Exemplo n.º 1
0
// This method is templated on the implementation of hctMayaSceneExporter/hctMaxSceneExporter::createScene()
bool FbxToHkxConverter::createScenes(FbxScene* fbxScene)
{
	clear();

	m_curFbxScene = fbxScene;
	m_rootNode = m_curFbxScene->GetRootNode();

	m_modeller = "FBX";
	hkStringBuf application = fbxScene->GetSceneInfo()->Original_ApplicationName.Get();
	if (application.getLength() > 0)
	{
		m_modeller += " [";
		m_modeller += application;
		m_modeller += "]";
	}
	printf("Modeller: %s\n", m_modeller.cString());

	if (m_options.m_selectedOnly)
	{
		printf("Exporting Selected Only\n");
	}

	if (m_options.m_visibleOnly)
	{
		printf("Exporting Visible Only\n");
	}

	hkArray<FbxNode*> boneNodes;
	findChildren(m_rootNode, boneNodes, FbxNodeAttribute::eSkeleton);
	m_numBones = boneNodes.getSize();
	printf("Bones: %d\n", m_numBones);

	const int poseCount = m_curFbxScene->GetPoseCount();
	if (poseCount > 0)
	{
		m_pose = m_curFbxScene->GetPose(0);
		printf("Pose Elements: %d\n", m_pose->GetCount());		
	}

	m_numAnimStacks = m_curFbxScene->GetSrcObjectCount<FbxAnimStack>();
	if (m_numAnimStacks > 0)
	{
		const FbxAnimStack* lAnimStack = m_curFbxScene->GetSrcObject<FbxAnimStack>(0);
		const FbxTimeSpan animTimeSpan = lAnimStack->GetLocalTimeSpan();
		FbxTime timePerFrame; timePerFrame.SetTime(0, 0, 0, 1, 0, m_curFbxScene->GetGlobalSettings().GetTimeMode());
		m_startTime = animTimeSpan.GetStart();
	}
	printf("Animation stacks: %d\n", m_numAnimStacks);

	createSceneStack(-1);

	for (int animStackIndex = 0;
		 animStackIndex < m_numAnimStacks && m_numBones > 0;
		 animStackIndex++)
	{
		createSceneStack(animStackIndex);
	}
	
	return true;
}
Exemplo n.º 2
0
void findMinMaxTime(FbxAnimCurve* animCurve, float* startTime, float* stopTime, float* frameRate)
{
    FbxTime start, stop;
    FbxTimeSpan timeSpan;
    animCurve->GetTimeInterval(timeSpan);
    start = timeSpan.GetStart();
    stop = timeSpan.GetStop();
    *startTime = std::min(*startTime, (float)start.GetMilliSeconds());
    *stopTime = std::max(*stopTime, (float)stop.GetMilliSeconds());
    *frameRate = std::max(*frameRate, (float)stop.GetFrameRate(FbxTime::eDefaultMode));
}
Exemplo n.º 3
0
bool SceneContext::SetCurrentAnimStack(int nIndex)
{
    const int nAnimStackCount = mAnimStackNameArray.GetCount();
    if (!nAnimStackCount || nIndex >= nAnimStackCount)
    {
        return false;
    }

    // select the base layer from the animation stack
   FbxAnimStack * lCurrentAnimationStack = mScene->FindMember<FbxAnimStack>(mAnimStackNameArray[nIndex]->Buffer());
   if (lCurrentAnimationStack == NULL)
   {
       // this is a problem. The anim stack should be found in the scene!
       return false;
   }

   // we assume that the first animation layer connected to the animation stack is the base layer
   // (this is the assumption made in the FBXSDK)
   mCurrentAnimLayer = lCurrentAnimationStack->GetMember<FbxAnimLayer>();
   mScene->GetEvaluator()->SetContext(lCurrentAnimationStack);

   FbxTakeInfo* lCurrentTakeInfo = mScene->GetTakeInfo(*(mAnimStackNameArray[nIndex]));
   if (lCurrentTakeInfo)
   {
       mStart = lCurrentTakeInfo->mLocalTimeSpan.GetStart();
       mStop = lCurrentTakeInfo->mLocalTimeSpan.GetStop();
   }
   else
   {
       // Take the time line value
       FbxTimeSpan lTimeLineTimeSpan;
       mScene->GetGlobalSettings().GetTimelineDefaultTimeSpan(lTimeLineTimeSpan);

       mStart = lTimeLineTimeSpan.GetStart();
       mStop  = lTimeLineTimeSpan.GetStop();
   }

   // check for smallest start with cache start
   if(mCache_Start < mStart)
	   mStart = mCache_Start;

   // check for biggest stop with cache stop
   if(mCache_Stop  > mStop)  
	   mStop  = mCache_Stop;

   // move to beginning
   mCurrentTime = mStart;

   // Set the scene status flag to refresh 
   // the scene in the next timer callback.
   mStatus = MUST_BE_REFRESHED;

   return true;
}
Exemplo n.º 4
0
void UnFbx::FFbxImporter::MergeAllLayerAnimation(FbxAnimStack* AnimStack, int32 ResampleRate)
{
	FbxTime lFramePeriod;
	lFramePeriod.SetSecondDouble(1.0 / ResampleRate);

	FbxTimeSpan lTimeSpan = AnimStack->GetLocalTimeSpan();
	AnimStack->BakeLayers(Scene->GetAnimationEvaluator(), lTimeSpan.GetStart(), lTimeSpan.GetStop(), lFramePeriod);

	// always apply unroll filter
	FbxAnimCurveFilterUnroll UnrollFilter;

	FbxAnimLayer* lLayer = AnimStack->GetMember<FbxAnimLayer>(0);
	UnrollFilter.Reset();
	ApplyUnroll(Scene->GetRootNode(), lLayer, &UnrollFilter);
}
Exemplo n.º 5
0
void fbxLoader2::readAnimationTakeData(FbxNode* node)
{
	FbxAnimStack* pAnimStack = FbxCast<FbxAnimStack>(scene->GetSrcObject(FBX_TYPE(FbxAnimStack)));
	FbxAnimLayer* pAnimLayer = pAnimStack->GetMember(FBX_TYPE(FbxAnimLayer));

	FbxAnimCurve* animCv = node->LclTranslation.GetCurve(pAnimLayer, FBXSDK_CURVENODE_COMPONENT_X);

	FbxTimeSpan length = FbxTimeSpan();

	int p = animCv->KeyGetCount();

	const char* nameAnim = animCv->GetName();
	const size_t len = strlen(nameAnim);
	char * new_name = new char[len + 1];
	strncpy(new_name, nameAnim, len);

	animCv->GetTimeInterval(length);

