static bool IsSegmentInfoSuitable(NetInfo.Segment segmentInfo)
{
if (segmentInfo == null)
{
return(false);
}
if (!segmentInfo.m_mesh || !segmentInfo.m_material)
{
return(false);
}
if (segmentInfo.m_material.name.Contains("NetworkTiling"))
{
return(false);
}
if (!segmentInfo.m_material.TryGetTexture2D(TextureUtils.ID_Defuse))
{
return(false);
}
return(segmentInfo.CheckFlags(NetSegment.Flags.None, out _));
}
private void RenderInstance(ref NetSegment This, RenderManager.CameraInfo cameraInfo, ushort segmentID, int layerMask, NetInfo info, ref RenderManager.Instance data)
{
NetManager instance = Singleton <NetManager> .instance;
if (data.m_dirty)
{
data.m_dirty = false;
Vector3 position = instance.m_nodes.m_buffer[m_startNode].m_position;
Vector3 position2 = instance.m_nodes.m_buffer[m_endNode].m_position;
data.m_position = (position + position2) * 0.5f;
data.m_rotation = Quaternion.identity;
data.m_dataColor0 = info.m_color;
data.m_dataColor0.a = 0f;
data.m_dataFloat0 = Singleton <WeatherManager> .instance.GetWindSpeed(data.m_position);
data.m_dataVector0 = new Vector4(0.5f / info.m_halfWidth, 1f / info.m_segmentLength, 1f, 1f);
Vector4 colorLocation = RenderManager.GetColorLocation((uint)(49152 + segmentID));
Vector4 vector = colorLocation;
if (NetNode.BlendJunction(m_startNode))
{
colorLocation = RenderManager.GetColorLocation((uint)(86016 + m_startNode));
}
if (NetNode.BlendJunction(m_endNode))
{
vector = RenderManager.GetColorLocation((uint)(86016 + m_endNode));
}
data.m_dataVector3 = new Vector4(colorLocation.x, colorLocation.y, vector.x, vector.y);
if (info.m_segments == null || info.m_segments.Length == 0)
{
if (info.m_lanes != null)
{
bool invert;
if ((m_flags & Flags.Invert) != 0)
{
invert = true;
instance.m_nodes.m_buffer[m_endNode].Info.m_netAI.GetNodeState(m_endNode, ref instance.m_nodes.m_buffer[m_endNode], segmentID, ref This, out _, out _); // unused code
instance.m_nodes.m_buffer[m_startNode].Info.m_netAI.GetNodeState(m_startNode, ref instance.m_nodes.m_buffer[m_startNode], segmentID, ref This, out _, out _); // unused code
}
else
{
invert = false;
instance.m_nodes.m_buffer[m_startNode].Info.m_netAI.GetNodeState(m_startNode, ref instance.m_nodes.m_buffer[m_startNode], segmentID, ref This, out _, out _); // unused code
instance.m_nodes.m_buffer[m_endNode].Info.m_netAI.GetNodeState(m_endNode, ref instance.m_nodes.m_buffer[m_endNode], segmentID, ref This, out _, out _); // unused code
}
float startAngle = (float)(int)m_cornerAngleStart * ((float)Math.PI / 128f);
float endAngle = (float)(int)m_cornerAngleEnd * ((float)Math.PI / 128f);
int propIndex = 0;
uint num = m_lanes;
for (int i = 0; i < info.m_lanes.Length; i++)
{
if (num == 0)
{
break;
}
instance.m_lanes.m_buffer[num].RefreshInstance(num, info.m_lanes[i], startAngle, endAngle, invert, ref data, ref propIndex);
num = instance.m_lanes.m_buffer[num].m_nextLane;
}
}
}
else
{
float vScale = info.m_netAI.GetVScale();
CalculateCorner(segmentID, heightOffset: true, start: true, leftSide: true, out var posSL, out var dirSL, out var smoothStart);
