Ejemplo n.º 1
0
/**
* For the given text, constructs a mesh to be used by the vertex factory for rendering.
*/
bool  FTextRenderSceneProxy::BuildStringMesh( TArray<FDynamicMeshVertex>& OutVertices, TArray<uint16>& OutIndices )
{
	if(!Font || Text.IsEmpty())
	{
		return false;
	}

	float FirstLineHeight = -1; // Only kept around for legacy positioning support
	float StartY = 0;

	const float CharIncrement = ( (float)Font->Kerning + HorizSpacingAdjust ) * XScale;

	float LineX = 0;

	const int32 PageIndex = 0;

	FTextIterator It(*Text.ToString());
	while (It.NextLine())
	{
		FVector2D LineSize = ComputeTextSize(It, Font, XScale, YScale, HorizSpacingAdjust);
		float StartX = ComputeHorizontalAlignmentOffset(LineSize, HorizontalAlignment);

		if (FirstLineHeight < 0)
		{
			FirstLineHeight = LineSize.Y;
		}

		LineX = 0;
		int32 Ch;

		while (It.NextCharacterInLine(Ch))
		{
			Ch = (int32)Font->RemapChar(Ch);

			if(!Font->Characters.IsValidIndex(Ch + PageIndex))
			{
				continue;
			}

			FFontCharacter& Char = Font->Characters[Ch + PageIndex];

			if(!Font->Textures.IsValidIndex(Char.TextureIndex))
			{
				continue;
			}

			UTexture2D* Tex = Font->Textures[Char.TextureIndex];

			if(Tex)
			{
				FIntPoint ImportedTextureSize = Tex->GetImportedSize();
				FVector2D InvTextureSize(1.0f / (float)ImportedTextureSize.X, 1.0f / (float)ImportedTextureSize.Y);

				const float X      = LineX + StartX;
				const float Y      = StartY + Char.VerticalOffset * YScale;
				float SizeX = Char.USize * XScale;
				const float SizeY = Char.VSize * YScale;
				const float U		= Char.StartU * InvTextureSize.X;
				const float V		= Char.StartV * InvTextureSize.Y;
				const float SizeU	= Char.USize * InvTextureSize.X;
				const float SizeV	= Char.VSize * InvTextureSize.Y;			

				float Left = X;
				float Top = Y;
				float Right = X + SizeX;
				float Bottom = Y + SizeY;

				// axis choice and sign to get good alignment when placed on surface
				FVector4 V0 = FVector4(0, -Left, -Top, 0);
				FVector4 V1 = FVector4(0, -Right, -Top, 0);
				FVector4 V2 = FVector4(0, -Left, -Bottom, 0);
				FVector4 V3 = FVector4(0, -Right, -Bottom, 0);

				FVector TangentX(0, -1, 0);
				FVector TangentY(0, 0, -1);
				FVector TangentZ(1, 0, 0);

				int32 V00 = OutVertices.Add(FDynamicMeshVertex(V0, TangentX, TangentZ, FVector2D(U, V), TextRenderColor));
				int32 V10 = OutVertices.Add(FDynamicMeshVertex(V1, TangentX, TangentZ, FVector2D(U + SizeU, V), TextRenderColor));
				int32 V01 = OutVertices.Add(FDynamicMeshVertex(V2, TangentX, TangentZ, FVector2D(U, V + SizeV), TextRenderColor));
				int32 V11 = OutVertices.Add(FDynamicMeshVertex(V3, TangentX, TangentZ, FVector2D(U + SizeU, V + SizeV), TextRenderColor));

				check(V00 < 65536);
				check(V10 < 65536);
				check(V01 < 65536);
				check(V11 < 65536);

				OutIndices.Add(V00);
				OutIndices.Add(V11);
				OutIndices.Add(V10);

				OutIndices.Add(V00);
				OutIndices.Add(V01);
				OutIndices.Add(V11);