	FbxTime duration = length.GetDuration();
	FbxTime::EMode mode = duration.GetGlobalTimeMode();
	double frameRate = duration.GetFrameRate(mode);

	double startt = length.GetStart().GetMilliSeconds();
	double endt = length.GetStop().GetMilliSeconds();

	int frames = animCv->KeyGetCount();

	animationStructure = new AnimationData(new_name, startt, endt, (int)frameRate, frames);

	for (int i = 0; i< frames; i++)
	{
		SkeletalData *sk = new SkeletalData();
		for(int j = 0; j<skeleton->GetBonesCount(); j++)
		{
			BoneData *bonecopy = new BoneData();
			bonecopy->SetID(skeleton->GetBone(j)->GetID());
			bonecopy->SetName(skeleton->GetBone(j)->GetName());
			bonecopy->SetParent(skeleton->GetBone(j)->GetParent());
			sk->SetBones(bonecopy);
		}
		animationStructure->SetSkeleton(sk, i);
	}
}
Exemplo n.º 6
0
void FBXScene::ProcessAnimations(FbxScene* pScene)
{
	m_pAnimationController = new AnimationController();

	FbxNode* pRootNode = pScene->GetRootNode();
	if(!pRootNode)
		return;

	float fFrameRate = (float)FbxTime::GetFrameRate(pScene->GetGlobalSettings().GetTimeMode());

	FbxArray<FbxString*> takeArray;	
	FbxDocument* pDocument = FbxCast<FbxDocument>(pScene); // dynamic_cast<FbxDocument*>(pScene);
	if( pDocument )
		pDocument->FillAnimStackNameArray(takeArray);

	for( int i = 0; i < takeArray.GetCount(); ++i )
	{
		FbxString* takeName = takeArray.GetAt(i);

		if( std::string(takeName->Buffer()) != "Default" )
		{
			/// ARRRGHHH SÄTTER ALLTID FÖRSTA HÄR!!!!!!!!!!!!!!!!!!
			FbxTakeInfo* lCurrentTakeInfo = pScene->GetTakeInfo(takeName->Buffer());

			FbxAnimStack* lAnimStack = FbxCast<FbxAnimStack>(pScene->GetSrcObject<FbxAnimStack>(i));
			pScene->GetEvaluator()->SetContext(lAnimStack);

			FbxTime KStart;
			FbxTime KStop;
			if(lCurrentTakeInfo)
			{
				KStart = lCurrentTakeInfo->mLocalTimeSpan.GetStart();
				KStop = lCurrentTakeInfo->mLocalTimeSpan.GetStop();
			}
			else
			{
				// Take the time line value
				FbxTimeSpan lTimeLineTimeSpan;
				pScene->GetGlobalSettings().GetTimelineDefaultTimeSpan(lTimeLineTimeSpan);
				KStart = lTimeLineTimeSpan.GetStart();
				KStop  = lTimeLineTimeSpan.GetStop();
			}

			float fStart = (float)KStart.GetSecondDouble();
			float fStop = (float)KStop.GetSecondDouble();

			if( fStart < fStop )
			{
				int nKeyFrames = int((fStop-fStart)*fFrameRate);

				Animation* pAnimation = new Animation(takeName->Buffer(), nKeyFrames, fFrameRate);
				m_pAnimationController->AddAnimation(pAnimation);
				
				ProcessAnimation(pRootNode, takeName->Buffer(), fFrameRate, fStart, fStop);
			}
		}

		delete takeName;
	}
	takeArray.Clear();
}
Exemplo n.º 7
0
int main(int argc, char **argv)
{
#ifndef _DEBUG
	if (argc != 2)
	{
		printf("invalid arg");
		return 0;
	}
	const char* filename = argv[1];
#else
	const char* filename = "*****@*****.**";
#endif
	
	output.open("output.txt", ios::out | ios::trunc);
	output2.open("output2.txt", ios::out | ios::trunc);
	output3.open("output3.txt", ios::out | ios::trunc);
	if (!output.is_open())
	{
		exit(1);
	}
	FbxManager* fm = FbxManager::Create();
	FbxIOSettings *ios = FbxIOSettings::Create(fm, IOSROOT);
	//ios->SetBoolProp(EXP_FBX_ANIMATION, false);
	ios->SetIntProp(EXP_FBX_COMPRESS_LEVEL, 9);
	
	ios->SetAllObjectFlags(true);
	fm->SetIOSettings(ios);

	FbxImporter* importer = FbxImporter::Create(fm, "");
	if (!importer->Initialize(filename, -1, fm->GetIOSettings()))
	{
		printf("error returned : %s\n", importer->GetStatus().GetErrorString());
		exit(-1);
	}

	FbxScene* scene = FbxScene::Create(fm, "myscene");

	importer->Import(scene);
	importer->Destroy();
	output << "some\n";
	output << "charcnt : " << scene->GetCharacterCount() << endl << "node cnt : " << scene->GetNodeCount() << endl;
	int animstackcnt = scene->GetSrcObjectCount<FbxAnimStack>();
	output << "animstackcnt : " << animstackcnt << endl;

	output << "------------" << endl;
	vector<FbxNode*> removableNodes;

	for (int i = 0; i < scene->GetNodeCount(); i++)
	{
		FbxNode* node = scene->GetNode(i);
		output << "scene's node " << i << " : " << node->GetName() << ", childcnt : " << node->GetChildCount();
		if (node->GetNodeAttribute())
		{
			output <<", att type : " << node->GetNodeAttribute()->GetAttributeType();
			if (node->GetNodeAttribute()->GetAttributeType() == FbxNodeAttribute::EType::eMesh)
			{
				FbxMesh* mesh = node->GetMesh();

				output << ", mem usage : " << mesh->MemoryUsage() << ", deformer cnt : " << mesh->GetDeformerCount(FbxDeformer::EDeformerType::eSkin) << endl;
				collapseMesh(mesh);
				FbxSkin* skin = (FbxSkin*) (mesh->GetDeformer(0, FbxDeformer::EDeformerType::eSkin));
				if (skin)
				{
					
					for (int cli = 0; cli < skin->GetClusterCount(); cli++)
					{
						FbxCluster* cluster = skin->GetCluster(cli);
						output << "\tcluster no." << cli << " has " << cluster->GetControlPointIndicesCount() << " connected verts" << endl;
						if (cluster->GetControlPointIndicesCount() == 0)
							removableNodes.push_back( cluster->GetLink() );
						
						//cluster->
						//skin->RemoveCluster(cluster);효과없음
					}

					
					
				}
				if (mesh->IsTriangleMesh())
				{
					output << "\tit's triangle mesh" << endl;
					
				}
				//mesh->RemoveDeformer(0);효과없음
			}
			else
				output << endl;
		}
		else
		{
			output << ", att type : none" << endl;
		}
	}

	for (int rni = 0; rni < removableNodes.size(); rni++)
	{
		FbxNode* rnd = removableNodes[rni];
		if (rnd && rnd->GetNodeAttribute()->GetAttributeType() == FbxNodeAttribute::EType::eSkeleton)
		{
			output3 << rnd->GetName() << " node with no vert attached's curve : " << rnd->GetSrcObjectCount<FbxAnimCurve>() << "," << rnd->GetSrcObjectCount<FbxAnimCurveNode>() << endl;
		}
	}