CalculateCorner(segmentID, heightOffset: true, start: false, leftSide: true, out var posEL, out var dirEL, out var smoothEnd);
CalculateCorner(segmentID, heightOffset: true, start: true, leftSide: false, out var posSR, out var dirSR, out smoothStart);
CalculateCorner(segmentID, heightOffset: true, start: false, leftSide: false, out var posER, out var dirER, out smoothEnd);
CalculateMiddlePoints(posSL, dirSL, posER, dirER, smoothStart, smoothEnd, out var b1, out var c1);
CalculateMiddlePoints(posSR, dirSR, posEL, dirEL, smoothStart, smoothEnd, out var b2, out var c2);
data.m_dataMatrix0 = CalculateControlMatrix(posSL, b1, c1, posER, posSR, b2, c2, posEL, data.m_position, vScale);
data.m_dataMatrix1 = CalculateControlMatrix(posSR, b2, c2, posEL, posSL, b1, c1, posER, data.m_position, vScale);
}
if (info.m_requireSurfaceMaps)
{
Singleton <TerrainManager> .instance.GetSurfaceMapping(data.m_position, out data.m_dataTexture0, out data.m_dataTexture1, out data.m_dataVector1);
}
else if (info.m_requireHeightMap)
{
Singleton <TerrainManager> .instance.GetHeightMapping(data.m_position, out data.m_dataTexture0, out data.m_dataVector1, out data.m_dataVector2);
}
}
if (info.m_segments != null && (layerMask & info.m_netLayers) != 0)
{
for (int j = 0; j < info.m_segments.Length; j++)
{
NetInfo.Segment segment = info.m_segments[j];
if (!segment.CheckFlags(m_flags, out var turnAround))
{
continue;
}
Vector4 objectIndex = data.m_dataVector3;
Vector4 meshScale = data.m_dataVector0;
if (segment.m_requireWindSpeed)
{
objectIndex.w = data.m_dataFloat0;
}
if (turnAround)
{
meshScale.x = 0f - meshScale.x;
meshScale.y = 0f - meshScale.y;
}
if (cameraInfo.CheckRenderDistance(data.m_position, segment.m_lodRenderDistance))
{
instance.m_materialBlock.Clear();
instance.m_materialBlock.SetMatrix(instance.ID_LeftMatrix, data.m_dataMatrix0);
instance.m_materialBlock.SetMatrix(instance.ID_RightMatrix, data.m_dataMatrix1);
instance.m_materialBlock.SetVector(instance.ID_MeshScale, meshScale);
instance.m_materialBlock.SetVector(instance.ID_ObjectIndex, objectIndex);
instance.m_materialBlock.SetColor(instance.ID_Color, data.m_dataColor0);
if (segment.m_requireSurfaceMaps && data.m_dataTexture0 != null)
{
instance.m_materialBlock.SetTexture(instance.ID_SurfaceTexA, data.m_dataTexture0);
instance.m_materialBlock.SetTexture(instance.ID_SurfaceTexB, data.m_dataTexture1);
instance.m_materialBlock.SetVector(instance.ID_SurfaceMapping, data.m_dataVector1);
}
else if (segment.m_requireHeightMap && data.m_dataTexture0 != null)
{
instance.m_materialBlock.SetTexture(instance.ID_HeightMap, data.m_dataTexture0);
instance.m_materialBlock.SetVector(instance.ID_HeightMapping, data.m_dataVector1);
instance.m_materialBlock.SetVector(instance.ID_SurfaceMapping, data.m_dataVector2);
}
instance.m_drawCallData.m_defaultCalls++;
Graphics.DrawMesh(segment.m_segmentMesh, data.m_position, data.m_rotation, segment.m_segmentMaterial, segment.m_layer, null, 0, instance.m_materialBlock);
continue;
}
NetInfo.LodValue combinedLod = segment.m_combinedLod;
if (combinedLod == null)
