" #include "plMessage/plRoomLoadNotifyMsg.h" #include "pnMessage/plPlayerPageMsg.h" #include "pnMessage/plCameraMsg.h" #include "plMessage/plTransitionMsg.h" #include "plMessage/plLinkToAgeMsg.h" #include "plMessage/plNetCommMsgs.h" #include "plMessage/plAgeLoadedMsg.h" #include "plMessage/plResPatcherMsg.h" #include "pfConsoleCore/pfConsoleEngine.h" #include "pfConsole/pfConsole.h" #include "pfConsole/pfConsoleDirSrc.h" #include "plScene/plPageTreeMgr.h" #include "plScene/plVisMgr.h" #include "pfKI/pfKI.h" #include "plAudio/plAudioSystem.h" #include "plAudio/plAudioCaps.h" #include "plStatGather/plProfileManagerFull.h" #include "plPipeline.h" #include "plPipeline/plPipelineCreate.h" #include "plPipeline/plPipeDebugFlags.h" #include "plPipeline/plTransitionMgr.h" #include "plPipeline/plCaptureRender.h" #include "plPipeline/plDynamicEnvMap.h" #include "plNetClient/plLinkEffectsMgr.h" #include "plAvatar/plAvatarClothing.h" #include "plAvatar/plArmatureMod.h" #include "pnMessage/plProxyDrawMsg.h" #include "plScene/plRenderRequest.h" #include "plDrawable/plAccessGeometry.h" #include "plPipeResReq.h" #include "plDrawable/plVisLOSMgr.h" #include "plGImage/plBitmap.h" #include "plStatusLog/plStatusLog.h" #include "plProgressMgr/plProgressMgr.h" #include "plPipeline/plDTProgressMgr.h" #include "pfMoviePlayer/plMoviePlayer.h" #include "plMessage/plMovieMsg.h" #include "plSDL/plSDL.h" #include "pnDispatch/plDispatch.h" #include "pnDispatch/plDispatchLogBase.h" #include "pfGameGUIMgr/pfGameGUIMgr.h" #include "pfPython/cyMisc.h" #include "plMessage/plInputEventMsg.h" #include "plMessage/plRenderRequestMsg.h" #include "pnMessage/plEventCallbackMsg.h" #include "plModifier/plSimpleModifier.h" #include "plAudible.h" #include "plMessage/plAnimCmdMsg.h" #include "pnMessage/plSoundMsg.h" #include "pnMessage/plAudioSysMsg.h" #include "plMessage/plRenderMsg.h" #include "plAgeLoader/plResPatcher.h" #include "pfPython/cyPythonInterface.h" #include "plUnifiedTime/plClientUnifiedTime.h" #include "pfAnimation/plAnimDebugList.h" #include "pfGameGUIMgr/pfGUICtrlGenerator.h" #include "plGImage/plWinFontCache.h" #include "plGImage/plFontCache.h" #include "pfJournalBook/pfJournalBook.h" #include "plAvatar/plAGAnimInstance.h" #include "plAgeLoader/plAgeLoader.h" #include "plQuality.h" #include "plGLight/plShadowCaster.h" #include "plNetClient/plNetLinkingMgr.h" #include "plNetCommon/plNetCommonConstants.h" #include "plNetGameLib/plNetGameLib.h" #include "pfLocalizationMgr/pfLocalizationMgr.h" #include "pfPatcher/plManifests.h" #include "plTweak.h" #define MSG_LOADING_BAR // static hsVector3 gAbsDown(0,0,-1.f); static plDispatchBase* gDisp = nil; static plTimerCallbackManager* gTimerMgr = nil; static plAudioSystem* gAudio = nil; #ifdef HS_BUILD_FOR_WIN32 extern ITaskbarList3* gTaskbarList; #endif bool plClient::fDelayMS = false; plClient* plClient::fInstance=nil; static hsTArray fLoadedDLLs; plClient::plClient() : fPipeline(nil), fDone(false), fQuitIntro(false), fWindowHndl(nil), fInputManager(nil), fConsole(nil), fCurrentNode(nil), fNewCamera(nil), fpAuxInitDir(nil), fTransitionMgr(nil), fLinkEffectsMgr(nil), fProgressBar(nil), fGameGUIMgr(nil), fWindowActive(false), fAnimDebugList(nil), fClampCap(-1), fQuality(0), fPageMgr(nil), fFontCache(nil), fHoldLoadRequests(false), fNumLoadingRooms(0), fNumPostLoadMsgs(0), fPostLoadMsgInc(0.f) { #ifndef PLASMA_EXTERNAL_RELEASE bPythonDebugConnected = false; #endif hsStatusMessage("Constructing client\n"); plClient::SetInstance(this); // gNextRoom[0] = '\0'; // Setup the timer. These can be overriden with console commands. hsTimer::SetRealTime(true); #ifdef HS_DEBUGGING // hsTimer::SetRealTime(false); hsTimer::SetTimeClamp(0.1f); #else // HS_DEBUGGING // hsTimer::SetRealTime(true); hsTimer::SetTimeClamp(0); #endif // HS_DEBUGGING IDetectAudioVideoSettings(); // need to do this before the console is created /// allow console commands to start working early // Create the console engine fConsoleEngine = new pfConsoleEngine(); // create network mgr before console runs plNetClientMgr::SetInstance(new plNetClientMgr); plAgeLoader::SetInstance(new plAgeLoader); // Use it to parse the init directory plFileName initFolder = plFileSystem::GetInitPath(); pfConsoleDirSrc dirSrc(fConsoleEngine, initFolder, "*.ini"); #ifndef PLASMA_EXTERNAL_RELEASE // internal builds also parse the local init folder dirSrc.ParseDirectory("init", "*.ini"); #endif /// End of console stuff } plClient::~plClient() { hsStatusMessage("Destructing client\n"); plClient::SetInstance( nil ); delete fPageMgr; delete [] fpAuxInitDir; } #include "plGImage/plAVIWriter.h" #include "pfCharacter/pfMarkerMgr.h" template static void IUnRegisterAs(T*& ko, plFixedKeyId id) { if (ko) { ko->UnRegisterAs(id); ko = nullptr; } } bool plClient::Shutdown() { plSynchEnabler ps(false); // disable dirty state tracking during shutdown delete fProgressBar; // Just in case, clear this out (trying to fix a crash bug where this is still active at shutdown) plDispatch::SetMsgRecieveCallback(nil); // Let the resmanager know we're going to be shutting down. hsgResMgr::ResMgr()->BeginShutdown(); // Must kill off all movies before shutting down audio. IKillMovies(); plgAudioSys::Activate(false); // Get any proxies to commit suicide. plProxyDrawMsg* nuke = new plProxyDrawMsg(plProxyDrawMsg::kAllTypes | plProxyDrawMsg::kDestroy); plgDispatch::MsgSend(nuke); if (plAVIWriter::IsInitialized()) plAVIWriter::Instance().Shutdown(); hsStatusMessage( "Shutting down client...\n" ); // First, before anybody else goes away, write out our key mappings if( plInputInterfaceMgr::GetInstance() ) plInputInterfaceMgr::GetInstance()->WriteKeyMap(); // tell Python that its ok to shutdown PythonInterface::WeAreInShutdown(); // Shutdown the journalBook API pfJournalBook::SingletonShutdown(); /// Take down the KI pfGameGUIMgr *mgr = pfGameGUIMgr::GetInstance(); if( mgr ) mgr->UnloadDialog( "KIBlackBar" ); // unload the blackbar which will bootstrap in the rest of the KI dialogs // Take down our GUI control generator pfGUICtrlGenerator::Instance().Shutdown(); if (plNetClientMgr* nc = plNetClientMgr::GetInstance()) nc->Shutdown(); if (plAgeLoader* al = plAgeLoader::GetInstance()) al->Shutdown(); IUnRegisterAs(fInputManager, kInput_KEY); IUnRegisterAs(fGameGUIMgr, kGameGUIMgr_KEY); for (int i = 0; i < fRooms.Count(); i++) { plSceneNode *sn = fRooms[i].fNode; GetKey()->Release(sn->GetKey()); } fRooms.Reset(); fRoomsLoading.clear(); // Shutdown plNetClientMgr plAccessGeometry::DeInit(); delete fPipeline; fPipeline = nil; if (plSimulationMgr::GetInstance()) plSimulationMgr::Shutdown(); plAvatarMgr::ShutDown(); plRelevanceMgr::DeInit(); if (fPageMgr) fPageMgr->Reset(); IUnRegisterAs(fTransitionMgr, kTransitionMgr_KEY); delete fConsoleEngine; fConsoleEngine = nil; IUnRegisterAs(fLinkEffectsMgr, kLinkEffectsMgr_KEY); plClothingMgr::DeInit(); IUnRegisterAs(fFontCache, kFontCache_KEY); pfMarkerMgr::Shutdown(); delete fAnimDebugList; IUnRegisterAs(fConsole, kConsoleObject_KEY); PythonInterface::finiPython(); IUnRegisterAs(fNewCamera, kVirtualCamera1_KEY); // mark the listener for death. // there's no need to keep this around... plUoid lu(kListenerMod_KEY); plKey pLKey = hsgResMgr::ResMgr()->FindKey(lu); if (pLKey) { plListener* pLMod = plListener::ConvertNoRef(pLKey->GetObjectPtr()); if (pLMod) pLMod->UnRegisterAs(kListenerMod_KEY); } plgAudioSys::Shutdown(); if (pfLocalizationMgr::InstanceValid()) pfLocalizationMgr::Shutdown(); ShutdownDLLs(); plVisLOSMgr::DeInit(); delete fPageMgr; fPageMgr = nil; plGlobalVisMgr::DeInit(); #ifdef TRACK_AG_ALLOCS