	output << "-----------animinfo" << endl;
	int cubic = 0, linear = 0, cons = 0;
	for (int si = 0; si < animstackcnt; si++)
	{
		FbxAnimStack* stack = scene->GetSrcObject<FbxAnimStack>(si);
		for (int i = 0; i < stack->GetMemberCount<FbxAnimLayer>(); i++)
		{
			FbxAnimLayer* layer = stack->GetMember<FbxAnimLayer>(i);
			int curvenodecnt = layer->GetMemberCount<FbxAnimCurveNode>();
			int compositcnt = 0;
			for (int j = 0; j < curvenodecnt; j++)
			{
				FbxAnimCurveNode* cnode = layer->GetMember<FbxAnimCurveNode>(j);
				compositcnt += (cnode->IsComposite() ? 1 : 0);
			}
			output << "\tanimstack's layer " << i << " : " << layer->GetName() << ", curve node cnt : " << curvenodecnt << ", composit node cnt : " << compositcnt << endl;
			vector<FbxAnimCurveNode*> nodes2del;
			
			for (int j = 0; j < curvenodecnt; j++)
			{
				FbxAnimCurveNode* cnode = layer->GetMember<FbxAnimCurveNode>(j);
				output << "\t\tcurvenode " << j << " channel cnt : " << cnode->GetChannelsCount() << ", dst obj cnt " << cnode->GetDstObjectCount() << "(";
				for (int dsti = 0; dsti < cnode->GetDstObjectCount(); dsti++)
				{
					output << "," << cnode->GetDstObject(dsti)->GetName();
					if (cnode->GetDstObject(dsti)->GetSrcObjectCount() > 0)
						output << "<" << cnode->GetDstObject(dsti)->GetSrcObjectCount<FbxSkeleton>() << ">";
				}
				output << ")";
				FbxTimeSpan interval;
				if (cnode->GetAnimationInterval(interval))
				{
					output << ", start : " << interval.GetStart().GetTimeString() << ", end : " << interval.GetStop().GetTimeString() << endl;
				}
				else
				{
					nodes2del.push_back(cnode);
					output << ", no interval" << endl;
				}

				for (int chi = 0; chi < cnode->GetChannelsCount(); chi++)
				{
					
					int curvecnt = cnode->GetCurveCount(chi);
					output << "\t\t\tchannel." << chi << " curvecnt : " << curvecnt << endl;
					for (int ci = 0; ci < curvecnt; ci++)
					{
						FbxAnimCurve* curve = cnode->GetCurve(chi, ci);
						int keycnt = curve->KeyGetCount();
						output << "\t\t\t\tcurve no." << ci << " : key count : " << keycnt;
						output2 << "curve  " << ci << endl;
						
						vector<int> keys2Remove;
						for (int cki = 0; cki < keycnt; cki++)
						{
							FbxAnimCurveKey prevkey, currkey, nextkey;

							if (cki == 0 || cki == keycnt - 1)
								continue;
							
							currkey = curve->KeyGet(cki);
							prevkey = curve->KeyGet(cki-1);
							nextkey = curve->KeyGet(cki + 1);
							
							bool keepit = true;

							output2 << ci << "-" << cki;

//							keepit = keepTestHorizon(curve, prevkey, currkey, nextkey);
	//						if (keepit)
	//							keepit = slopkeepTest(curve, prevkey, currkey, nextkey);

							if (!keepit)
							{
								if (!(currkey.GetInterpolation() == FbxAnimCurveDef::EInterpolationType::eInterpolationConstant && nextkey.GetInterpolation() != FbxAnimCurveDef::EInterpolationType::eInterpolationConstant))
									keys2Remove.push_back(cki);
							}
						}
						for (int kri = keys2Remove.size() - 1; kri >= 0; kri--)
						{
							
							//curve->KeyRemove(keys2Remove[kri]);
						}
						output2 << endl;
						//output << ", cubic:linear:const : " << cubic << ":" << linear << ":" << cons << endl;
						if (keys2Remove.size() > 0)
							output << ", " << keys2Remove.size() << " keys removed";

						keycnt = curve->KeyGetCount();
						
					}

				}
			}
			//이부분은 별로 효과없음
			/*
			for (int di = 0; di < nodes2del.size(); di++)
			{
				layer->RemoveMember(nodes2del[di]);
			}
			*/
			
		}
	}
	output << "cubic:linear:const  " << cubic << ":" << linear << ":" << cons << endl;
	FbxExporter* exporter = FbxExporter::Create(fm, "");
	const char* outFBXName = "after.fbx";

	bool exportstatus = exporter->Initialize(outFBXName, -1, fm->GetIOSettings());
	if (exportstatus == false)
	{
		puts("err export fail");
	}
	exporter->Export(scene);
	exporter->Destroy();
	scene->Destroy();
	
	ios->Destroy();
	fm->Destroy();
	output.close();
	output2.close();
	output3.close();
	return 0;
}
Exemplo n.º 8
0
bool UnFbx::FFbxImporter::ImportAnimation(USkeleton* Skeleton, UAnimSequence * DestSeq, const FString& FileName, TArray<FbxNode*>& SortedLinks, TArray<FbxNode*>& NodeArray, FbxAnimStack* CurAnimStack, const int32 ResampleRate, const FbxTimeSpan AnimTimeSpan)
{
	// @todo : the length might need to change w.r.t. sampling keys
	FbxTime SequenceLength = AnimTimeSpan.GetDuration();
	float PreviousSequenceLength = DestSeq->SequenceLength;

	// if you have one pose(thus 0.f duration), it still contains animation, so we'll need to consider that as MINIMUM_ANIMATION_LENGTH time length
	DestSeq->SequenceLength = FGenericPlatformMath::Max<float>(SequenceLength.GetSecondDouble(), MINIMUM_ANIMATION_LENGTH);

	if(PreviousSequenceLength > MINIMUM_ANIMATION_LENGTH && DestSeq->RawCurveData.FloatCurves.Num() > 0)
	{
		// The sequence already existed when we began the import. We need to scale the key times for all curves to match the new 
		// duration before importing over them. This is to catch any user-added curves
		float ScaleFactor = DestSeq->SequenceLength / PreviousSequenceLength;
		for(FFloatCurve& Curve : DestSeq->RawCurveData.FloatCurves)
		{
			Curve.FloatCurve.ScaleCurve(0.0f, ScaleFactor);
		}
	}

	if (ImportOptions->bDeleteExistingMorphTargetCurves)
	{
		for (int32 CurveIdx=0; CurveIdx<DestSeq->RawCurveData.FloatCurves.Num(); ++CurveIdx)
		{
			auto& Curve = DestSeq->RawCurveData.FloatCurves[CurveIdx];
			if (Curve.GetCurveTypeFlag(ACF_DrivesMorphTarget))
			{
				DestSeq->RawCurveData.FloatCurves.RemoveAt(CurveIdx, 1, false);
				--CurveIdx;
			}
		}

		DestSeq->RawCurveData.FloatCurves.Shrink();
	}

	//
	// import blend shape curves
	//
	{
		GWarn->BeginSlowTask( LOCTEXT("BeginImportMorphTargetCurves", "Importing Morph Target Curves"), true);
		for ( int32 NodeIndex = 0; NodeIndex < NodeArray.Num(); NodeIndex++ )
		{
			// consider blendshape animation curve
			FbxGeometry* Geometry = (FbxGeometry*)NodeArray[NodeIndex]->GetNodeAttribute();
			if (Geometry)
			{
				int32 BlendShapeDeformerCount = Geometry->GetDeformerCount(FbxDeformer::eBlendShape);
				for(int32 BlendShapeIndex = 0; BlendShapeIndex<BlendShapeDeformerCount; ++BlendShapeIndex)
				{
					FbxBlendShape* BlendShape = (FbxBlendShape*)Geometry->GetDeformer(BlendShapeIndex, FbxDeformer::eBlendShape);

					const int32 BlendShapeChannelCount = BlendShape->GetBlendShapeChannelCount();