{
continue;
}
if (segment.m_requireSurfaceMaps)
{
if (data.m_dataTexture0 != combinedLod.m_surfaceTexA)
{
if (combinedLod.m_lodCount != 0)
{
RenderLod(cameraInfo, combinedLod);
}
combinedLod.m_surfaceTexA = data.m_dataTexture0;
combinedLod.m_surfaceTexB = data.m_dataTexture1;
combinedLod.m_surfaceMapping = data.m_dataVector1;
}
}
else if (segment.m_requireHeightMap && data.m_dataTexture0 != combinedLod.m_heightMap)
{
if (combinedLod.m_lodCount != 0)
{
RenderLod(cameraInfo, combinedLod);
}
combinedLod.m_heightMap = data.m_dataTexture0;
combinedLod.m_heightMapping = data.m_dataVector1;
combinedLod.m_surfaceMapping = data.m_dataVector2;
}
ref Matrix4x4 reference = ref combinedLod.m_leftMatrices[combinedLod.m_lodCount];
reference = data.m_dataMatrix0;
ref Matrix4x4 reference2 = ref combinedLod.m_rightMatrices[combinedLod.m_lodCount];
reference2 = data.m_dataMatrix1;
combinedLod.m_meshScales[combinedLod.m_lodCount] = meshScale;
combinedLod.m_objectIndices[combinedLod.m_lodCount] = objectIndex;
ref Vector4 reference3 = ref combinedLod.m_meshLocations[combinedLod.m_lodCount];
public void PopulateGroupData(ushort segmentID, int groupX, int groupZ, int layer, ref int vertexIndex, ref int triangleIndex, Vector3 groupPosition, RenderGroup.MeshData data, ref Vector3 min, ref Vector3 max, ref float maxRenderDistance, ref float maxInstanceDistance, ref bool requireSurfaceMaps)
{
bool hasProps = false;
NetInfo info = Info;
NetManager instance = Singleton <NetManager> .instance;
if (m_problems != Notification.Problem.None && layer == Singleton <NotificationManager> .instance.m_notificationLayer)
{
Vector3 middlePosition = m_middlePosition;
middlePosition.y += info.m_maxHeight;
Notification.PopulateGroupData(m_problems, middlePosition, 1f, groupX, groupZ, ref vertexIndex, ref triangleIndex, groupPosition, data, ref min, ref max, ref maxRenderDistance, ref maxInstanceDistance);
}
if (info.m_hasForwardVehicleLanes != info.m_hasBackwardVehicleLanes && layer == Singleton <NetManager> .instance.m_arrowLayer)
{
Bezier3 bezier = default(Bezier3);
bezier.a = Singleton <NetManager> .instance.m_nodes.m_buffer[m_startNode].m_position;
bezier.d = Singleton <NetManager> .instance.m_nodes.m_buffer[m_endNode].m_position;
CalculateMiddlePoints(bezier.a, m_startDirection, bezier.d, m_endDirection, smoothStart: true, smoothEnd: true, out bezier.b, out bezier.c);
Vector3 pos = bezier.Position(0.5f);
pos.y += info.m_netAI.GetSnapElevation();
Vector3 vector = VectorUtils.NormalizeXZ(bezier.Tangent(0.5f)) * (4f + info.m_halfWidth * 0.5f);
if ((m_flags & Flags.Invert) != 0 == info.m_hasForwardVehicleLanes)
{
vector = -vector;
}
PopulateArrowGroupData(pos, vector, ref vertexIndex, ref triangleIndex, groupPosition, data, ref min, ref max, ref maxRenderDistance, ref maxInstanceDistance);
}
if (info.m_lanes != null)
{
bool invert;
NetNode.Flags flags;
NetNode.Flags flags2;
if ((m_flags & Flags.Invert) != 0)
{
invert = true;
instance.m_nodes.m_buffer[m_endNode].Info.m_netAI.GetNodeFlags(m_endNode, ref instance.m_nodes.m_buffer[m_endNode], segmentID, ref this, out flags);