DumpAGAllocs(); #endif // TRACK_AG_ALLOCS // This will destruct the client. Do it last. UnRegisterAs(kClient_KEY); return false; } void plClient::InitAuxInits() { // Use another init directory specified in Command line Arg -i if (fpAuxInitDir) pfConsoleDirSrc dirSrc( fConsoleEngine, fpAuxInitDir, "*.ini" ); } void plClient::InitInputs() { hsStatusMessage("InitInputs client\n"); fInputManager = new plInputManager( fWindowHndl ); fInputManager->CreateInterfaceMod(fPipeline); fInputManager->RegisterAs( kInput_KEY ); plgDispatch::Dispatch()->RegisterForExactType(plIMouseXEventMsg::Index(), fInputManager->GetKey()); plgDispatch::Dispatch()->RegisterForExactType(plIMouseYEventMsg::Index(), fInputManager->GetKey()); plgDispatch::Dispatch()->RegisterForExactType(plIMouseBEventMsg::Index(), fInputManager->GetKey()); plgDispatch::Dispatch()->RegisterForExactType(plEvalMsg::Index(), fInputManager->GetKey()); plInputDevice* pKeyboard = new plKeyboardDevice(); fInputManager->AddInputDevice(pKeyboard); plInputDevice* pMouse = new plMouseDevice(); fInputManager->AddInputDevice(pMouse); if( fWindowActive ) fInputManager->Activate( true ); } void plClient::ISetGraphicsDefaults() { // couldn't find display mode set defaults write to ini file plFileName graphicsIniFile = plFileName::Join(plFileSystem::GetInitPath(), "graphics.ini"); IWriteDefaultGraphicsSettings(graphicsIniFile); plPipeline::fInitialPipeParams.Windowed = plPipeline::fDefaultPipeParams.Windowed; plPipeline::fInitialPipeParams.AntiAliasingAmount = plPipeline::fDefaultPipeParams.AntiAliasingAmount; plPipeline::fInitialPipeParams.AnisotropicLevel = plPipeline::fDefaultPipeParams.AnisotropicLevel; plPipeline::fInitialPipeParams.TextureQuality = plPipeline::fDefaultPipeParams.TextureQuality; plPipeline::fInitialPipeParams.VSync = plPipeline::fDefaultPipeParams.VSync; plShadowCaster::EnableShadowCast(plPipeline::fDefaultPipeParams.Shadows ? true : false); plQuality::SetQuality(plPipeline::fDefaultPipeParams.VideoQuality); if( (fClampCap >= 0) && (fClampCap < plQuality::GetCapability()) ) plQuality::SetCapability(fClampCap); plDynamicCamMap::SetEnabled(plPipeline::fDefaultPipeParams.PlanarReflections ? true : false); } bool plClient::InitPipeline() { hsStatusMessage("InitPipeline client\n"); HWND hWnd = fWindowHndl; hsG3DDeviceModeRecord dmr; hsG3DDeviceSelector devSel; devSel.Enumerate(hWnd); devSel.RemoveUnusableDevModes(true); if (!devSel.GetDefault(&dmr)) { hsMessageBox("No suitable rendering devices found.","Plasma", hsMessageBoxNormal, hsMessageBoxIconError); return true; } hsG3DDeviceRecord *rec = (hsG3DDeviceRecord *)dmr.GetDevice(); int res = -1; if(!plPipeline::fInitialPipeParams.Windowed) { // find our resolution if we're not in windowed mode for ( int i = 0; i < rec->GetModes().GetCount(); i++ ) { hsG3DDeviceMode *mode = rec->GetMode(i); if ((mode->GetWidth() == plPipeline::fInitialPipeParams.Width) && (mode->GetHeight() == plPipeline::fInitialPipeParams.Height) && (mode->GetColorDepth() == plPipeline::fInitialPipeParams.ColorDepth)) { res = i; break; } } if(res != -1) { // found it set it as the current mode. dmr = hsG3DDeviceModeRecord(*rec, *rec->GetMode(res)); } else { ISetGraphicsDefaults(); } } if(plPipeline::fInitialPipeParams.TextureQuality == -1) { plPipeline::fInitialPipeParams.TextureQuality = dmr.GetDevice()->GetCap(hsG3DDeviceSelector::kCapsPixelShader) ? 2 : 1; } else { // clamp value to range if(plPipeline::fInitialPipeParams.TextureQuality > 2) plPipeline::fInitialPipeParams.TextureQuality = 2; if(plPipeline::fInitialPipeParams.TextureQuality < 0) plPipeline::fInitialPipeParams.TextureQuality = 0; plBitmap::SetGlobalLevelChopCount(2 - plPipeline::fInitialPipeParams.TextureQuality); } plPipeline *pipe = plPipelineCreate::CreatePipeline( hWnd, &dmr ); if( pipe->GetErrorString() != nil ) { ISetGraphicsDefaults(); #ifdef PLASMA_EXTERNAL_RELEASE hsMessageBox("There was an error initializing the video card.\nSetting defaults.", "Error", hsMessageBoxNormal); #else hsMessageBox( pipe->GetErrorString(), "Error creating pipeline", hsMessageBoxNormal ); #endif delete pipe; devSel.GetDefault(&dmr); pipe = plPipelineCreate::CreatePipeline( hWnd, &dmr ); if(pipe->GetErrorString() != nil) { // not much else we can do return true; } } fPipeline = pipe; hsVector3 up; hsPoint3 from, at; from.Set(0, 0, 10.f); at.Set(0, 20.f, 10.f); up.Set(0,0,-1.f); hsMatrix44 cam; cam.MakeCamera(&from,&at,&up); float yon = 500.0f; pipe->SetFOV( 60.f, int32_t( 60.f * pipe->Height() / pipe->Width() ) ); pipe->SetDepth( 0.3f, yon ); hsMatrix44 id; id.Reset(); pipe->SetWorldToCamera( cam, id ); pipe->RefreshMatrices(); // Do this so we're still black before we show progress bars, but the correct color coming out of 'em fClearColor.Set( 0.f, 0.f, 0.f, 1.f ); pipe->SetClear(&fClearColor); pipe->ClearRenderTarget(); plAccessGeometry::Init(pipe); if( fPipeline ) fPipeline->LoadResources(); return false; } //============================================================================ void plClient::SetClearColor( hsColorRGBA &color ) { fClearColor = color; if( fPipeline != nil ) { fPipeline->SetClear(&fClearColor, nil); } } //============================================================================ void plClient::IDispatchMsgReceiveCallback() { if (fInstance->fProgressBar) fInstance->fProgressBar->Increment(1); static char buf[30]; sprintf(buf, "Msg %d", fInstance->fNumPostLoadMsgs); fInstance->IIncProgress(fInstance->fPostLoadMsgInc, buf); fInstance->fNumPostLoadMsgs++; } //============================================================================ bool plClient::MsgReceive(plMessage* msg) { if (plGenRefMsg * genRefMsg = plGenRefMsg::ConvertNoRef(msg)) { // do nothing, we just use the client's key to ref vault image nodes. return true; } plClientRefMsg* pRefMsg = plClientRefMsg::ConvertNoRef(msg); if (pRefMsg) { switch(pRefMsg->fType) { case plClientRefMsg::kLoadRoom : #ifndef PLASMA_EXTERNAL_RELEASE plStatusLog::AddLineS( "pageouts.log", ".. ClientRefMsg received for room %s", pRefMsg->GetRef() != nil ? pRefMsg->GetRef()->GetKey()->GetUoid().GetObjectName().c_str() : "nilref" ); #endif // was it that the room was loaded? if (hsCheckBits(pRefMsg->GetContext(), plRefMsg::kOnCreate)) IRoomLoaded(plSceneNode::Convert(pRefMsg->GetRef()), false); // or was it that the room was unloaded? else if (hsCheckBits(pRefMsg->GetContext(), plRefMsg::kOnDestroy)) IRoomUnloaded(plSceneNode::Convert(pRefMsg->GetRef())); #ifndef PLASMA_EXTERNAL_RELEASE else plStatusLog::AddLineS("pageouts.log", ".. refMsg is UNHANDLED"); #endif break; case plClientRefMsg::kLoadRoomHold: if (hsCheckBits(pRefMsg->GetContext(), plRefMsg::kOnCreate)) IRoomLoaded(plSceneNode::Convert(pRefMsg->GetRef()), true); break; // // Manually add room. // Add to pageMgr, but don't load the entire room. // case plClientRefMsg::kManualRoom: { if (pRefMsg->GetContext() & plRefMsg::kOnCreate || pRefMsg->GetContext() & plRefMsg::kOnRequest) { bool found=false; plSceneNode *pNode = plSceneNode::ConvertNoRef(pRefMsg->GetRef()); int i; for (i = 0; i < fRooms.Count(); i++) { if (fRooms[i].fNode->GetKey() == pRefMsg->GetSender()) { found=true; break; } } if (!found) { if (pNode) { fRooms.Append( plRoomRec( pNode, 0 ) ); fPageMgr->AddNode(pNode); } } } else { plSceneNode* node = plSceneNode::ConvertNoRef(pRefMsg->GetRef()); if(node) { int i; for (i = 0; i < fRooms.Count(); i++) { if (fRooms[i].fNode->GetKey() == node->GetKey()) { fRooms.Remove(i); break; } } fPageMgr->RemoveNode(node); } } } break; } } plClientMsg* pMsg = plClientMsg::ConvertNoRef(msg); if (pMsg) { switch(pMsg->GetClientMsgFlag()) { case