					FString BlendShapeName = UTF8_TO_TCHAR(MakeName(BlendShape->GetName()));

					for(int32 ChannelIndex = 0; ChannelIndex<BlendShapeChannelCount; ++ChannelIndex)
					{
						FbxBlendShapeChannel* Channel = BlendShape->GetBlendShapeChannel(ChannelIndex);

						if(Channel)
						{
							FString ChannelName = UTF8_TO_TCHAR(MakeName(Channel->GetName()));

							// Maya adds the name of the blendshape and an underscore to the front of the channel name, so remove it
							if(ChannelName.StartsWith(BlendShapeName))
							{
								ChannelName = ChannelName.Right(ChannelName.Len() - (BlendShapeName.Len()+1));
							}

							FbxAnimCurve* Curve = Geometry->GetShapeChannel(BlendShapeIndex, ChannelIndex, (FbxAnimLayer*)CurAnimStack->GetMember(0));
							if (Curve && Curve->KeyGetCount() > 0)
							{
								FFormatNamedArguments Args;
								Args.Add(TEXT("BlendShape"), FText::FromString(ChannelName));
								const FText StatusUpate = FText::Format(LOCTEXT("ImportingMorphTargetCurvesDetail", "Importing Morph Target Curves [{BlendShape}]"), Args);
								GWarn->StatusUpdate(NodeIndex + 1, NodeArray.Num(), StatusUpate);
								// now see if we have one already exists. If so, just overwrite that. if not, add new one. 
								ImportCurveToAnimSequence(DestSeq, *ChannelName, Curve,  ACF_DrivesMorphTarget | ACF_TriggerEvent, AnimTimeSpan, 0.01f /** for some reason blend shape values are coming as 100 scaled **/);
							}
						}
					}
				}
			}
		}
		GWarn->EndSlowTask();
	}

	// 
	// importing custom attribute START
	//
	if (ImportOptions->bImportCustomAttribute)
	{
		GWarn->BeginSlowTask( LOCTEXT("BeginImportMorphTargetCurves", "Importing Custom Attirubte Curves"), true);
		const int32 TotalLinks = SortedLinks.Num();
		int32 CurLinkIndex=0;
		for(auto Node: SortedLinks)
		{
			FbxProperty Property = Node->GetFirstProperty();
			while (Property.IsValid())
			{
				FbxAnimCurveNode* CurveNode = Property.GetCurveNode();
				// do this if user defined and animated and leaf node
				if( CurveNode && Property.GetFlag(FbxPropertyAttr::eUserDefined) && 
					CurveNode->IsAnimated() && IsSupportedCurveDataType(Property.GetPropertyDataType().GetType()) )
				{
					FString CurveName = UTF8_TO_TCHAR(CurveNode->GetName());
					UE_LOG(LogFbx, Log, TEXT("CurveName : %s"), *CurveName );

					int32 TotalCount = CurveNode->GetChannelsCount();
					for (int32 ChannelIndex=0; ChannelIndex<TotalCount; ++ChannelIndex)
					{
						FbxAnimCurve * AnimCurve = CurveNode->GetCurve(ChannelIndex);
						FString ChannelName = CurveNode->GetChannelName(ChannelIndex).Buffer();

						if (AnimCurve)
						{
							FString FinalCurveName;
							if (TotalCount == 1)
							{
								FinalCurveName = CurveName;
							}
							else
							{
								FinalCurveName = CurveName + "_" + ChannelName;
							}

							FFormatNamedArguments Args;
							Args.Add(TEXT("CurveName"), FText::FromString(FinalCurveName));
							const FText StatusUpate = FText::Format(LOCTEXT("ImportingCustomAttributeCurvesDetail", "Importing Custom Attribute [{CurveName}]"), Args);
							GWarn->StatusUpdate(CurLinkIndex + 1, TotalLinks, StatusUpate);

							ImportCurveToAnimSequence(DestSeq, FinalCurveName, AnimCurve,  ACF_DefaultCurve, AnimTimeSpan);
						}
											
					}
				}

				Property = Node->GetNextProperty(Property); 
			}

			CurLinkIndex++;
		}

		GWarn->EndSlowTask();
	}

	// importing custom attribute END

	const bool bSourceDataExists = (DestSeq->SourceRawAnimationData.Num() > 0);
	TArray<AnimationTransformDebug::FAnimationTransformDebugData> TransformDebugData;
	int32 TotalNumKeys = 0;
	const FReferenceSkeleton& RefSkeleton = Skeleton->GetReferenceSkeleton();

	// import animation
	{
		GWarn->BeginSlowTask( LOCTEXT("BeginImportAnimation", "Importing Animation"), true);

		TArray<struct FRawAnimSequenceTrack>& RawAnimationData = bSourceDataExists? DestSeq->SourceRawAnimationData : DestSeq->RawAnimationData;
		DestSeq->TrackToSkeletonMapTable.Empty();
		DestSeq->AnimationTrackNames.Empty();
		RawAnimationData.Empty();

		TArray<FName> FbxRawBoneNames;
		FillAndVerifyBoneNames(Skeleton, SortedLinks, FbxRawBoneNames, FileName);

		UnFbx::FFbxImporter* FbxImporter = UnFbx::FFbxImporter::GetInstance();

		const bool bPreserveLocalTransform = FbxImporter->GetImportOptions()->bPreserveLocalTransform;

		// Build additional transform matrix
		UFbxAnimSequenceImportData* TemplateData = Cast<UFbxAnimSequenceImportData>(DestSeq->AssetImportData);
		FbxAMatrix FbxAddedMatrix;
		BuildFbxMatrixForImportTransform(FbxAddedMatrix, TemplateData);
		FMatrix AddedMatrix = Converter.ConvertMatrix(FbxAddedMatrix);

		const int32 NumSamplingKeys = FMath::FloorToInt(AnimTimeSpan.GetDuration().GetSecondDouble() * ResampleRate);
		const FbxTime TimeIncrement = (NumSamplingKeys > 1)? AnimTimeSpan.GetDuration() / (NumSamplingKeys - 1) : AnimTimeSpan.GetDuration();
		for(int32 SourceTrackIdx = 0; SourceTrackIdx < FbxRawBoneNames.Num(); ++SourceTrackIdx)
		{
			int32 NumKeysForTrack = 0;

			// see if it's found in Skeleton
			FName BoneName = FbxRawBoneNames[SourceTrackIdx];
			int32 BoneTreeIndex = RefSkeleton.FindBoneIndex(BoneName);