instance.m_nodes.m_buffer[m_startNode].Info.m_netAI.GetNodeFlags(m_startNode, ref instance.m_nodes.m_buffer[m_startNode], segmentID, ref this, out flags2);
}
else
{
invert = false;
instance.m_nodes.m_buffer[m_startNode].Info.m_netAI.GetNodeFlags(m_startNode, ref instance.m_nodes.m_buffer[m_startNode], segmentID, ref this, out flags);
instance.m_nodes.m_buffer[m_endNode].Info.m_netAI.GetNodeFlags(m_endNode, ref instance.m_nodes.m_buffer[m_endNode], segmentID, ref this, out flags2);
}
bool terrainHeight = info.m_segments == null || info.m_segments.Length == 0;
float startAngle = (float)(int)m_cornerAngleStart * ((float)Math.PI / 128f);
float endAngle = (float)(int)m_cornerAngleEnd * ((float)Math.PI / 128f);
bool destroyed = (m_flags & Flags.Collapsed) != 0;
uint num = m_lanes;
for (int i = 0; i < info.m_lanes.Length; i++)
{
if (num == 0)
{
break;
}
instance.m_lanes.m_buffer[num].PopulateGroupData(segmentID, num, info.m_lanes[i], destroyed, flags, flags2, startAngle, endAngle, invert, terrainHeight, layer, ref vertexIndex, ref triangleIndex, groupPosition, data, ref min, ref max, ref maxRenderDistance, ref maxInstanceDistance, ref hasProps);
num = instance.m_lanes.m_buffer[num].m_nextLane;
}
}
if ((info.m_netLayers & (1 << layer)) == 0)
{
return;
}
bool flag = info.m_segments != null && info.m_segments.Length != 0;
if (!flag && !hasProps)
{
return;
}
min = Vector3.Min(min, m_bounds.min);
max = Vector3.Max(max, m_bounds.max);
maxRenderDistance = Mathf.Max(maxRenderDistance, 30000f);
maxInstanceDistance = Mathf.Max(maxInstanceDistance, 1000f);
if (!flag)
{
return;
}
float vScale = info.m_netAI.GetVScale();
CalculateCorner(segmentID, heightOffset: true, start: true, leftSide: true, out var cornerPosSL, out var cornerDirectionSL, out var smoothStart);
CalculateCorner(segmentID, heightOffset: true, start: false, leftSide: true, out var cornerPosEL, out var cornerDirectionEL, out var smoothEnd);
CalculateCorner(segmentID, heightOffset: true, start: true, leftSide: false, out var cornerPosSR, out var cornerDirectionSR, out smoothStart);
CalculateCorner(segmentID, heightOffset: true, start: false, leftSide: false, out var cornerPosER, out var cornerDirectionER, out smoothEnd);
CalculateMiddlePoints(cornerPosSL, cornerDirectionSL, cornerPosER, cornerDirectionER, smoothStart, smoothEnd, out var b1, out var c1);
CalculateMiddlePoints(cornerPosSR, cornerDirectionSR, cornerPosEL, cornerDirectionEL, smoothStart, smoothEnd, out var b2, out var c2);
Vector3 position = instance.m_nodes.m_buffer[m_startNode].m_position;
Vector3 position2 = instance.m_nodes.m_buffer[m_endNode].m_position;
Vector4 meshScale = new Vector4(0.5f / info.m_halfWidth, 1f / info.m_segmentLength, 1f, 1f);
Vector4 colorLocationStart = RenderManager.GetColorLocation((uint)(49152 + segmentID));
Vector4 colorlocationEnd = colorLocationStart;
if (NetNode.BlendJunction(m_startNode))
{
colorLocationStart = RenderManager.GetColorLocation((uint)(86016 + m_startNode));
}
if (NetNode.BlendJunction(m_endNode))
{