				// if we have another non-whitespace character to render, add the font's kerning.
				int32 NextChar;
				if( It.Peek(NextChar) && !FChar::IsWhitespace(NextChar) )
				{
					SizeX += CharIncrement;
				}

				LineX += SizeX;
			}
		}

		// Move Y position down to next line. If the current line is empty, move by max char height in font
		StartY += LineSize.Y > 0 ? LineSize.Y : Font->GetMaxCharHeight();
	}

	// Avoid initializing RHI resources when no vertices are generated.
	return (OutVertices.Num() > 0);
}
Ejemplo n.º 2
0
void UNavMeshRenderingComponent::GatherData(struct FNavMeshSceneProxyData* CurrentData) const
{
#if WITH_RECAST
	const ARecastNavMesh* NavMesh = Cast<ARecastNavMesh>(GetOwner());

	CurrentData->Reset();
	CurrentData->bEnableDrawing = NavMesh->bEnableDrawing;
	CurrentData->bNeedsNewData = false;

	if (CurrentData && NavMesh && NavMesh->bEnableDrawing)
	{
		FHitProxyId HitProxyId = FHitProxyId();
		CurrentData->bDrawPathCollidingGeometry = NavMesh->bDrawPathCollidingGeometry;

		CurrentData->NavMeshDrawOffset.Z = NavMesh->DrawOffset;
		CurrentData->NavMeshGeometry.bGatherPolyEdges = NavMesh->bDrawPolyEdges;
		CurrentData->NavMeshGeometry.bGatherNavMeshEdges = NavMesh->bDrawNavMeshEdges;

		const FNavDataConfig& NavConfig = NavMesh->GetConfig();
		CurrentData->NavMeshColors[RECAST_DEFAULT_AREA] = NavConfig.Color.DWColor() > 0 ? NavConfig.Color : NavMeshRenderColor_RecastMesh;
		for (uint8 i = 0; i < RECAST_DEFAULT_AREA; ++i)
		{
			CurrentData->NavMeshColors[i] = NavMesh->GetAreaIDColor(i);
		}

		// just a little trick to make sure navmeshes with different sized are not drawn with same offset
		CurrentData->NavMeshDrawOffset.Z += NavMesh->GetConfig().AgentRadius / 10.f;

		NavMesh->BeginBatchQuery();

		if (NavMesh->bDrawOctree)
		{
			const UNavigationSystem* NavSys = UNavigationSystem::GetCurrent(GetWorld());
			const FNavigationOctree* NavOctree = NavSys ? NavSys->GetNavOctree() : NULL;
			if (NavOctree)
			{
				for (FNavigationOctree::TConstIterator<> NodeIt(*NavOctree); NodeIt.HasPendingNodes(); NodeIt.Advance())
				{
					const FNavigationOctree::FNode& CurrentNode = NodeIt.GetCurrentNode();
					const FOctreeNodeContext& CorrentContext = NodeIt.GetCurrentContext();
					CurrentData->OctreeBounds.Add(CorrentContext.Bounds);

					FOREACH_OCTREE_CHILD_NODE(ChildRef)
					{
						if (CurrentNode.HasChild(ChildRef))
						{
							NodeIt.PushChild(ChildRef);
						}
					}
				}
			}
		}

		NavMesh->GetDebugGeometry(CurrentData->NavMeshGeometry);
		const TArray<FVector>& MeshVerts = CurrentData->NavMeshGeometry.MeshVerts;