			// update status
			FFormatNamedArguments Args;
			Args.Add(TEXT("TrackName"), FText::FromName(BoneName));
			Args.Add(TEXT("TotalKey"), FText::AsNumber(NumSamplingKeys));
			Args.Add(TEXT("TrackIndex"), FText::AsNumber(SourceTrackIdx+1));
			Args.Add(TEXT("TotalTracks"), FText::AsNumber(FbxRawBoneNames.Num()));
			const FText StatusUpate = FText::Format(LOCTEXT("ImportingAnimTrackDetail", "Importing Animation Track [{TrackName}] ({TrackIndex}/{TotalTracks}) - TotalKey {TotalKey}"), Args);
			GWarn->StatusForceUpdate(SourceTrackIdx + 1, FbxRawBoneNames.Num(), StatusUpate);

			if (BoneTreeIndex!=INDEX_NONE)
			{
				bool bSuccess = true;

				FRawAnimSequenceTrack RawTrack;
				RawTrack.PosKeys.Empty();
				RawTrack.RotKeys.Empty();
				RawTrack.ScaleKeys.Empty();

				AnimationTransformDebug::FAnimationTransformDebugData NewDebugData;

				FbxNode* Link = SortedLinks[SourceTrackIdx];
				FbxNode * LinkParent = Link->GetParent();
			
				for(FbxTime CurTime = AnimTimeSpan.GetStart(); CurTime <= AnimTimeSpan.GetStop(); CurTime += TimeIncrement)
				{
					// save global trasnform
					FbxAMatrix GlobalMatrix = Link->EvaluateGlobalTransform(CurTime);
					// we'd like to verify this before going to Transform. 
					// currently transform has tons of NaN check, so it will crash there
					FMatrix GlobalUEMatrix = Converter.ConvertMatrix(GlobalMatrix);
					if (GlobalUEMatrix.ContainsNaN())
					{
						bSuccess = false;
						AddTokenizedErrorMessage(FTokenizedMessage::Create(EMessageSeverity::Error, FText::Format(LOCTEXT("Error_InvalidTransform",
							"Track {0} contains invalid transform. Could not import the track."), FText::FromName(BoneName))), FFbxErrors::Animation_TransformError);
						break;
					}

					FTransform GlobalTransform =  Converter.ConvertTransform(GlobalMatrix);
					if (GlobalTransform.ContainsNaN())
					{
						bSuccess = false;
						AddTokenizedErrorMessage(FTokenizedMessage::Create(EMessageSeverity::Error, FText::Format(LOCTEXT("Error_InvalidUnrealTransform",
											"Track {0} did not yeild valid transform. Please report this to animation team."), FText::FromName(BoneName))), FFbxErrors::Animation_TransformError);
						break;
					}

					// debug data, including import transformation
					FTransform AddedTransform(AddedMatrix);
					NewDebugData.SourceGlobalTransform.Add(GlobalTransform * AddedTransform);

					FTransform LocalTransform;
					if( !bPreserveLocalTransform && LinkParent)
					{
						// I can't rely on LocalMatrix. I need to recalculate quaternion/scale based on global transform if Parent exists
						FbxAMatrix ParentGlobalMatrix = Link->GetParent()->EvaluateGlobalTransform(CurTime);
						FTransform ParentGlobalTransform =  Converter.ConvertTransform(ParentGlobalMatrix);

						LocalTransform = GlobalTransform.GetRelativeTransform(ParentGlobalTransform);
						NewDebugData.SourceParentGlobalTransform.Add(ParentGlobalTransform);
					} 
					else
					{
						FbxAMatrix& LocalMatrix = Link->EvaluateLocalTransform(CurTime); 
						FbxVector4 NewLocalT = LocalMatrix.GetT();
						FbxVector4 NewLocalS = LocalMatrix.GetS();
						FbxQuaternion NewLocalQ = LocalMatrix.GetQ();

						LocalTransform.SetTranslation(Converter.ConvertPos(NewLocalT));
						LocalTransform.SetScale3D(Converter.ConvertScale(NewLocalS));
						LocalTransform.SetRotation(Converter.ConvertRotToQuat(NewLocalQ));

						NewDebugData.SourceParentGlobalTransform.Add(FTransform::Identity);
					}

					if(TemplateData && BoneTreeIndex == 0)
					{
						// If we found template data earlier, apply the import transform matrix to
						// the root track.
						LocalTransform.SetFromMatrix(LocalTransform.ToMatrixWithScale() * AddedMatrix);
					}

					if (LocalTransform.ContainsNaN())
					{
						bSuccess = false;
						AddTokenizedErrorMessage(FTokenizedMessage::Create(EMessageSeverity::Error, FText::Format(LOCTEXT("Error_InvalidUnrealLocalTransform",
											"Track {0} did not yeild valid local transform. Please report this to animation team."), FText::FromName(BoneName))), FFbxErrors::Animation_TransformError);
						break;
					}

					RawTrack.ScaleKeys.Add(LocalTransform.GetScale3D());
					RawTrack.PosKeys.Add(LocalTransform.GetTranslation());
					RawTrack.RotKeys.Add(LocalTransform.GetRotation());

					NewDebugData.RecalculatedLocalTransform.Add(LocalTransform);
					++NumKeysForTrack;
				}

				if (bSuccess)
				{
					//add new track
					int32 NewTrackIdx = RawAnimationData.Add(RawTrack);
					DestSeq->AnimationTrackNames.Add(BoneName);

					NewDebugData.SetTrackData(NewTrackIdx, BoneTreeIndex, BoneName);

					// add mapping to skeleton bone track
					DestSeq->TrackToSkeletonMapTable.Add(FTrackToSkeletonMap(BoneTreeIndex));
					TransformDebugData.Add(NewDebugData);
				}
			}

			TotalNumKeys = FMath::Max( TotalNumKeys, NumKeysForTrack );
		}

		DestSeq->NumFrames = TotalNumKeys;
		GWarn->EndSlowTask();
	}

	// compress animation
	{
		GWarn->BeginSlowTask( LOCTEXT("BeginCompressAnimation", "Compress Animation"), true);
		GWarn->StatusForceUpdate(1, 1, LOCTEXT("CompressAnimation", "Compressing Animation"));
		// if source data exists, you should bake it to Raw to apply
		if(bSourceDataExists)
		{
			DestSeq->BakeTrackCurvesToRawAnimation();
		}
		else
		{
			// otherwise just compress
			DestSeq->PostProcessSequence();
		}

		// run debug mode
		AnimationTransformDebug::OutputAnimationTransformDebugData(TransformDebugData, TotalNumKeys, RefSkeleton);
		GWarn->EndSlowTask();
	}

	return true;
}
Exemplo n.º 9
0
bool UnFbx::FFbxImporter::ImportCurve(const FbxAnimCurve* FbxCurve, FFloatCurve * Curve, const FbxTimeSpan &AnimTimeSpan, const float ValueScale/*=1.f*/) const
{
	static float DefaultCurveWeight = FbxAnimCurveDef::sDEFAULT_WEIGHT;

	if ( FbxCurve && Curve )
	{
		for ( int32 KeyIndex=0; KeyIndex<FbxCurve->KeyGetCount(); ++KeyIndex )
		{
			FbxAnimCurveKey Key = FbxCurve->KeyGet(KeyIndex);
			FbxTime KeyTime = Key.GetTime() - AnimTimeSpan.GetStart();
			float Value = Key.GetValue() * ValueScale;
			FKeyHandle NewKeyHandle = Curve->FloatCurve.AddKey(KeyTime.GetSecondDouble(), Value, true);