plClientMsg::kQuit: SetDone(true); break; case plClientMsg::kLoadRoom: case plClientMsg::kLoadRoomHold: { IQueueRoomLoad(pMsg->GetRoomLocs(), (pMsg->GetClientMsgFlag() == plClientMsg::kLoadRoomHold)); if (!fHoldLoadRequests) ILoadNextRoom(); } break; case plClientMsg::kUnloadRoom: IUnloadRooms(pMsg->GetRoomLocs()); break; case plClientMsg::kLoadNextRoom: ILoadNextRoom(); break; // Load optimizations: messages to pre-load and un-load all the keys in a given age case plClientMsg::kLoadAgeKeys: { plResManager *mgr = (plResManager *)hsgResMgr::ResMgr(); mgr->LoadAgeKeys( pMsg->GetAgeName() ); } break; case plClientMsg::kReleaseAgeKeys: { plResManager *mgr = (plResManager *)hsgResMgr::ResMgr(); mgr->DropAgeKeys( pMsg->GetAgeName() ); } break; case plClientMsg::kDisableRenderScene: { plClient::GetInstance()->SetFlag( plClient::kFlagDBGDisableRender, true ); } break; case plClientMsg::kEnableRenderScene: { plClient::GetInstance()->SetFlag( plClient::kFlagDBGDisableRender, false ); } break; case plClientMsg::kResetGraphicsDevice: { ResetDisplayDevice(pMsg->fGraphicsSettings.fWidth, pMsg->fGraphicsSettings.fHeight, pMsg->fGraphicsSettings.fColorDepth, pMsg->fGraphicsSettings.fWindowed, pMsg->fGraphicsSettings.fNumAASamples, pMsg->fGraphicsSettings.fMaxAnisoSamples, pMsg->fGraphicsSettings.fVSync); } break; case plClientMsg::kSetGraphicsDefaults: { ISetGraphicsDefaults(); ResetDisplayDevice(plPipeline::fDefaultPipeParams.Width, plPipeline::fDefaultPipeParams.Height, plPipeline::fDefaultPipeParams.ColorDepth, plPipeline::fDefaultPipeParams.Windowed, plPipeline::fDefaultPipeParams.AntiAliasingAmount, plPipeline::fDefaultPipeParams.AnisotropicLevel, plPipeline::fDefaultPipeParams.VSync); } break; case plClientMsg::kFlashWindow: { FlashWindow(); } break; } return true; } plRenderRequestMsg* rendReq = plRenderRequestMsg::ConvertNoRef(msg); if( rendReq ) { IAddRenderRequest(rendReq->Request()); return true; } plEventCallbackMsg* callback = plEventCallbackMsg::ConvertNoRef(msg); if( callback ) { plString str = plFormat("Callback event from {}\n", callback->GetSender() ? callback->GetSender()->GetName() : "Unknown"); hsStatusMessage(str.c_str()); static int gotten = 0; if( ++gotten > 5 ) { plSimpleModifier* simpMod = plSimpleModifier::ConvertNoRef(callback->GetSender()->ObjectIsLoaded()); plAudible* aud = plAudible::ConvertNoRef(callback->GetSender()->ObjectIsLoaded()); if( simpMod ) { plAnimCmdMsg* cmd = new plAnimCmdMsg; cmd->AddReceiver(simpMod->GetKey()); cmd->SetCmd(plAnimCmdMsg::kRemoveCallbacks); cmd->AddCallback(callback); plgDispatch::MsgSend(cmd); hsRefCnt_SafeUnRef(callback); } else if( aud ) { plSoundMsg* cmd = new plSoundMsg; cmd->AddReceiver(aud->GetKey()); cmd->SetCmd(plSoundMsg::kRemoveCallbacks); cmd->AddCallback(callback); plgDispatch::MsgSend(cmd); hsRefCnt_SafeUnRef(callback); } hsStatusMessage("Removed\n"); gotten = 0; } return true; } plMovieMsg* mov = plMovieMsg::ConvertNoRef(msg); if( mov ) { return IHandleMovieMsg(mov); } plLinkEffectsTriggerMsg* linkFX = plLinkEffectsTriggerMsg::ConvertNoRef(msg); if (linkFX) { if (!linkFX->IsLeavingAge()) { #ifdef MSG_LOADING_BAR // Temporary stat gathering stuff #if 0//ndef PLASMA_EXTERNAL_RELEASE hsUNIXStream s; s.Open("Messages.txt", "at"); static bool firstLog = true; if (firstLog) { firstLog = false; s.WriteString("------------------------------------\n"); } char buf[256]; sprintf(buf, "%s %d\n", plAgeLoader::GetInstance()->GetCurrAgeFilename(), fNumPostLoadMsgs); s.WriteString(buf); s.Close(); #endif #endif } return true; } //============================================================================ // plNetCommAuthMsg //============================================================================ if (plNetCommAuthMsg * authCommMsg = plNetCommAuthMsg::ConvertNoRef(msg)) { IHandleNetCommAuthMsg(authCommMsg); return true; } //============================================================================ // plResPatcherMsg //============================================================================ if (plResPatcherMsg * resMsg = plResPatcherMsg::ConvertNoRef(msg)) { IHandlePatcherMsg(resMsg); return true; } return hsKeyedObject::MsgReceive(msg); } //============================================================================ bool plClient::IHandleMovieMsg(plMovieMsg* mov) { if (mov->GetFileName().IsEmpty()) return true; size_t i = fMovies.size(); if (!(mov->GetCmd() & plMovieMsg::kMake)) { for (i = 0; i < fMovies.size(); i++) { if (mov->GetFileName().CompareI(fMovies[i]->GetFileName().AsString()) == 0) break; } } if (i == fMovies.size()) { fMovies.push_back(new plMoviePlayer()); fMovies[i]->SetFileName(mov->GetFileName()); } if (mov->GetCmd() & plMovieMsg::kAddCallbacks) { int j; for (j = 0; j < mov->GetNumCallbacks(); j++) fMovies[i]->AddCallback(mov->GetCallback(j)); } if (mov->GetCmd() & plMovieMsg::kMove) fMovies[i]->SetPosition(mov->GetCenter()); if (mov->GetCmd() & plMovieMsg::kScale) fMovies[i]->SetScale(mov->GetScale()); if (mov->GetCmd() & plMovieMsg::kColorAndOpacity) fMovies[i]->SetColor(mov->GetColor()); if (mov->GetCmd() & plMovieMsg::kColor) { hsColorRGBA c = fMovies[i]->GetColor(); c.Set(mov->GetColor().r, mov->GetColor().g, mov->GetColor().b, c.a); fMovies[i]->SetColor(c); } if (mov->GetCmd() & plMovieMsg::kOpacity) { hsColorRGBA c = fMovies[i]->GetColor(); c.a = mov->GetColor().a; fMovies[i]->SetColor(c); } if (mov->GetCmd() & plMovieMsg::kFadeIn) { fMovies[i]->SetFadeFromColor(mov->GetFadeInColor()); fMovies[i]->SetFadeFromTime(mov->GetFadeInSecs()); } if (mov->GetCmd() & plMovieMsg::kFadeOut) { fMovies[i]->SetFadeToColor(mov->GetFadeOutColor()); fMovies[i]->SetFadeToTime(mov->GetFadeOutSecs()); } if (mov->GetCmd() & plMovieMsg::kVolume) fMovies[i]->SetVolume(mov->GetVolume()); if (mov->GetCmd() & plMovieMsg::kStart) fMovies[i]->Start(); if (mov->GetCmd() & plMovieMsg::kPause) fMovies[i]->Pause(true); if (mov->GetCmd() & plMovieMsg::kResume) fMovies[i]->Pause(false); if (mov->GetCmd() & plMovieMsg::kStop) fMovies[i]->Stop(); // If a movie has lost its filename, it means something went horribly wrong // with playing it and it has shutdown. Or we just stopped it. Either way, // we need to clear it out of our list. if (!fMovies[i]->GetFileName().IsValid()) { delete fMovies[i]; fMovies[i] = fMovies.back(); fMovies.pop_back(); } return true; } int plClient::IFindRoomByLoc(const plLocation& loc) { for (int i = 0; i < fRooms.Count(); i++) { if (fRooms[i].fNode->GetKey()->GetUoid().GetLocation() == loc) return i; } return -1; } bool plClient::IIsRoomLoading(const plLocation& loc) { for (int i = 0; i < fRoomsLoading.size(); i++) { if (fRoomsLoading[i] == loc) return true; } return false; } void plClient::SetHoldLoadRequests(bool hold) { fHoldLoadRequests = hold; if (!fHoldLoadRequests) ILoadNextRoom(); } #include "plResMgr/plPageInfo.h" void plClient::IQueueRoomLoad(const std::vector& locs, bool hold) { bool allSameAge = true; plString lastAgeName; uint32_t numRooms = 0; for (int i = 0; i < locs.size(); i++) { const plLocation& loc = locs[i]; const plPageInfo* info = plKeyFinder::Instance().GetLocationInfo(loc); bool alreadyLoaded = (IFindRoomByLoc(loc) != -1); bool isLoading = IIsRoomLoading(loc); if (!info || alreadyLoaded || isLoading) { #ifdef HS_DEBUGGING if (!info) hsStatusMessageF("Ignoring LoadRoom request for location 0x%x because we can't find the location", loc.GetSequenceNumber()); else if (alreadyLoaded) hsStatusMessageF("Ignoring LoadRoom request for %s-%s, since room is already loaded", info->GetAge().c_str(), info->GetPage().c_str()); else if (isLoading) hsStatusMessageF("Ignoring