		// @fixme, this is going to double up on lots of interior lines
		if (NavMesh->bDrawTriangleEdges)
		{
			for (int32 AreaIdx = 0; AreaIdx < RECAST_MAX_AREAS; ++AreaIdx)
			{
				const TArray<int32>& MeshIndices = CurrentData->NavMeshGeometry.AreaIndices[AreaIdx];
				for (int32 Idx=0; Idx<MeshIndices.Num(); Idx += 3)
				{
					CurrentData->ThickLineItems.Add(FNavMeshSceneProxyData::FDebugThickLine(MeshVerts[MeshIndices[Idx + 0]] + CurrentData->NavMeshDrawOffset, MeshVerts[MeshIndices[Idx + 1]] + CurrentData->NavMeshDrawOffset, NavMeshRenderColor_Recast_TriangleEdges, DefaultEdges_LineThickness));
					CurrentData->ThickLineItems.Add(FNavMeshSceneProxyData::FDebugThickLine(MeshVerts[MeshIndices[Idx + 1]] + CurrentData->NavMeshDrawOffset, MeshVerts[MeshIndices[Idx + 2]] + CurrentData->NavMeshDrawOffset, NavMeshRenderColor_Recast_TriangleEdges, DefaultEdges_LineThickness));
					CurrentData->ThickLineItems.Add(FNavMeshSceneProxyData::FDebugThickLine(MeshVerts[MeshIndices[Idx + 2]] + CurrentData->NavMeshDrawOffset, MeshVerts[MeshIndices[Idx + 0]] + CurrentData->NavMeshDrawOffset, NavMeshRenderColor_Recast_TriangleEdges, DefaultEdges_LineThickness));
				}
			}
		}

		// make lines for tile edges
		if (NavMesh->bDrawPolyEdges)
		{
			const TArray<FVector>& TileEdgeVerts = CurrentData->NavMeshGeometry.PolyEdges;
			for (int32 Idx=0; Idx < TileEdgeVerts.Num(); Idx += 2)
			{
				CurrentData->TileEdgeLines.Add( FDebugRenderSceneProxy::FDebugLine(TileEdgeVerts[Idx] + CurrentData->NavMeshDrawOffset, TileEdgeVerts[Idx+1] + CurrentData->NavMeshDrawOffset, NavMeshRenderColor_Recast_TileEdges));
			}
		}

		// make lines for navmesh edges
		if (NavMesh->bDrawNavMeshEdges)
		{
			const FColor EdgesColor = DarkenColor(CurrentData->NavMeshColors[RECAST_DEFAULT_AREA]);
			const TArray<FVector>& NavMeshEdgeVerts = CurrentData->NavMeshGeometry.NavMeshEdges;
			for (int32 Idx=0; Idx < NavMeshEdgeVerts.Num(); Idx += 2)
			{
				CurrentData->NavMeshEdgeLines.Add( FDebugRenderSceneProxy::FDebugLine(NavMeshEdgeVerts[Idx] + CurrentData->NavMeshDrawOffset, NavMeshEdgeVerts[Idx+1] + CurrentData->NavMeshDrawOffset, EdgesColor));
			}
		}

		// offset all navigation-link positions
		if (!NavMesh->bDrawClusters)
		{
			for (int32 OffMeshLineIndex = 0; OffMeshLineIndex < CurrentData->NavMeshGeometry.OffMeshLinks.Num(); ++OffMeshLineIndex)
			{
				FRecastDebugGeometry::FOffMeshLink& Link = CurrentData->NavMeshGeometry.OffMeshLinks[OffMeshLineIndex];
				const bool bLinkValid = (Link.ValidEnds & FRecastDebugGeometry::OMLE_Left) && (Link.ValidEnds & FRecastDebugGeometry::OMLE_Right);

				if (NavMesh->bDrawFailedNavLinks || (NavMesh->bDrawNavLinks && bLinkValid))
				{
					const FVector V0 = Link.Left + CurrentData->NavMeshDrawOffset;
					const FVector V1 = Link.Right + CurrentData->NavMeshDrawOffset;
					const FColor LinkColor = ((Link.Direction && Link.ValidEnds) || (Link.ValidEnds & FRecastDebugGeometry::OMLE_Left)) ? DarkenColor(CurrentData->NavMeshColors[Link.AreaID]) : NavMeshRenderColor_OffMeshConnectionInvalid;