			FbxAnimCurveDef::ETangentMode KeyTangentMode = Key.GetTangentMode();
			FbxAnimCurveDef::EInterpolationType KeyInterpMode = Key.GetInterpolation();
			FbxAnimCurveDef::EWeightedMode KeyTangentWeightMode = Key.GetTangentWeightMode();

			ERichCurveInterpMode NewInterpMode = RCIM_Linear;
			ERichCurveTangentMode NewTangentMode = RCTM_Auto;
			ERichCurveTangentWeightMode NewTangentWeightMode = RCTWM_WeightedNone;

			float LeaveTangent = 0.f; 
			float ArriveTangent = 0.f;
			float LeaveTangentWeight = 0.f;
			float ArriveTangentWeight = 0.f;

			switch (KeyInterpMode)
			{
			case FbxAnimCurveDef::eInterpolationConstant://! Constant value until next key.
				NewInterpMode = RCIM_Constant;
				break;
			case FbxAnimCurveDef::eInterpolationLinear://! Linear progression to next key.
				NewInterpMode = RCIM_Linear;
				break;
			case FbxAnimCurveDef::eInterpolationCubic://! Cubic progression to next key.
				NewInterpMode = RCIM_Cubic;
				// get tangents
				{
					LeaveTangent = Key.GetDataFloat(FbxAnimCurveDef::eRightSlope);

					if ( KeyIndex > 0 )
					{
						FbxAnimCurveKey PrevKey = FbxCurve->KeyGet(KeyIndex-1);
						ArriveTangent = PrevKey.GetDataFloat(FbxAnimCurveDef::eNextLeftSlope);
					}
					else
					{
						ArriveTangent = 0.f;
					}

				}
				break;
			}

			// when we import tangent, we only support break or user
			// since it's modified by DCC and we only assume these two are valid
			// auto does our own stuff, which doesn't work with what you see in DCC
			if (KeyTangentMode & FbxAnimCurveDef::eTangentBreak)
			{
				NewTangentMode = RCTM_Break;
			}
			else
			{
				NewTangentMode = RCTM_User;
			}

			// @fix me : weight of tangent is not used, but we'll just save this for future where we might use it. 
			switch (KeyTangentWeightMode)
			{
			case FbxAnimCurveDef::eWeightedNone://! Tangent has default weights of 0.333; we define this state as not weighted.
				LeaveTangentWeight = ArriveTangentWeight = DefaultCurveWeight;
				NewTangentWeightMode = RCTWM_WeightedNone;
				break;
			case FbxAnimCurveDef::eWeightedRight: //! Right tangent is weighted.
				NewTangentWeightMode = RCTWM_WeightedLeave;
				LeaveTangentWeight = Key.GetDataFloat(FbxAnimCurveDef::eRightWeight);
				ArriveTangentWeight = DefaultCurveWeight;
				break;
			case FbxAnimCurveDef::eWeightedNextLeft://! Left tangent is weighted.
				NewTangentWeightMode = RCTWM_WeightedArrive;
				LeaveTangentWeight = DefaultCurveWeight;
				if ( KeyIndex > 0 )
				{
					FbxAnimCurveKey PrevKey = FbxCurve->KeyGet(KeyIndex-1);
					ArriveTangentWeight = PrevKey.GetDataFloat(FbxAnimCurveDef::eNextLeftWeight);
				}
				else
				{
					ArriveTangentWeight = 0.f;
				}
				break;
			case FbxAnimCurveDef::eWeightedAll://! Both left and right tangents are weighted.
				NewTangentWeightMode = RCTWM_WeightedBoth;
				LeaveTangentWeight = Key.GetDataFloat(FbxAnimCurveDef::eRightWeight);
				if ( KeyIndex > 0 )
				{
					FbxAnimCurveKey PrevKey = FbxCurve->KeyGet(KeyIndex-1);
					ArriveTangentWeight = PrevKey.GetDataFloat(FbxAnimCurveDef::eNextLeftWeight);
				}
				else
				{
					ArriveTangentWeight = 0.f;
				}
				break;
			}

			Curve->FloatCurve.SetKeyInterpMode(NewKeyHandle, NewInterpMode);
			Curve->FloatCurve.SetKeyTangentMode(NewKeyHandle, NewTangentMode);
			Curve->FloatCurve.SetKeyTangentWeightMode(NewKeyHandle, NewTangentWeightMode);

			FRichCurveKey& NewKey = Curve->FloatCurve.GetKey(NewKeyHandle);
			// apply 1/100 - that seems like the tangent unit difference with FBX
			NewKey.ArriveTangent = ArriveTangent * 0.01f;
			NewKey.LeaveTangent = LeaveTangent * 0.01f;
			NewKey.ArriveTangentWeight = ArriveTangentWeight;
			NewKey.LeaveTangentWeight = LeaveTangentWeight;
		}

		return true;
	}

	return false;
}
Exemplo n.º 10
0
int32 UnFbx::FFbxImporter::GetMaxSampleRate(TArray<FbxNode*>& SortedLinks, TArray<FbxNode*>& NodeArray)
{
	int32 MaxStackResampleRate = 0;

	int32 AnimStackCount = Scene->GetSrcObjectCount<FbxAnimStack>();
	for( int32 AnimStackIndex = 0; AnimStackIndex < AnimStackCount; AnimStackIndex++)
	{
		FbxAnimStack* CurAnimStack = Scene->GetSrcObject<FbxAnimStack>(AnimStackIndex);

		FbxTimeSpan AnimStackTimeSpan = GetAnimationTimeSpan(SortedLinks[0], CurAnimStack);

		double AnimStackStart = AnimStackTimeSpan.GetStart().GetSecondDouble();
		double AnimStackStop = AnimStackTimeSpan.GetStop().GetSecondDouble();

		FbxAnimLayer* AnimLayer = (FbxAnimLayer*)CurAnimStack->GetMember(0);

		for(int32 LinkIndex = 0; LinkIndex < SortedLinks.Num(); ++LinkIndex)
		{
			FbxNode* CurrentLink = SortedLinks[LinkIndex];

			FbxAnimCurve* Curves[6];

			Curves[0] = CurrentLink->LclTranslation.GetCurve(AnimLayer, FBXSDK_CURVENODE_COMPONENT_X, false);
			Curves[1] = CurrentLink->LclTranslation.GetCurve(AnimLayer, FBXSDK_CURVENODE_COMPONENT_Y, false);
			Curves[2] = CurrentLink->LclTranslation.GetCurve(AnimLayer, FBXSDK_CURVENODE_COMPONENT_Z, false);
			Curves[3] = CurrentLink->LclRotation.GetCurve(AnimLayer, FBXSDK_CURVENODE_COMPONENT_X, false);
			Curves[4] = CurrentLink->LclRotation.GetCurve(AnimLayer, FBXSDK_CURVENODE_COMPONENT_Y, false);
			Curves[5] = CurrentLink->LclRotation.GetCurve(AnimLayer, FBXSDK_CURVENODE_COMPONENT_Z, false);

			for(int32 CurveIndex = 0; CurveIndex < 6; ++CurveIndex)
			{
				FbxAnimCurve* CurrentCurve = Curves[CurveIndex];
				if(CurrentCurve)
				{
					int32 KeyCount = CurrentCurve->KeyGetCount();