LoadRoom request for %s-%s, since room is currently loading", info->GetAge().c_str(), info->GetPage().c_str()); #endif continue; } fLoadRooms.push_back(new LoadRequest(loc, hold)); if (lastAgeName.IsNull() || info->GetAge() == lastAgeName) lastAgeName = info->GetAge(); else allSameAge = false; // hsStatusMessageF("+++ Loading room %s-%s", info.GetAge(), info.GetPage()); numRooms++; } if (numRooms == 0) return; fNumLoadingRooms += numRooms; } void plClient::ILoadNextRoom() { LoadRequest* req = nil; while (!fLoadRooms.empty()) { req = fLoadRooms.front(); fLoadRooms.pop_front(); bool alreadyLoaded = (IFindRoomByLoc(req->loc) != -1); bool isLoading = IIsRoomLoading(req->loc); if (alreadyLoaded || isLoading) { delete req; req = nil; fNumLoadingRooms--; } else break; } if (req) { plClientRefMsg* pRefMsg = new plClientRefMsg(GetKey(), plRefMsg::kOnCreate, -1, req->hold ? plClientRefMsg::kLoadRoomHold : plClientRefMsg::kLoadRoom); fRoomsLoading.push_back(req->loc); // flag the location as currently loading // PageInPage is not guaranteed to finish synchronously, just FYI plResManager *mgr = (plResManager *)hsgResMgr::ResMgr(); mgr->PageInRoom(req->loc, plSceneNode::Index(), pRefMsg); delete req; plClientMsg* nextRoom = new plClientMsg(plClientMsg::kLoadNextRoom); nextRoom->Send(GetKey()); } } void plClient::IUnloadRooms(const std::vector& locs) { for (int i = 0; i < locs.size(); i++) { const plLocation& loc = locs[i]; if (!loc.IsValid()) continue; plKey nodeKey = nil; // First, look in our room list. It *should* be there, which allows us to avoid a // potential nasty reload-find in the resMgr. int roomIdx = IFindRoomByLoc(loc); if (roomIdx != -1) nodeKey = fRooms[roomIdx].fNode->GetKey(); if (nodeKey == nil) { nodeKey = plKeyFinder::Instance().FindSceneNodeKey(loc); } if (nodeKey != nil) { plSceneNode* node = plSceneNode::ConvertNoRef(nodeKey->ObjectIsLoaded()); if (node) { #ifndef PLASMA_EXTERNAL_RELEASE plStatusLog::AddLineS("pageouts.log", "SceneNode for %s loaded; Removing node", node->GetKey()->GetUoid().GetObjectName().c_str()); #endif fPageMgr->RemoveNode(node); } else { #ifndef PLASMA_EXTERNAL_RELEASE plStatusLog::AddLineS("pageouts.log", "SceneNode for %s NOT loaded", nodeKey->GetUoid().GetObjectName().c_str()); #endif } GetKey()->Release(nodeKey); // release notify interest in scene node uint32_t recFlags = 0; if (roomIdx != -1) { recFlags = fRooms[roomIdx].fFlags; fRooms.Remove(roomIdx); } if (node == fCurrentNode) fCurrentNode = nil; #ifndef PLASMA_EXTERNAL_RELEASE plStatusLog::AddLineS("pageouts.log", "Telling netClientMgr about paging out %s", nodeKey->GetUoid().GetObjectName().c_str()); #endif if (plNetClientMgr::GetInstance() != nil) { // Don't care really about the message that just came in, we care whether it was really held or not if (!hsCheckBits(recFlags, plRoomRec::kHeld)) plAgeLoader::GetInstance()->StartPagingOutRoom(&nodeKey, 1); // Tell NetClientManager not to expect any pageout info on this guy, since he was held else plAgeLoader::GetInstance()->IgnorePagingOutRoom(&nodeKey, 1); } } else { #ifndef PLASMA_EXTERNAL_RELEASE // plStatusLog::AddLineS("pageouts.log", "++ Can't find node key for paging out room %s, loc 0x%x", // pMsg->GetRoomName() != nil ? pMsg->GetRoomName() : "", // loc.GetSequenceNumber()); #endif } } } void plClient::IRoomLoaded(plSceneNode* node, bool hold) { fCurrentNode = node; // make sure we don't already have this room in the list: bool bAppend = true; for (int i = 0; i < fRooms.Count(); i++) { if (fRooms[i].fNode == fCurrentNode) { bAppend = false; break; } } if (bAppend) { if (hold) { fRooms.Append(plRoomRec(fCurrentNode, plRoomRec::kHeld)); } else { fRooms.Append(plRoomRec(fCurrentNode, 0)); fPageMgr->AddNode(fCurrentNode); } } fNumLoadingRooms--; // Shut down the progress bar if that was the last room if (fProgressBar != nil && fNumLoadingRooms <= 0) { #ifdef MSG_LOADING_BAR if (!hold) { struct AgeMsgCount { const char* AgeName; int NumMsgs; }; static AgeMsgCount ageMsgCount[] = { { "BahroCave", 2600 }, { "BaronCityOffice", 670 }, { "city", 269000 }, { "Cleft", 11000 }, { "Garden", 19700 }, { "Garrison", 28800 }, { "Gira", 3300 }, { "Kadish", 19700 }, { "Neighborhood", 19900 }, { "Nexus", 1400 }, { "Personal", 20300 }, { "Teledahn", 48000 } }; char name[256]; strcpy(name, &fProgressBar->GetTitle().c_str()[strlen("Loading ")]); name[strlen(name)-3] = '\0'; // Get the precalculated value for how many messages will be // sent out before the screen actually fades in int numMsgs = 0; for (int i = 0; i < sizeof(ageMsgCount)/sizeof(AgeMsgCount); i++) { if (strcmp(ageMsgCount[i].AgeName, name) == 0) { numMsgs = ageMsgCount[i].NumMsgs; break; } } fNumPostLoadMsgs = 0; // The last 10% of the age loading bar is for messages, so adjust // our progress bar increment to fill the bar fully when all // messages have been sent float max = fProgressBar->GetMax(); float amtLeft = max - (max * 0.9f); fPostLoadMsgInc = (numMsgs != 0) ? amtLeft / numMsgs : 0; #ifndef PLASMA_EXTERNAL_RELEASE if (plDispatchLogBase::IsLogging()) plDispatchLogBase::GetInstance()->LogStatusBarChange(fProgressBar->GetTitle().c_str(), "displaying messages"); #endif // PLASMA_EXTERNAL_RELEASE #endif } } hsRefCnt_SafeUnRef(fCurrentNode); plKey pRmKey = fCurrentNode->GetKey(); plAgeLoader::GetInstance()->FinishedPagingInRoom(&pRmKey, 1); // *** this used to call "ActivateNode" (in physics) which wasn't implemented. // *** we should make this "turn on" physics for the selected node // *** depending on what guarantees we can make about the load state -- anything useful? // now tell all those who are interested that a room was loaded if (!hold) { plRoomLoadNotifyMsg* loadmsg = new plRoomLoadNotifyMsg; loadmsg->SetRoom(pRmKey); loadmsg->SetWhatHappen(plRoomLoadNotifyMsg::kLoaded); plgDispatch::MsgSend(loadmsg); } else hsStatusMessageF("Done loading hold room %s, t=%f\n", pRmKey->GetName().c_str(), hsTimer::GetSeconds()); plLocation loc = pRmKey->GetUoid().GetLocation(); for (int i = 0; i < fRoomsLoading.size(); i++) { if (fRoomsLoading[i] == loc) { fRoomsLoading.erase(fRoomsLoading.begin() + i); break; } } if (!fNumLoadingRooms) IStopProgress(); } //============================================================================ void plClient::IRoomUnloaded(plSceneNode* node) { #ifndef PLASMA_EXTERNAL_RELEASE plStatusLog::AddLineS("pageouts.log", ".. refMsg is onDestroy"); #endif fCurrentNode = node; hsRefCnt_SafeUnRef(fCurrentNode); plKey pRmKey = fCurrentNode->GetKey(); if (plAgeLoader::GetInstance()) plAgeLoader::GetInstance()->FinishedPagingOutRoom(&pRmKey, 1); // tell all those who are interested that a room was unloaded plRoomLoadNotifyMsg* loadmsg = new plRoomLoadNotifyMsg; loadmsg->SetRoom(pRmKey); loadmsg->SetWhatHappen(plRoomLoadNotifyMsg::kUnloaded); plgDispatch::MsgSend(loadmsg); } void plClient::IReadKeyedObjCallback(plKey key) { fInstance->IIncProgress(1, key->GetName().c_str()); } //============================================================================ void plClient::IProgressMgrCallbackProc(plOperationProgress * progress) { if(!fInstance) return; // Increments the taskbar progress [Windows 7+] #ifdef HS_BUILD_FOR_WIN32 if (gTaskbarList && fInstance->GetWindowHandle()) { static TBPFLAG lastState = TBPF_NOPROGRESS; TBPFLAG myState; // So, calling making these kernel calls is kind of SLOW. So, let's // hide that behind a userland check--this helps linking go faster! if (progress->IsAborting()) myState = TBPF_ERROR; else if (progress->IsLastUpdate()) myState = TBPF_NOPROGRESS; else if (progress->GetMax() == 0.f) myState = TBPF_INDETERMINATE; else myState = TBPF_NORMAL; if (myState == TBPF_NORMAL) // This sets us to TBPF_NORMAL gTaskbarList->SetProgressValue(fInstance->GetWindowHandle(), (ULONGLONG)progress->GetProgress(), (ULONGLONG)progress->GetMax()); else if (myState != lastState) gTaskbarList->SetProgressState(fInstance->GetWindowHandle(), myState); lastState = myState; } #endif fInstance->fMessagePumpProc(); // HACK HACK HACK HACK! // Yes, this is the ORIGINAL, EVIL famerate limit from plClient::IDraw (except I bumped it to 60fps) // As it so happens, this callback is happening in the main resource loading thread // Without this NASTY ASS HACK, we draw after loading every KO, which starves the loader. // At some point, a better solution should be found... Like running the loader in a separate thread. static float lastDrawTime; static const float kMaxFrameRate = 1.f/60.f; float currTime = (float) hsTimer::GetSeconds(); if ((currTime - lastDrawTime) > kMaxFrameRate) { fInstance->IDraw(); lastDrawTime = currTime; } } //============================================================================ void plClient::IIncProgress (float byHowMuch, const char * text) { if (fProgressBar) { #ifndef PLASMA_EXTERNAL_RELEASE fProgressBar->SetStatusText( text ); #endif fProgressBar->Increment( byHowMuch ); } } //============================================================================ void plClient::IStartProgress( const char *title, float len ) { if (fProgressBar) { fProgressBar->SetLength(fProgressBar->GetMax()+len); } else { fProgressBar = plProgressMgr::GetInstance()->RegisterOperation(len, title, plProgressMgr::kNone, false, true); #ifndef PLASMA_EXTERNAL_RELEASE if (plDispatchLogBase::IsLogging()) plDispatchLogBase::GetInstance()->LogStatusBarChange(fProgressBar->GetTitle().c_str(), "starting"); #endif // PLASMA_EXTERNAL_RELEASE ((plResManager*)hsgResMgr::ResMgr())->SetProgressBarProc(IReadKeyedObjCallback); plDispatch::SetMsgRecieveCallback(IDispatchMsgReceiveCallback); fLastProgressUpdate = 0.f; } // Workaround for NVidia driver bug, showing up as BCO not there first time. // See Mantis bug 0014590. if( fPipeline ) fPipeline->LoadResources(); } //============================================================================ void plClient::IStopProgress( void ) { if (fProgressBar) { #ifndef PLASMA_EXTERNAL_RELEASE if (plDispatchLogBase::IsLogging()) plDispatchLogBase::GetInstance()->LogStatusBarChange(fProgressBar->GetTitle().c_str(), "done"); #endif // PLASMA_EXTERNAL_RELEASE plDispatch::SetMsgRecieveCallback(nil); ((plResManager*)hsgResMgr::ResMgr())->SetProgressBarProc(IReadKeyedObjCallback); delete fProgressBar; fProgressBar = nil; plPipeResReq::Request(); fFlags.SetBit(kFlagGlobalDataLoaded); if (fFlags.IsBitSet(kFlagAsyncInitComplete)) ICompleteInit(); } } /***************************************************************************** * * * ***/ extern bool gDataServerLocal; #include "plQuality.h" #include "plLoadMask.h" //============================================================================ bool plClient::StartInit() { hsStatusMessage("Init client\n"); fFlags.SetBit( kFlagIniting ); pfLocalizationMgr::Initialize("dat"); plQuality::SetQuality(fQuality); if( (GetClampCap() >= 0) && (GetClampCap() < plQuality::GetCapability()) ) plQuality::SetCapability(GetClampCap()); /// 2.16.2001 mcn - Moved console engine init to constructor, /// so we could use console commands even before the pipeline init plDTProgressMgr::DeclareThyself(); // Set our callback for the progress manager so everybody else can use it fLastProgressUpdate = 0.f; plProgressMgr::GetInstance()->SetCallbackProc( IProgressMgrCallbackProc ); // Check the registry, which deletes data files that are either corrupt or // have old version numbers. If the file still exists on the file server // then it will be patched on-the-fly as needed (unless you're running with // local data of course). ((plResManager *)hsgResMgr::ResMgr())->VerifyPages(); // the dx8 audio system MUST be initialized // before the database is loaded SetForegroundWindow(fWindowHndl); plgAudioSys::Init(); gAudio = plgAudioSys::Sys(); RegisterAs( kClient_KEY ); InitDLLs(); plGlobalVisMgr::Init(); fPageMgr = new plPageTreeMgr; plVisLOSMgr::Init(fPipeline, fPageMgr); // init globals plAvatarMgr::GetInstance(); plRelevanceMgr::Init(); gDisp = plgDispatch::Dispatch(); gTimerMgr = plgTimerCallbackMgr::Mgr(); // // initialize input system // InitInputs(); /// Init the console object /// Note: this can be done last because the console engine was inited first, and /// everything in code that works with the console does so through the console engine fConsole = new pfConsole(); pfConsole::SetPipeline( fPipeline ); fConsole->RegisterAs( kConsoleObject_KEY ); // fixedKey from plFixedKey.h fConsole->Init( fConsoleEngine ); /// Init the font cache fFontCache = new plFontCache(); /// Init the transition manager fTransitionMgr = new plTransitionMgr(); fTransitionMgr->RegisterAs( kTransitionMgr_KEY ); // fixedKey from plFixedKey.h fTransitionMgr->Init(); // Init the Age Linking effects manager fLinkEffectsMgr = new plLinkEffectsMgr(); fLinkEffectsMgr->RegisterAs( kLinkEffectsMgr_KEY ); // fixedKey from plFixedKey.h fLinkEffectsMgr->Init(); /// Init the in-game GUI manager fGameGUIMgr = new pfGameGUIMgr(); fGameGUIMgr->RegisterAs( kGameGUIMgr_KEY ); fGameGUIMgr->Init(); plgAudioSys::Activate(true); // // Init Net before loading things // plgDispatch::Dispatch()->RegisterForExactType(plNetCommAuthMsg::Index(), GetKey()); plNetClientMgr::GetInstance()->Init(); plAgeLoader::GetInstance()->Init(); plCmdIfaceModMsg* pModMsg2 = new plCmdIfaceModMsg; pModMsg2->SetBCastFlag(plMessage::kBCastByExactType); pModMsg2->SetSender(fConsole->GetKey()); pModMsg2->SetCmd(plCmdIfaceModMsg::kAdd); plgDispatch::MsgSend(pModMsg2); // create new virtual camera fNewCamera = new plVirtualCam1; fNewCamera->RegisterAs( kVirtualCamera1_KEY ); fNewCamera->Init(); fNewCamera->SetPipeline( GetPipeline() ); plVirtualCam1::Refresh(); pfGameGUIMgr::GetInstance()->SetAspectRatio( (float)fPipeline->Width() / (float)fPipeline->Height() ); plMouseDevice::Instance()->SetDisplayResolution((float)fPipeline->Width(), (float)fPipeline->Height()); plInputManager::SetRecenterMouse(false); IPlayIntroMovie("avi/CyanWorlds.webm", 0.f, 0.f, 0.f, 1.f, 1.f, 0.75); if(GetDone()) return false; plgDispatch::Dispatch()->RegisterForExactType(plMovieMsg::Index(), GetKey()); // create the listener for the audio system: plListener* pLMod = new plListener; pLMod->RegisterAs(kListenerMod_KEY ); plgDispatch::Dispatch()->RegisterForExactType(plEvalMsg::Index(), pLMod->GetKey()); plgDispatch::Dispatch()->RegisterForExactType(plAudioSysMsg::Index(), pLMod->GetKey()); plSynchedObject::PushSynchDisabled(false); // enable dirty tracking if (StrCmp(NetCommGetStartupAge()->ageDatasetName, "StartUp") == 0) { plNetCommAuthMsg * msg = new plNetCommAuthMsg(); msg->result = kNetSuccess; msg->param = nil; msg->Send(); } // 2nd half of plClient initialization occurs after // all network events have completed. Async events: // // 1) Download secure files // // Continue plClient init via IOnAsyncInitComplete(). return true; } //============================================================================ void plClient::IPatchGlobalAgeFiles( void ) { plgDispatch::Dispatch()->RegisterForExactType(plResPatcherMsg::Index(), GetKey()); plResPatcher* patcher = plResPatcher::GetInstance(); patcher->Update(plManifest::EssentialGameManifests()); } void plClient::InitDLLs() { hsStatusMessage("Init dlls client\n"); typedef void (*PInitGlobalsFunc) (hsResMgr *, plFactory *, plTimerCallbackManager *, plTimerShare*, plNetClientApp*); std::vector dlls = plFileSystem::ListDir("ModDLL", "*.dll"); for (auto iter = dlls.begin(); iter != dlls.end(); ++iter) { HMODULE hMod = LoadLibraryW(iter->AsString().ToWchar()); if (hMod) { PInitGlobalsFunc initGlobals = (PInitGlobalsFunc)GetProcAddress(hMod, "InitGlobals"); (*initGlobals)(hsgResMgr::ResMgr(), plFactory::GetTheFactory(), plgTimerCallbackMgr::Mgr(), hsTimer::GetTheTimer(), plNetClientApp::GetInstance()); fLoadedDLLs.Append(hMod); } } } void plClient::ShutdownDLLs() { int j; for( j = 0; j < fLoadedDLLs.GetCount(); j++ ) { BOOL ret = FreeLibrary(fLoadedDLLs[j]); if( !ret ) hsStatusMessage("Failed to free lib\n"); } fLoadedDLLs.Reset(); } bool plClient::MainLoop() { #if defined(HAVE_CYPYTHONIDE) && !defined(PLASMA_EXTERNAL_RELEASE) if (PythonInterface::UsePythonDebugger()) { PythonInterface::PythonDebugger()->Update(); if (PythonInterface::PythonDebugger()->IsConnected()) { bPythonDebugConnected = true; if (PythonInterface::DebuggerRequestedExit() && PythonInterface::PythonDebugger()->ExitOnStop()) SetDone(true); // debugger requested that we stop running, so exit nicely } else bPythonDebugConnected = false; } #endif #ifdef PLASMA_EXTERNAL_RELEASE if (DebugIsDebuggerPresent()) { NetCliAuthLogClientDebuggerConnect(); SetDone(true); } #endif if(plClient::fDelayMS) Sleep(5); // Reset our stats plProfileManager::Instance().BeginFrame(); if (IUpdate()) return true; if (IDraw()) return true; plProfileManagerFull::Instance().EndFrame(); plProfileManager::Instance().EndFrame(); // Draw the stats plProfileManagerFull::Instance().Update(); return false; } #include "plProfile.h" plProfile_Extern(DrawTime); plProfile_Extern(UpdateTime); plProfile_CreateTimer("ResMgr", "Update", ResMgr); plProfile_CreateTimer("DispatchQueue", "Update", DispatchQueue); plProfile_CreateTimer("RenderSetup", "Update", RenderMsg); plProfile_CreateTimer("Simulation", "Update", Simulation); plProfile_CreateTimer("NetTime", "Update", UpdateNetTime); plProfile_Extern(TimeMsg); plProfile_Extern(EvalMsg); plProfile_Extern(TransformMsg); plProfile_Extern(CameraMsg); plProfile_Extern(AnimatingPhysicals); plProfile_Extern(StoppedAnimPhysicals); plProfile_CreateTimer("BeginRender", "Render", BeginRender); plProfile_CreateTimer("ClearRender", "Render", ClearRender); plProfile_CreateTimer("PreRender", "Render", PreRender); plProfile_CreateTimer("MainRender", "Render", MainRender); plProfile_CreateTimer("PostRender", "Render", PostRender); plProfile_CreateTimer("Movies", "Render", Movies); plProfile_CreateTimer("Console", "Render", Console); plProfile_CreateTimer("StatusLog", "Render", StatusLog); plProfile_CreateTimer("ProgressMgr", "Render", ProgressMgr); plProfile_CreateTimer("ScreenElem", "Render", ScreenElem); plProfile_CreateTimer("EndRender", "Render", EndRender); bool plClient::IUpdate() { plProfile_BeginTiming(UpdateTime); // reset timer on first frame if realtime and not clamping, to avoid initial large delta if (hsTimer::GetSysSeconds()==0 && hsTimer::IsRealTime() && hsTimer::GetTimeClamp()==0) hsTimer::SetRealTime(true); plProfile_BeginTiming(DispatchQueue); plgDispatch::Dispatch()->MsgQueueProcess(); plProfile_EndTiming(DispatchQueue); const char *inputUpdate = "Update"; if (fInputManager) // Is this used anymore? Seems to always be nil. fInputManager->Update(); hsTimer::IncSysSeconds(); plClientUnifiedTime::SetSysTime(); // keep a unified time, based on sysSeconds // Time may have been clamped in IncSysSeconds, depending on hsTimer's current mode. double currTime = hsTimer::GetSysSeconds(); float delSecs = hsTimer::GetDelSysSeconds(); // do not change this ordering plProfile_BeginTiming(UpdateNetTime); plNetClientMgr::GetInstance()->Update(currTime); plProfile_EndTiming(UpdateNetTime); // update python //plCaptureRender::Update(fPipeline); plCaptureRender::Update(); cyMisc::Update(currTime); // This TimeMsg doesn't really do much, except somehow it flushes the dispatch // after the NetClientMgr updates, delivering any SelfDestruct messages in the // queue. This is important to prevent objects that are about to go away from // starting trouble during their update. So to get rid of this message, some // other way of flushing the dispatch after NegClientMgr's update is needed. mf plProfile_BeginTiming(TimeMsg); plTimeMsg* msg = new plTimeMsg(nil, nil, nil, nil); plgDispatch::MsgSend(msg); plProfile_EndTiming(TimeMsg); plProfile_BeginTiming(EvalMsg); plEvalMsg* eval = new plEvalMsg(nil, nil, nil, nil); plgDispatch::MsgSend(eval); plProfile_EndTiming(EvalMsg); char *xFormLap1 = "Main"; plProfile_BeginLap(TransformMsg, xFormLap1); plTransformMsg* xform = new plTransformMsg(nil, nil, nil, nil); plgDispatch::MsgSend(xform); plProfile_EndLap(TransformMsg, xFormLap1); plCoordinateInterface::SetTransformPhase(plCoordinateInterface::kTransformPhaseDelayed); if (fAnimDebugList) fAnimDebugList->ShowReport(); plProfile_BeginTiming(Simulation); plSimulationMgr::GetInstance()->Advance(delSecs); plProfile_EndTiming(Simulation); // At this point, we just register for a plDelayedTransformMsg when dirtied. if (!plCoordinateInterface::GetDelayedTransformsEnabled()) { char *xFormLap2 = "Simulation"; plProfile_BeginLap(TransformMsg, xFormLap2); xform = new plTransformMsg(nil, nil, nil, nil); plgDispatch::MsgSend(xform); plProfile_EndLap(TransformMsg, xFormLap2); } else { char *xFormLap3 = "Delayed"; plProfile_BeginLap(TransformMsg, xFormLap3); xform = new plDelayedTransformMsg(nil, nil, nil, nil); plgDispatch::MsgSend(xform); plProfile_EndLap(TransformMsg, xFormLap3); } plCoordinateInterface::SetTransformPhase(plCoordinateInterface::kTransformPhaseNormal); plProfile_BeginTiming(CameraMsg); plCameraMsg* cameras = new plCameraMsg; cameras->SetCmd(plCameraMsg::kUpdateCameras); cameras->SetBCastFlag(plMessage::kBCastByExactType); plgDispatch::MsgSend(cameras); plProfile_EndTiming(CameraMsg); return false; } bool plClient::IDrawProgress() { // Reset our stats plProfileManager::Instance().BeginFrame(); plProfile_BeginTiming(DrawTime); if( fPipeline->BeginRender() ) { return IFlushRenderRequests(); } // Override the clear color to black. fPipeline->ClearRenderTarget(&hsColorRGBA().Set(0.f, 0.f, 0.f, 1.f)); #ifndef PLASMA_EXTERNAL_RELEASE fConsole->Draw( fPipeline ); #endif plStatusLogMgr::GetInstance().Draw(); plProgressMgr::GetInstance()->Draw( fPipeline ); fPipeline->RenderScreenElements(); fPipeline->EndRender(); plProfile_EndTiming(DrawTime); plProfileManager::Instance().EndFrame(); return false; } bool plClient::IDraw() { // If we're shutting down, don't attempt to draw. Doing so // tends to cause a device reload each frame. if (fDone) return true; if (plProgressMgr::GetInstance()->IsActive()) return IDrawProgress(); plProfile_Extern(VisEval); plProfile_BeginTiming(VisEval); plGlobalVisMgr::Instance()->Eval(fPipeline->GetViewPositionWorld()); plProfile_EndTiming(VisEval); plProfile_BeginTiming(RenderMsg); plRenderMsg* rendMsg = new plRenderMsg(fPipeline); plgDispatch::MsgSend(rendMsg); plProfile_EndTiming(RenderMsg); plPreResourceMsg* preMsg = new plPreResourceMsg(fPipeline); plgDispatch::MsgSend(preMsg); // This might not be the ideal place for this, but it // needs to be AFTER the plRenderMsg is sent, and // BEFORE BeginRender. (plRenderMsg causes construction of // Dynamic objects (e.g. RT's), BeginRender uses them (e.g. shadows). if( plPipeResReq::Check() || fPipeline->CheckResources() ) { fPipeline->LoadResources(); } plProfile_EndTiming(UpdateTime); plProfile_BeginTiming(DrawTime); plProfile_BeginTiming(BeginRender); if( fPipeline->BeginRender() ) { plProfile_EndTiming(BeginRender); return