					CacheArc(CurrentData->NavLinkLines, V0, V1, 0.4f, 4, LinkColor, LinkLines_LineThickness);

					const FVector VOffset(0, 0, FVector::Dist(V0, V1) * 1.333f);
					CacheArrowHead(CurrentData->NavLinkLines, V1, V0+VOffset, 30.f, LinkColor, LinkLines_LineThickness);
					if (Link.Direction)
					{
						CacheArrowHead(CurrentData->NavLinkLines, V0, V1+VOffset, 30.f, LinkColor, LinkLines_LineThickness);
					}

					// if the connection as a whole is valid check if there are any of ends is invalid
					if (LinkColor != NavMeshRenderColor_OffMeshConnectionInvalid)
					{
						if (Link.Direction && (Link.ValidEnds & FRecastDebugGeometry::OMLE_Left) == 0)
						{
							// left end invalid - mark it
							DrawWireCylinder(CurrentData->NavLinkLines, V0, FVector(1,0,0), FVector(0,1,0), FVector(0,0,1), NavMeshRenderColor_OffMeshConnectionInvalid, Link.Radius, NavMesh->AgentMaxStepHeight, 16, 0, DefaultEdges_LineThickness);
						}
						if ((Link.ValidEnds & FRecastDebugGeometry::OMLE_Right) == 0)
						{
							DrawWireCylinder(CurrentData->NavLinkLines, V1, FVector(1,0,0), FVector(0,1,0), FVector(0,0,1), NavMeshRenderColor_OffMeshConnectionInvalid, Link.Radius, NavMesh->AgentMaxStepHeight, 16, 0, DefaultEdges_LineThickness);
						}
					}
				}					
			}
		}

		if (NavMesh->bDrawTileLabels || NavMesh->bDrawPolygonLabels || NavMesh->bDrawDefaultPolygonCost || NavMesh->bDrawTileBounds)
		{
			// calculate appropriate points for displaying debug labels
			const int32 TilesCount = NavMesh->GetNavMeshTilesCount();
			CurrentData->DebugLabels.Reserve(TilesCount);

			for (int32 TileIndex = 0; TileIndex < TilesCount; ++TileIndex)
			{
				int32 X, Y, Layer;
				if (NavMesh->GetNavMeshTileXY(TileIndex, X, Y, Layer))
				{
					const FBox TileBoundingBox = NavMesh->GetNavMeshTileBounds(TileIndex);
					FVector TileLabelLocation = TileBoundingBox.GetCenter();
					TileLabelLocation.Z = TileBoundingBox.Max.Z;

					FNavLocation NavLocation(TileLabelLocation);
					if (!NavMesh->ProjectPoint(TileLabelLocation, NavLocation, FVector(NavMesh->TileSizeUU/100, NavMesh->TileSizeUU/100, TileBoundingBox.Max.Z-TileBoundingBox.Min.Z)))
					{
						NavMesh->ProjectPoint(TileLabelLocation, NavLocation, FVector(NavMesh->TileSizeUU/2, NavMesh->TileSizeUU/2, TileBoundingBox.Max.Z-TileBoundingBox.Min.Z));
					}

					if (NavMesh->bDrawTileLabels)
					{
						CurrentData->DebugLabels.Add(FNavMeshSceneProxyData::FDebugText(
							/*Location*/NavLocation.Location + CurrentData->NavMeshDrawOffset
							, /*Text*/FString::Printf(TEXT("(%d,%d:%d)"), X, Y, Layer)
							));
					}

					if (NavMesh->bDrawPolygonLabels || NavMesh->bDrawDefaultPolygonCost)
					{
						TArray<FNavPoly> Polys;
						NavMesh->GetPolysInTile(TileIndex, Polys);

						if (NavMesh->bDrawDefaultPolygonCost)
						{
							float DefaultCosts[RECAST_MAX_AREAS];
							float FixedCosts[RECAST_MAX_AREAS];