					FbxTimeSpan TimeInterval(FBXSDK_TIME_INFINITE,FBXSDK_TIME_MINUS_INFINITE);
					bool bValidTimeInterval = CurrentCurve->GetTimeInterval(TimeInterval);

 					if(KeyCount > 1 && bValidTimeInterval)
					{
						double KeyAnimLength = TimeInterval.GetDuration().GetSecondDouble();
						double KeyAnimStart = TimeInterval.GetStart().GetSecondDouble();
						double KeyAnimStop = TimeInterval.GetStop().GetSecondDouble();

						if(KeyAnimLength != 0.0)
						{
							// 30 fps animation has 31 keys because it includes index 0 key for 0.0 second
							int32 NewRate = FPlatformMath::RoundToInt((KeyCount-1) / KeyAnimLength);
							MaxStackResampleRate = FMath::Max(NewRate, MaxStackResampleRate);
						}
					}
				}
			}
		}
	}

	// Make sure we're not hitting 0 for samplerate
	if ( MaxStackResampleRate != 0 )
	{
		return MaxStackResampleRate;
	}

	return DEFAULT_SAMPLERATE;
}
Exemplo n.º 11
0
void FbxToHkxConverter::extractKeyFramesAndAnnotations(hkxScene *scene, FbxNode* fbxChildNode, hkxNode* newChildNode, int animStackIndex)
{
	FbxAMatrix bindPoseMatrix;
	FbxAnimStack* lAnimStack = NULL;
	int numAnimLayers = 0;
	FbxTimeSpan animTimeSpan;
	
	if (animStackIndex >= 0)
	{
		lAnimStack = m_curFbxScene->GetSrcObject<FbxAnimStack>(animStackIndex);
		numAnimLayers = lAnimStack->GetMemberCount<FbxAnimLayer>();
		animTimeSpan = lAnimStack->GetLocalTimeSpan();
	}

	// Find the time offset (in the "time space" of the FBX file) of the first animation frame
	FbxTime timePerFrame; timePerFrame.SetTime(0, 0, 0, 1, 0, m_curFbxScene->GetGlobalSettings().GetTimeMode());
	const FbxTime startTime = animTimeSpan.GetStart();
	const FbxTime endTime = animTimeSpan.GetStop();

	const hkReal startTimeSeconds = static_cast<hkReal>(startTime.GetSecondDouble());
	const hkReal endTimeSeconds = static_cast<hkReal>(endTime.GetSecondDouble());

	int numFrames = 0;
	bool staticNode = true;

	if (scene->m_sceneLength == 0)
	{
		bindPoseMatrix = fbxChildNode->EvaluateLocalTransform(startTime);
	}
	else
	{
		hkArray<hkStringOld> annotationStrings;
		hkArray<hkReal> annotationTimes;

		HK_ASSERT(0x0, newChildNode->m_keyFrames.getSize() == 0);

		// Sample each animation frame
		for (FbxTime time = startTime, priorSampleTime = endTime;
			 time < endTime;
			 priorSampleTime = time, time += timePerFrame, ++numFrames)
		{
			FbxAMatrix frameMatrix = fbxChildNode->EvaluateLocalTransform(time);
			staticNode = staticNode && (frameMatrix == bindPoseMatrix);

			hkMatrix4 mat;

			// Extract this frame's transform
			convertFbxXMatrixToMatrix4(frameMatrix, mat);
			newChildNode->m_keyFrames.pushBack(mat);

			// Extract all annotation strings for this frame using the deprecated
			// pipeline (new annotations are extracted when sampling attributes)
			if (m_options.m_exportAnnotations && numAnimLayers > 0)
			{
				FbxProperty prop = fbxChildNode->GetFirstProperty();
				while(prop.IsValid())
				{
					FbxString propName  = prop.GetName();
					FbxDataType lDataType = prop.GetPropertyDataType();
					hkStringOld name(propName.Buffer(), (int) propName.GetLen());
					if (name.asUpperCase().beginsWith("HK") && lDataType.GetType() == eFbxEnum)
					{
						FbxAnimLayer* lAnimLayer = lAnimStack->GetMember<FbxAnimLayer>(0);
						FbxAnimCurve* lAnimCurve = prop.GetCurve(lAnimLayer);

						int currentKeyIndex;
						const int keyIndex = (int) lAnimCurve->KeyFind(time, &currentKeyIndex);
						const int priorKeyIndex = (int) lAnimCurve->KeyFind(priorSampleTime);

						// Only store annotations on frames where they're explicitly keyframed, or if this is the first keyframe 
						if (priorKeyIndex != keyIndex)
						{
							const int currentEnumValueIndex = keyIndex < 0 ? (int) lAnimCurve->Evaluate(priorSampleTime) : (int) lAnimCurve->Evaluate(time);
							HK_ASSERT(0x0, currentEnumValueIndex < prop.GetEnumCount());
							const char* enumValue = prop.GetEnumValue(currentEnumValueIndex);
							hkxNode::AnnotationData& annotation = newChildNode->m_annotations.expandOne();
							annotation.m_time = (hkReal) (time - startTime).GetSecondDouble();
							annotation.m_description = (name + hkStringOld(enumValue, hkString::strLen(enumValue))).cString();
						}
					}
					prop = fbxChildNode->GetNextProperty(prop);
				}
			}
		}
	}

	// Replace animation key data for static nodes with just 1 or 2 frames of bind pose data
	if (staticNode)
	{
		// Static nodes in animated scene data are exported with two keys
		const bool exportTwoFramesForStaticNodes = (numFrames > 1);

		// replace transform
		newChildNode->m_keyFrames.setSize(exportTwoFramesForStaticNodes ? 2: 1);
		newChildNode->m_keyFrames.optimizeCapacity(0, true);

		// convert the bind pose transform to Havok format
		convertFbxXMatrixToMatrix4(bindPoseMatrix, newChildNode->m_keyFrames[0]);

		if (exportTwoFramesForStaticNodes)
		{
			newChildNode->m_keyFrames[1] = newChildNode->m_keyFrames[0];
		}
	}