IFlushRenderRequests(); } plProfile_EndTiming(BeginRender); plProfile_BeginTiming(ClearRender); fPipeline->ClearRenderTarget(); plProfile_EndTiming(ClearRender); plProfile_BeginTiming(PreRender); if( !fFlags.IsBitSet( kFlagDBGDisableRRequests ) ) IProcessPreRenderRequests(); plProfile_EndTiming(PreRender); plProfile_BeginTiming(MainRender); if( !fFlags.IsBitSet( kFlagDBGDisableRender ) ) fPageMgr->Render(fPipeline); plProfile_EndTiming(MainRender); plProfile_BeginTiming(PostRender); if( !fFlags.IsBitSet( kFlagDBGDisableRRequests ) ) IProcessPostRenderRequests(); plProfile_EndTiming(PostRender); plProfile_BeginTiming(Movies); IServiceMovies(); plProfile_EndTiming(Movies); #ifndef PLASMA_EXTERNAL_RELEASE plProfile_BeginTiming(Console); fConsole->Draw( fPipeline ); plProfile_EndTiming(Console); #endif plProfile_BeginTiming(StatusLog); plStatusLogMgr::GetInstance().Draw(); plProfile_EndTiming(StatusLog); plProfile_BeginTiming(ProgressMgr); plProgressMgr::GetInstance()->Draw( fPipeline ); plProfile_EndTiming(ProgressMgr); fLastProgressUpdate = hsTimer::GetSeconds(); plProfile_BeginTiming(ScreenElem); fPipeline->RenderScreenElements(); plProfile_EndTiming(ScreenElem); plProfile_BeginTiming(EndRender); fPipeline->EndRender(); plProfile_EndTiming(EndRender); plProfile_EndTiming(DrawTime); return false; } void plClient::IServiceMovies() { for (size_t i = 0; i < fMovies.size(); i++) { if (!fMovies[i]->NextFrame()) { delete fMovies[i]; fMovies[i] = fMovies.back(); fMovies.pop_back(); i--; } } } void plClient::IKillMovies() { for (size_t i = 0; i < fMovies.size(); i++) delete fMovies[i]; fMovies.clear(); } bool plClient::IPlayIntroMovie(const char* movieName, float endDelay, float posX, float posY, float scaleX, float scaleY, float volume /* = 1.0 */) { SetQuitIntro(false); plMoviePlayer player; player.SetPosition(posX, posY); player.SetScale(scaleX, scaleY); player.SetFileName(movieName); player.SetFadeToTime(endDelay); player.SetFadeToColor(hsColorRGBA().Set(0, 0, 0, 1.f)); player.SetVolume(volume); bool firstTry = true; // flag to make sure that we don't quit before we even start if (player.Start()) { while (true) { if (fInstance) fInstance->fMessagePumpProc(); if (GetDone()) return true; if (firstTry) { firstTry = false; SetQuitIntro(false); } else { if (GetQuitIntro()) return true; } bool done = false; if (!fPipeline->BeginRender()) { fPipeline->ClearRenderTarget(); done = !player.NextFrame(); fPipeline->RenderScreenElements(); fPipeline->EndRender(); } if (done) return true; } return true; } return false; } bool plClient::IFlushRenderRequests() { // For those requesting ack's, we could go through and send them // mail telling them their request was ill-timed. But hopefully, // the lack of an acknowledgement will serve as notice. int i; for( i = 0; i < fPreRenderRequests.GetCount(); i++ ) hsRefCnt_SafeUnRef(fPreRenderRequests[i]); fPreRenderRequests.Reset(); for( i = 0; i < fPostRenderRequests.GetCount(); i++ ) hsRefCnt_SafeUnRef(fPostRenderRequests[i]); fPostRenderRequests.Reset(); return false; } void plClient::IProcessRenderRequests(hsTArray& reqs) { int i; for( i = 0; i < reqs.GetCount(); i++ ) { reqs[i]->Render(fPipeline, fPageMgr); hsRefCnt_SafeUnRef(reqs[i]); } reqs.SetCount(0); } void plClient::IProcessPreRenderRequests() { IProcessRenderRequests(fPreRenderRequests); } void plClient::IProcessPostRenderRequests() { IProcessRenderRequests(fPostRenderRequests); } void plClient::IAddRenderRequest(plRenderRequest* req) { if( req->GetPriority() < 0 ) { int i; for( i = 0; i < fPreRenderRequests.GetCount(); i++ ) { if( req->GetPriority() < fPreRenderRequests[i]->GetPriority() ) break; } fPreRenderRequests.Insert(i, req); hsRefCnt_SafeRef(req); } else { int i; for( i = 0; i < fPostRenderRequests.GetCount(); i++ ) { if( req->GetPriority() < fPostRenderRequests[i]->GetPriority() ) break; } fPostRenderRequests.Insert(i, req); hsRefCnt_SafeRef(req); } } void plClient::ResetDisplayDevice(int Width, int Height, int ColorDepth, bool Windowed, int NumAASamples, int MaxAnisotropicSamples, bool VSync) { if(!fPipeline) return; WindowActivate(false); fPipeline->ResetDisplayDevice(Width, Height, ColorDepth, Windowed, NumAASamples, MaxAnisotropicSamples, VSync); ResizeDisplayDevice(Width, Height, Windowed); WindowActivate(true); } void plClient::ResizeDisplayDevice(int Width, int Height, bool Windowed) { if (plMouseDevice::Instance()) plMouseDevice::Instance()->SetDisplayResolution((float)Width, (float)Height); float aspectratio = (float)Width / (float)Height; if (pfGameGUIMgr::GetInstance()) pfGameGUIMgr::GetInstance()->SetAspectRatio( aspectratio ); uint32_t winStyle, winExStyle; if( Windowed ) { // WS_VISIBLE appears necessary to avoid leaving behind framebuffer junk when going from windowed to a smaller window winStyle = WS_OVERLAPPED | WS_CAPTION | WS_SYSMENU | WS_MINIMIZEBOX | WS_VISIBLE; winExStyle = WS_EX_APPWINDOW | WS_EX_WINDOWEDGE; } else { winStyle = WS_POPUP; winExStyle = WS_EX_APPWINDOW; } SetWindowLong(fWindowHndl, GWL_STYLE, winStyle); SetWindowLong(fWindowHndl, GWL_EXSTYLE, winExStyle); uint32_t flags = SWP_NOCOPYBITS | SWP_SHOWWINDOW | SWP_FRAMECHANGED; uint32_t OutsideWidth, OutsideHeight; HWND insertAfter; if( Windowed ) { RECT winRect = { 0, 0, Width, Height }; AdjustWindowRectEx(&winRect, winStyle, false, winExStyle); OutsideWidth = winRect.right - winRect.left; OutsideHeight = winRect.bottom - winRect.top; insertAfter = HWND_NOTOPMOST; } else { OutsideWidth = Width; OutsideHeight = Height; insertAfter = HWND_TOP; } SetWindowPos( fWindowHndl, insertAfter, 0, 0, OutsideWidth, OutsideHeight, flags ); } void WriteBool(hsStream *stream, char *name, bool on ) { char command[256]; sprintf(command, "%s %s\r\n", name, on ? "true" : "false"); stream->WriteString(command); } void WriteInt(hsStream *stream, char *name, int val ) { char command[256]; sprintf(command, "%s %d\r\n", name, val); stream->WriteString(command); } void WriteString(hsStream *stream, const char *name, const char *val) { char command[256]; sprintf(command, "%s %s\r\n", name, val); stream->WriteString(command); } // Detect audio/video settings and save them to their respective ini file, if ini files don't exist void plClient::IDetectAudioVideoSettings() { // Setup default pipeline settings bool devmode = true; hsG3DDeviceModeRecord dmr; hsG3DDeviceSelector devSel; devSel.Enumerate(fWindowHndl); devSel.RemoveUnusableDevModes(true); if (!devSel.GetDefault(&dmr)) devmode = false; hsG3DDeviceRecord *rec = (hsG3DDeviceRecord *)dmr.GetDevice(); const hsG3DDeviceMode *mode = dmr.GetMode(); bool pixelshaders = rec->GetCap(hsG3DDeviceSelector::kCapsPixelShader); plPipeline::fDefaultPipeParams.ColorDepth = hsG3DDeviceSelector::kDefaultDepth; #if defined(HS_DEBUGGING) || defined(DEBUG) plPipeline::fDefaultPipeParams.Windowed = true; #else plPipeline::fDefaultPipeParams.Windowed = false; #endif // Use current desktop resolution for fullscreen mode if(!plPipeline::fDefaultPipeParams.Windowed) { plPipeline::fDefaultPipeParams.Width = GetSystemMetrics(SM_CXSCREEN); plPipeline::fDefaultPipeParams.Height = GetSystemMetrics(SM_CYSCREEN); } else { plPipeline::fDefaultPipeParams.Width = hsG3DDeviceSelector::kDefaultWidth; plPipeline::fDefaultPipeParams.Height = hsG3DDeviceSelector::kDefaultHeight; } plPipeline::fDefaultPipeParams.Shadows = 1; // enable planar reflections if pixelshaders are available plPipeline::fDefaultPipeParams.PlanarReflections = 1; // enable 2x antialiasing and anisotropic to 2 samples if pixelshader version is greater that 2.0 plPipeline::fDefaultPipeParams.AntiAliasingAmount = rec->GetMaxAnisotropicSamples() ? 