							NavMesh->GetDefaultQueryFilter()->GetAllAreaCosts(DefaultCosts, FixedCosts, RECAST_MAX_AREAS);

							for(int k = 0; k < Polys.Num(); ++k)
							{
								uint32 AreaID = NavMesh->GetPolyAreaID(Polys[k].Ref);

								CurrentData->DebugLabels.Add(FNavMeshSceneProxyData::FDebugText(
									/*Location*/Polys[k].Center + CurrentData->NavMeshDrawOffset
									, /*Text*/FString::Printf(TEXT("\\%.3f; %.3f\\"), DefaultCosts[AreaID], FixedCosts[AreaID])
									));
							}
						}
						else
						{
							for(int k = 0; k < Polys.Num(); ++k)
							{
								uint32 NavPolyIndex = 0;
								uint32 NavTileIndex = 0;
								NavMesh->GetPolyTileIndex(Polys[k].Ref, NavPolyIndex, NavTileIndex);

								CurrentData->DebugLabels.Add(FNavMeshSceneProxyData::FDebugText(
									/*Location*/Polys[k].Center + CurrentData->NavMeshDrawOffset
									, /*Text*/FString::Printf(TEXT("[%X:%X]"), NavTileIndex, NavPolyIndex)
									));
							}
						}
					}							

					if (NavMesh->bDrawTileBounds)
					{
						FBox TileBox = NavMesh->GetNavMeshTileBounds(TileIndex);

						float DrawZ = (TileBox.Min.Z + TileBox.Max.Z) * 0.5f;		// @hack average
						FVector LL(TileBox.Min.X, TileBox.Min.Y, DrawZ);
						FVector UR(TileBox.Max.X, TileBox.Max.Y, DrawZ);
						FVector UL(LL.X, UR.Y, DrawZ);
						FVector LR(UR.X, LL.Y, DrawZ);
						CurrentData->ThickLineItems.Add(FNavMeshSceneProxyData::FDebugThickLine(LL, UL, NavMeshRenderColor_TileBounds, DefaultEdges_LineThickness));
						CurrentData->ThickLineItems.Add(FNavMeshSceneProxyData::FDebugThickLine(UL, UR, NavMeshRenderColor_TileBounds, DefaultEdges_LineThickness));
						CurrentData->ThickLineItems.Add(FNavMeshSceneProxyData::FDebugThickLine(UR, LR, NavMeshRenderColor_TileBounds, DefaultEdges_LineThickness));
						CurrentData->ThickLineItems.Add(FNavMeshSceneProxyData::FDebugThickLine(LR, LL, NavMeshRenderColor_TileBounds, DefaultEdges_LineThickness));
					}
				}
			}
		}

		CurrentData->bSkipDistanceCheck = GIsEditor && (GEngine->GetDebugLocalPlayer() == NULL);
		CurrentData->bDrawClusters = NavMesh->bDrawClusters;
		NavMesh->FinishBatchQuery();

		// Draw Mesh
		if (NavMesh->bDrawClusters)
		{
			for (int32 Idx = 0; Idx < CurrentData->NavMeshGeometry.Clusters.Num(); ++Idx)
			{
				const TArray<int32>& MeshIndices = CurrentData->NavMeshGeometry.Clusters[Idx].MeshIndices;

				if (MeshIndices.Num() == 0)
				{
					continue;
				}

				FNavMeshSceneProxyData::FDebugMeshData DebugMeshData;
				DebugMeshData.ClusterColor = GetClusterColor(Idx);
				for (int32 VertIdx=0; VertIdx < MeshVerts.Num(); ++VertIdx)
				{
					AddVertexHelper(DebugMeshData, MeshVerts[VertIdx] + CurrentData->NavMeshDrawOffset, DebugMeshData.ClusterColor);
				}
				for (int32 TriIdx=0; TriIdx < MeshIndices.Num(); TriIdx+=3)
				{
					AddTriangleHelper(DebugMeshData, MeshIndices[TriIdx], MeshIndices[TriIdx+1], MeshIndices[TriIdx+2]);
				}