	// Extract all times of actual keyframes for the current node... this can be used by Vision
	if ( m_options.m_storeKeyframeSamplePoints &&
		 newChildNode->m_keyFrames.getSize() > 2 &&
		 numAnimLayers > 0 )
	{
		FbxAnimLayer* lAnimLayer = lAnimStack->GetMember<FbxAnimLayer>(0);

		extractKeyTimes(fbxChildNode, lAnimLayer, FBXSDK_CURVENODE_TRANSLATION, newChildNode, startTimeSeconds, endTimeSeconds);
		extractKeyTimes(fbxChildNode, lAnimLayer, FBXSDK_CURVENODE_ROTATION, newChildNode, startTimeSeconds, endTimeSeconds);
		extractKeyTimes(fbxChildNode, lAnimLayer, FBXSDK_CURVENODE_SCALING, newChildNode, startTimeSeconds, endTimeSeconds);
		extractKeyTimes(fbxChildNode, lAnimLayer, FBXSDK_CURVENODE_COMPONENT_X, newChildNode, startTimeSeconds, endTimeSeconds);
		extractKeyTimes(fbxChildNode, lAnimLayer, FBXSDK_CURVENODE_COMPONENT_Y, newChildNode, startTimeSeconds, endTimeSeconds);
		extractKeyTimes(fbxChildNode, lAnimLayer, FBXSDK_CURVENODE_COMPONENT_Z, newChildNode, startTimeSeconds, endTimeSeconds);

		if (newChildNode->m_linearKeyFrameHints.getSize() > 1)
		{
			hkSort(newChildNode->m_linearKeyFrameHints.begin(), newChildNode->m_linearKeyFrameHints.getSize());
		}
	}
}
Exemplo n.º 12
0
void LoadNodeRecursive(FbxModelData* aModel,AnimationData& aAnimation,FbxNode* aNode,FbxAMatrix& aParentOrientation, FbxPose* aPose, FbxAnimLayer* aCurrentAnimLayer, int parentBone)
{
	parentBone;
	FbxAMatrix lGlobalPosition = GetGlobalPosition(aNode, static_cast<FbxTime>(0.0f), aPose, &aParentOrientation);
	FbxNodeAttribute* lNodeAttribute = aNode->GetNodeAttribute();
		
	if (lNodeAttribute && lNodeAttribute->GetAttributeType() == FbxNodeAttribute::eSkeleton)
	{
		return;
	}

	CU::Matrix44f fixMatrix;
	fixMatrix = CU::Matrix44<float>::CreateReflectionMatrixAboutAxis(CU::Vector3f(1, 0, 0));

	FbxAMatrix lGeometryOffset = GetGeometry(aNode);
	FbxAMatrix lGlobalOffPosition = lGlobalPosition * lGeometryOffset;

	FbxAMatrix lRotationOffset = GetRotaionPivot(aNode);

	aModel->myRotationPivot = fixMatrix * CreateMatrix(lRotationOffset) * fixMatrix;

	aModel->myOrientation = fixMatrix * CreateMatrix(lGlobalOffPosition) * fixMatrix;

	int boneId = -1;
	if (lNodeAttribute)
	{

		if(lNodeAttribute->GetAttributeType() == FbxNodeAttribute::eMesh)
		{
			aModel->myData = new ModelData();
			aModel->myData->myLayout.Init(8);
				
			// Geometry offset.
			// it is not inherited by the children.
			FillData(aModel->myData, aNode, &aAnimation);
		}
		else if (lNodeAttribute->GetAttributeType() == FbxNodeAttribute::eLight)
		{
			FBXLight* newLight = new FBXLight();
			FbxLight* light = aNode->GetLight();
				
			newLight->myIntensity = static_cast<float>(light->Intensity);
			auto color = light->Color.Get();
			newLight->myColor = CU::Vector3<float>(static_cast<float>(color.mData[0]), static_cast<float>(color.mData[1]), static_cast<float>(color.mData[2]));

			auto type = light->LightType.Get();
			if (type == FbxLight::eDirectional)
			{
				newLight->myType = EDirectionalLight;
			}
			else if (type == FbxLight::ePoint)
			{
				newLight->myType = EPointLight;
			}
			else if (type == FbxLight::eSpot)
			{
				newLight->myInnerAngle = static_cast<float>(light->InnerAngle);
				newLight->myOuterAngle = static_cast<float>(light->OuterAngle);
			}
				
			aModel->myLight = newLight;
		}
		else if (lNodeAttribute->GetAttributeType() == FbxNodeAttribute::eCamera)
		{
			aModel->myCamera = new Camera();
			auto orgCamera = aNode->GetCamera();
			aModel->myCamera->myFov = static_cast<float>(orgCamera->FieldOfViewY);
		}
		FbxTimeSpan animationInterval;
			
		if (aNode->GetAnimationInterval(animationInterval))
		{
			aModel->myAnimationCurves = new AnimationCurves();
			aModel->myAnimationCurves->myRotationCurve[0] = aNode->LclRotation.GetCurve(aCurrentAnimLayer, FBXSDK_CURVENODE_COMPONENT_X);
			aModel->myAnimationCurves->myRotationCurve[1] = aNode->LclRotation.GetCurve(aCurrentAnimLayer, FBXSDK_CURVENODE_COMPONENT_Y);
			aModel->myAnimationCurves->myRotationCurve[2] = aNode->LclRotation.GetCurve(aCurrentAnimLayer, FBXSDK_CURVENODE_COMPONENT_Z);
			aModel->myAnimationCurves->myRotationCurve[3] = aNode->LclRotation.GetCurve(aCurrentAnimLayer, FBXSDK_CURVENODE_ROTATION);
			aModel->myAnimationCurves->myScalingCurve[0] = aNode->LclScaling.GetCurve(aCurrentAnimLayer, FBXSDK_CURVENODE_COMPONENT_X);
			aModel->myAnimationCurves->myScalingCurve[1] = aNode->LclScaling.GetCurve(aCurrentAnimLayer, FBXSDK_CURVENODE_COMPONENT_Y);
			aModel->myAnimationCurves->myScalingCurve[2] = aNode->LclScaling.GetCurve(aCurrentAnimLayer, FBXSDK_CURVENODE_COMPONENT_Z);
			aModel->myAnimationCurves->myTtranslationCurve[0] = aNode->LclTranslation.GetCurve(aCurrentAnimLayer, FBXSDK_CURVENODE_COMPONENT_X);
			aModel->myAnimationCurves->myTtranslationCurve[1] = aNode->LclTranslation.GetCurve(aCurrentAnimLayer, FBXSDK_CURVENODE_COMPONENT_Y);
			aModel->myAnimationCurves->myTtranslationCurve[2] = aNode->LclTranslation.GetCurve(aCurrentAnimLayer, FBXSDK_CURVENODE_COMPONENT_Z);

			int nrOfKeys = 0;
			nrOfKeys;

			float startTime = (float)animationInterval.GetStart().GetSecondDouble();
			float endTime = (float)animationInterval.GetStop().GetSecondDouble();

			aModel->myAnimatedOrientation.Init((int)((endTime - startTime) / (1.0f / 24.0f)));

			for (float currentTime = startTime; currentTime < endTime; currentTime += 1.0f / 24.0f)
			{
				FbxTime time;
				time.SetSecondDouble(currentTime);

				KeyFrame animationFrame;
				animationFrame.myTime = currentTime;
					
				animationFrame.myMatrix = fixMatrix * CreateMatrix(aNode->EvaluateLocalTransform(time)) * fixMatrix;
				aModel->myAnimatedOrientation.Add(animationFrame);
			}
		}
	}

	const int lChildCount = aNode->GetChildCount();
	if(lChildCount > 0)
	{
		aModel->myChilds.Init(lChildCount);
		for (int lChildIndex = 0; lChildIndex < lChildCount; ++lChildIndex)
		{
			aModel->myChilds.Add(new FbxModelData());
			
			LoadNodeRecursive(aModel->myChilds.GetLast(), aAnimation, aNode->GetChild(lChildIndex), lGlobalPosition , aPose, aCurrentAnimLayer, boneId);
		}
	}
}