2 : 0; plPipeline::fDefaultPipeParams.AnisotropicLevel = mode->GetNumFSAATypes() ? 2 : 0; plPipeline::fDefaultPipeParams.TextureQuality = pixelshaders ? 2 : 1; plPipeline::fDefaultPipeParams.VideoQuality = pixelshaders ? 2 : 1; plPipeline::fDefaultPipeParams.VSync = false; int val = 0; hsStream *stream = nil; hsUNIXStream s; plFileName audioIniFile = plFileName::Join(plFileSystem::GetInitPath(), "audio.ini"); plFileName graphicsIniFile = plFileName::Join(plFileSystem::GetInitPath(), "graphics.ini"); #ifndef PLASMA_EXTERNAL_RELEASE // internal builds can use the local dir if (plFileInfo("init/audio.ini").Exists()) audioIniFile = "init/audio.ini"; if (plFileInfo("init/graphics.ini").Exists()) graphicsIniFile = "init/graphics.ini"; #endif //check to see if audio.ini exists if (s.Open(audioIniFile)) { s.Close(); } else { stream = plEncryptedStream::OpenEncryptedFileWrite(audioIniFile); plAudioCaps caps = plAudioCapsDetector::Detect(false, true); char deviceName[256]; sprintf(deviceName, "\"%s\"", DEFAULT_AUDIO_DEVICE_NAME); WriteBool(stream, "Audio.Initialize", caps.IsAvailable()); WriteBool(stream, "Audio.UseEAX", false); WriteInt(stream, "Audio.SetPriorityCutoff", 6); WriteInt(stream, "Audio.MuteAll", false); WriteInt(stream, "Audio.SetChannelVolume SoundFX", 1); WriteInt(stream, "Audio.SetChannelVolume BgndMusic", 1); WriteInt(stream, "Audio.SetChannelVolume Ambience", 1); WriteInt(stream, "Audio.SetChannelVolume NPCVoice", 1); WriteInt(stream, "Audio.EnableVoiceRecording", 1); WriteString(stream, "Audio.SetDeviceName", deviceName ); stream->Close(); delete stream; stream = nil; } // check to see if graphics.ini exists if (s.Open(graphicsIniFile)) { s.Close(); } else { IWriteDefaultGraphicsSettings(graphicsIniFile); } } void plClient::IWriteDefaultGraphicsSettings(const plFileName& destFile) { hsStream *stream = plEncryptedStream::OpenEncryptedFileWrite(destFile); WriteInt(stream, "Graphics.Width", plPipeline::fDefaultPipeParams.Width); WriteInt(stream, "Graphics.Height", plPipeline::fDefaultPipeParams.Height); WriteInt(stream, "Graphics.ColorDepth", plPipeline::fDefaultPipeParams.ColorDepth); WriteBool(stream, "Graphics.Windowed", plPipeline::fDefaultPipeParams.Windowed); WriteInt(stream, "Graphics.AntiAliasAmount", plPipeline::fDefaultPipeParams.AntiAliasingAmount); WriteInt(stream, "Graphics.AnisotropicLevel", plPipeline::fDefaultPipeParams.AnisotropicLevel ); WriteInt(stream, "Graphics.TextureQuality", plPipeline::fDefaultPipeParams.TextureQuality); WriteInt(stream, "Quality.Level", plPipeline::fDefaultPipeParams.VideoQuality); WriteInt(stream, "Graphics.Shadow.Enable", plPipeline::fDefaultPipeParams.Shadows); WriteInt(stream, "Graphics.EnablePlanarReflections", plPipeline::fDefaultPipeParams.PlanarReflections); WriteBool(stream, "Graphics.EnableVSync", plPipeline::fDefaultPipeParams.VSync); stream->Close(); delete stream; stream = nil; } void plClient::WindowActivate(bool active) { if (GetDone()) return; if( !fWindowActive != !active ) { if( fInputManager != nil ) fInputManager->Activate( active ); plArmatureMod::WindowActivate( active ); } fWindowActive = active; } void plClient::FlashWindow() { #ifdef HS_BUILD_FOR_WIN32 FLASHWINFO info; info.cbSize = sizeof(info); info.dwFlags = FLASHW_TIMERNOFG | FLASHW_ALL; info.hwnd = fWindowHndl; info.uCount = -1; FlashWindowEx(&info); #endif } //============================================================================ void plClient::IOnAsyncInitComplete () { // Init State Desc Language (files should now be downloaded and in place) plSDLMgr::GetInstance()->SetNetApp(plNetClientMgr::GetInstance()); plSDLMgr::GetInstance()->Init( plSDL::kDisallowTimeStamping ); PythonInterface::initPython(); // set the pipeline for the python cyMisc module so that it can do a screen capture cyMisc::SetPipeline( fPipeline ); // Load our custom fonts from our current dat directory fFontCache->LoadCustomFonts("dat"); plWinFontCache::GetInstance().LoadCustomFonts("dat"); // We'd like to do a SetHoldLoadRequests here, but the GUI stuff doesn't draw right // if you try to delay the loading for it. To work around that, we allocate a // global loading bar in advance and set it to a big enough range that when the GUI's // are done loading about the right amount of it is filled. fNumLoadingRooms++; IStartProgress("Loading Global...", 0); /// Init the KI pfGameGUIMgr *mgr = pfGameGUIMgr::GetInstance(); mgr->LoadDialog( "KIBlackBar" ); // load the blackbar which will bootstrap in the rest of the KI dialogs // Init the journal book API pfJournalBook::SingletonInit(); SetHoldLoadRequests(true); fProgressBar->SetLength(fProgressBar->GetProgress()); plClothingMgr::Init(); // Load in any clothing data ((plResManager*)hsgResMgr::ResMgr())->PageInAge("GlobalClothing"); pfMarkerMgr::Instance(); fAnimDebugList = new plAnimDebugList(); /// Now parse final init files (*.fni). These are files just like ini files, only to be run /// after all hell has broken loose in the client. plFileName initFolder = plFileSystem::GetInitPath(); pfConsoleDirSrc dirSrc(fConsoleEngine, initFolder, "net*.fni"); // connect to net first #ifndef PLASMA_EXTERNAL_RELEASE // internal builds also parse the local init folder dirSrc.ParseDirectory("init", "net*.fni"); #endif dirSrc.ParseDirectory(initFolder, "*.fni"); #ifndef PLASMA_EXTERNAL_RELEASE // internal builds also parse the local init folder dirSrc.ParseDirectory("init", "*.fni"); #endif // run fni in the Aux Init dir if (fpAuxInitDir) { dirSrc.ParseDirectory(fpAuxInitDir, "net*.fni"); // connect to net first dirSrc.ParseDirectory(fpAuxInitDir, "*.fni"); } fNumLoadingRooms--; ((plResManager*)hsgResMgr::ResMgr())->PageInAge("GlobalAnimations"); SetHoldLoadRequests(false); // Tell the transition manager to start faded out. This is so we don't // get a frame or two of non-faded drawing before we do our initial fade in (void)(new plTransitionMsg( plTransitionMsg::kFadeOut, 0.0f, true ))->Send(); fFlags.SetBit(kFlagAsyncInitComplete); if (fFlags.IsBitSet(kFlagGlobalDataLoaded)) ICompleteInit(); } //============================================================================ void plClient::ICompleteInit () { // Reset clear color on the pipeline // fPipeline->ClearRenderTarget( &fClearColor, &depth ); plSimulationMgr::GetInstance()->Resume(); // start the sim at the last possible minute fFlags.SetBit( kFlagIniting, false ); hsStatusMessage("Client init complete."); // Tell everyone we're ready to rock. plClientMsg* clientMsg = new plClientMsg(plClientMsg::kInitComplete); clientMsg->SetBCastFlag(plMessage::kBCastByType); clientMsg->Send(); } //============================================================================ void plClient::IHandlePatcherMsg (plResPatcherMsg * msg) { plgDispatch::Dispatch()->UnRegisterForExactType(plResPatcherMsg::Index(), GetKey()); if (!msg->Success()) { plNetClientApp::GetInstance()->QueueDisableNet(true, msg->GetError().c_str()); return; } IOnAsyncInitComplete(); } //============================================================================ void plClient::IHandleNetCommAuthMsg (plNetCommAuthMsg * msg) { plgDispatch::Dispatch()->UnRegisterForExactType(plNetCommAuthMsg::Index(), GetKey()); if (IS_NET_ERROR(msg->result)) { char str[1024]; StrPrintf( str, arrsize(str), // fmt "Authentication failed: NetError %u, %S.\n" ,// values msg->result, NetErrorToString(msg->result) ); plNetClientApp::GetInstance()->QueueDisableNet(true, str); return; } // Patch them global files! IPatchGlobalAgeFiles(); }