				CurrentData->MeshBuilders.Add(DebugMeshData);
			}
		}
		else if (NavMesh->bDrawNavMesh)
		{			
			for (int32 AreaType = 0; AreaType < RECAST_MAX_AREAS; ++AreaType)
			{
				const TArray<int32>& MeshIndices = CurrentData->NavMeshGeometry.AreaIndices[AreaType];

				if (MeshIndices.Num() == 0)
				{
					continue;
				}

				FNavMeshSceneProxyData::FDebugMeshData DebugMeshData;
				for (int32 VertIdx=0; VertIdx < MeshVerts.Num(); ++VertIdx)
				{
					AddVertexHelper(DebugMeshData, MeshVerts[VertIdx] + CurrentData->NavMeshDrawOffset, CurrentData->NavMeshColors[AreaType]);
				}
				for (int32 TriIdx=0; TriIdx < MeshIndices.Num(); TriIdx+=3)
				{
					AddTriangleHelper(DebugMeshData, MeshIndices[TriIdx], MeshIndices[TriIdx+1], MeshIndices[TriIdx+2]);
				}

				DebugMeshData.ClusterColor = CurrentData->NavMeshColors[AreaType];
				CurrentData->MeshBuilders.Add(DebugMeshData);
			}
		}

		if (NavMesh->bDrawPathCollidingGeometry)
		{
			// draw all geometry gathered in navoctree
			const FNavigationOctree* NavOctree = NavMesh->GetWorld()->GetNavigationSystem()->GetNavOctree();

			TArray<FVector> PathCollidingGeomVerts;
			TArray <int32> PathCollidingGeomIndices;
			for (FNavigationOctree::TConstIterator<> It(*NavOctree); It.HasPendingNodes(); It.Advance())
			{
				const FNavigationOctree::FNode& Node = It.GetCurrentNode();
				for (FNavigationOctree::ElementConstIt ElementIt(Node.GetElementIt()); ElementIt; ElementIt++)
				{
					const FNavigationOctreeElement& Element = *ElementIt;
					if (Element.ShouldUseGeometry(&NavMesh->NavDataConfig) && Element.Data.CollisionData.Num())
					{
						const FRecastGeometryCache CachedGeometry(Element.Data.CollisionData.GetData());
						AppendGeometry(PathCollidingGeomVerts, PathCollidingGeomIndices, CachedGeometry.Verts, CachedGeometry.Header.NumVerts, CachedGeometry.Indices, CachedGeometry.Header.NumFaces);
					}
				}
				FOREACH_OCTREE_CHILD_NODE(ChildRef)
				{
					if (Node.HasChild(ChildRef))
					{
						It.PushChild(ChildRef);
					}
				}
			}
			CurrentData->PathCollidingGeomIndices = PathCollidingGeomIndices;
			for (const auto& Vertex : PathCollidingGeomVerts)
			{
				CurrentData->PathCollidingGeomVerts.Add(FDynamicMeshVertex(Vertex));
			}

		}

		if (CurrentData->NavMeshGeometry.BuiltMeshIndices.Num() > 0)
		{
			FNavMeshSceneProxyData::FDebugMeshData DebugMeshData;
			for (int32 VertIdx=0; VertIdx < MeshVerts.Num(); ++VertIdx)
			{
				AddVertexHelper(DebugMeshData, MeshVerts[VertIdx] + CurrentData->NavMeshDrawOffset, NavMeshRenderColor_RecastTileBeingRebuilt);
			}
			DebugMeshData.Indices.Append(CurrentData->NavMeshGeometry.BuiltMeshIndices);
			DebugMeshData.ClusterColor = NavMeshRenderColor_RecastTileBeingRebuilt;
			CurrentData->MeshBuilders.Add(DebugMeshData);

			// updates should be requested by FRecastNavMeshGenerator::TickAsyncBuild after tiles were refreshed
		}

		if (NavMesh->bDrawClusters)
		{
			for (int i = 0; i < CurrentData->NavMeshGeometry.ClusterLinks.Num(); i++)
			{
				const FRecastDebugGeometry::FClusterLink& CLink = CurrentData->NavMeshGeometry.ClusterLinks[i];
				const FVector V0 = CLink.FromCluster + CurrentData->NavMeshDrawOffset;
				const FVector V1 = CLink.ToCluster + CurrentData->NavMeshDrawOffset + FVector(0,0,20.0f);

				CacheArc(CurrentData->ClusterLinkLines, V0, V1, 0.4f, 4, FColor::Black, ClusterLinkLines_LineThickness);
				const FVector VOffset(0, 0, FVector::Dist(V0, V1) * 1.333f);
				CacheArrowHead(CurrentData->ClusterLinkLines, V1, V0+VOffset, 30.f, FColor::Black, ClusterLinkLines_LineThickness);
			}
		}

		// cache segment links
		if (NavMesh->bDrawNavLinks)
		{
			for (int32 iArea = 0; iArea < RECAST_MAX_AREAS; iArea++)
			{
				const TArray<int32>& Indices = CurrentData->NavMeshGeometry.OffMeshSegmentAreas[iArea];
				FNavMeshSceneProxyData::FDebugMeshData DebugMeshData;
				int32 VertBase = 0;

				for (int32 i = 0; i < Indices.Num(); i++)
				{
					FRecastDebugGeometry::FOffMeshSegment& SegInfo = CurrentData->NavMeshGeometry.OffMeshSegments[Indices[i]];
					const FVector A0 = SegInfo.LeftStart + CurrentData->NavMeshDrawOffset;
					const FVector A1 = SegInfo.LeftEnd + CurrentData->NavMeshDrawOffset;
					const FVector B0 = SegInfo.RightStart + CurrentData->NavMeshDrawOffset;
					const FVector B1 = SegInfo.RightEnd + CurrentData->NavMeshDrawOffset;
					const FVector Edge0 = B0 - A0;
					const FVector Edge1 = B1 - A1;
					const float Len0 = Edge0.Size();
					const float Len1 = Edge1.Size();
					const FColor SegColor = DarkenColor(CurrentData->NavMeshColors[SegInfo.AreaID]);
					const FColor ColA = (SegInfo.ValidEnds & FRecastDebugGeometry::OMLE_Left) ? FColor::White : FColor::Black;
					const FColor ColB = (SegInfo.ValidEnds & FRecastDebugGeometry::OMLE_Right) ? FColor::White : FColor::Black;

					const int32 NumArcPoints = 8;
					const float ArcPtsScale = 1.0f / NumArcPoints;

					FVector Prev0 = EvalArc(A0, Edge0, Len0*0.25f, 0);
					FVector Prev1 = EvalArc(A1, Edge1, Len1*0.25f, 0);
					AddVertexHelper(DebugMeshData, Prev0, ColA);
					AddVertexHelper(DebugMeshData, Prev1, ColA);
					for (int32 j = 1; j <= NumArcPoints; j++)
					{
						const float u = j * ArcPtsScale;
						FVector Pt0 = EvalArc(A0, Edge0, Len0*0.25f, u);
						FVector Pt1 = EvalArc(A1, Edge1, Len1*0.25f, u);

						AddVertexHelper(DebugMeshData, Pt0, (j == NumArcPoints) ? ColB : FColor::White);
						AddVertexHelper(DebugMeshData, Pt1, (j == NumArcPoints) ? ColB : FColor::White);

						AddTriangleHelper(DebugMeshData, VertBase+0, VertBase+2, VertBase+1);
						AddTriangleHelper(DebugMeshData, VertBase+2, VertBase+3, VertBase+1);
						AddTriangleHelper(DebugMeshData, VertBase+0, VertBase+1, VertBase+2);
						AddTriangleHelper(DebugMeshData, VertBase+2, VertBase+1, VertBase+3);

						VertBase += 2;
						Prev0 = Pt0;
						Prev1 = Pt1;
					}
					VertBase += 2;

					DebugMeshData.ClusterColor = SegColor;
				}

				if (DebugMeshData.Indices.Num())
				{
					CurrentData->MeshBuilders.Add(DebugMeshData);
				}
			}
		}

		CurrentData->NavMeshGeometry.PolyEdges.Empty();
		CurrentData->NavMeshGeometry.NavMeshEdges.Empty();
	}
Ejemplo n.º 3
0
FDebugRenderSceneProxy* FGameplayDebuggerCategory_AI::CreateSceneProxy(const UPrimitiveComponent* InComponent)
{
	class FPathDebugRenderSceneProxy : public FDebugRenderSceneProxy
	{
	public:
		FPathDebugRenderSceneProxy(const UPrimitiveComponent* InPrimitiveCComponent, const FString &InViewFlagName)
			: FDebugRenderSceneProxy(InPrimitiveCComponent)
		{
			DrawType = FDebugRenderSceneProxy::SolidAndWireMeshes;
			DrawAlpha = 90;
			ViewFlagName = InViewFlagName;
			ViewFlagIndex = uint32(FEngineShowFlags::FindIndexByName(*ViewFlagName));
		}

		FPrimitiveViewRelevance GetViewRelevance(const FSceneView* View) const override
		{
			FPrimitiveViewRelevance Result;
			Result.bDrawRelevance = View->Family->EngineShowFlags.GetSingleFlag(ViewFlagIndex);// IsShown(View);
			Result.bDynamicRelevance = true;
			// ideally the TranslucencyRelevance should be filled out by the material, here we do it conservative
			Result.bSeparateTranslucencyRelevance = Result.bNormalTranslucencyRelevance = IsShown(View);
			return Result;
		}
	};

	if (PathDataPack.PathCorridor.Num())
	{
		TArray<FDebugRenderSceneProxy::FMesh> Meshes;
		TArray<FDebugRenderSceneProxy::FDebugLine> Lines;

		for (int32 Idx = 0; Idx < PathDataPack.PathCorridor.Num(); Idx++)
		{
			const FRepDataPath::FPoly& Poly = PathDataPack.PathCorridor[Idx];
			if (Poly.Points.Num() > 2)
			{
				FDebugRenderSceneProxy::FMesh PolyMesh;
				PolyMesh.Vertices.Add(FDynamicMeshVertex(Poly.Points[0]));
				PolyMesh.Color = Poly.Color;

				for (int32 VertIdx = 2; VertIdx < Poly.Points.Num(); VertIdx++)
				{
					PolyMesh.Vertices.Add(FDynamicMeshVertex(Poly.Points[VertIdx - 1]));
					PolyMesh.Vertices.Add(FDynamicMeshVertex(Poly.Points[VertIdx]));

					PolyMesh.Indices.Add(0);
					PolyMesh.Indices.Add(PolyMesh.Vertices.Num() - 2);
					PolyMesh.Indices.Add(PolyMesh.Vertices.Num() - 1);
				}

				Meshes.Add(PolyMesh);
			}

			for (int32 VertIdx = 0; VertIdx < Poly.Points.Num(); VertIdx++)
			{
				Lines.Add(FDebugRenderSceneProxy::FDebugLine(
					Poly.Points[VertIdx], Poly.Points[(VertIdx + 1) % Poly.Points.Num()],
					Poly.Color, 2.0f));
			}
		}

		const FString ViewFlagName = GetSceneProxyViewFlag();
		FPathDebugRenderSceneProxy* DebugSceneProxy = new FPathDebugRenderSceneProxy(InComponent, ViewFlagName);
		DebugSceneProxy->Lines = Lines;
		DebugSceneProxy->Meshes = Meshes;
		return DebugSceneProxy;
	}

	return nullptr;
}