colorlocationEnd = RenderManager.GetColorLocation((uint)(86016 + m_endNode));
}
Vector4 objectIndex0 = new Vector4(colorLocationStart.x, colorLocationStart.y, colorlocationEnd.x, colorlocationEnd.y);
for (int j = 0; j < info.m_segments.Length; j++)
{
NetInfo.Segment segment = info.m_segments[j];
bool turnAround = false;
if (segment.m_layer == layer && segment.CheckFlags(m_flags, out turnAround) && segment.m_combinedLod != null)
{
Vector4 objectIndex = objectIndex0;
if (segment.m_requireWindSpeed)
{
objectIndex.w = Singleton <WeatherManager> .instance.GetWindSpeed((position + position2) * 0.5f);
}
else if (turnAround)
{
objectIndex = new Vector4(objectIndex.z, objectIndex.w, objectIndex.x, objectIndex.y);
}
Matrix4x4 leftMatrix;
Matrix4x4 rightMatrix;
if (turnAround)
{
leftMatrix = CalculateControlMatrix(cornerPosEL, c2, b2, cornerPosSR, cornerPosER, c1, b1, cornerPosSL, groupPosition, vScale);
rightMatrix = CalculateControlMatrix(cornerPosER, c1, b1, cornerPosSL, cornerPosEL, c2, b2, cornerPosSR, groupPosition, vScale);
}
else
{
leftMatrix = CalculateControlMatrix(cornerPosSL, b1, c1, cornerPosER, cornerPosSR, b2, c2, cornerPosEL, groupPosition, vScale);
rightMatrix = CalculateControlMatrix(cornerPosSR, b2, c2, cornerPosEL, cornerPosSL, b1, c1, cornerPosER, groupPosition, vScale);
}
PopulateGroupData(info, segment, leftMatrix, rightMatrix, meshScale, objectIndex, ref vertexIndex, ref triangleIndex, groupPosition, data, ref requireSurfaceMaps);
}
}
}
public bool CalculateGroupData(ushort segmentID, int layer, ref int vertexCount, ref int triangleCount, ref int objectCount, ref RenderGroup.VertexArrays vertexArrays)
{
bool result = false;
bool hasProps = false;
NetInfo info = Info;
if (m_problems != Notification.Problem.None && layer == Singleton <NotificationManager> .instance.m_notificationLayer && Notification.CalculateGroupData(ref vertexCount, ref triangleCount, ref objectCount, ref vertexArrays))
{
result = true;
}
if (info.m_hasForwardVehicleLanes != info.m_hasBackwardVehicleLanes && layer == Singleton <NetManager> .instance.m_arrowLayer && CalculateArrowGroupData(ref vertexCount, ref triangleCount, ref objectCount, ref vertexArrays))
{
result = true;
}
if (info.m_lanes != null)
{
bool invert;
NetNode.Flags flags;
NetNode.Flags flags2;
if ((m_flags & Flags.Invert) != 0)
{
invert = true;
m_endNode.ToNode().Info.m_netAI.GetNodeFlags(m_endNode, ref m_endNode.ToNode(), segmentID, ref this, out flags);
m_startNode.ToNode().Info.m_netAI.GetNodeFlags(m_startNode, ref m_startNode.ToNode(), segmentID, ref this, out flags2);
}
else
{
invert = false;
m_startNode.ToNode().Info.m_netAI.GetNodeFlags(m_startNode, ref m_startNode.ToNode(), segmentID, ref this, out flags);
m_endNode.ToNode().Info.m_netAI.GetNodeFlags(m_endNode, ref m_endNode.ToNode(), segmentID, ref this, out flags2);
}
bool destroyed = (m_flags & Flags.Collapsed) != 0;
uint laneID = m_lanes;
for (int i = 0; i < info.m_lanes.Length; i++)
{
if (laneID == 0)
{
break;
}
if (laneID.ToLane().CalculateGroupData(laneID, info.m_lanes[i], destroyed, flags, flags2, invert, layer, ref vertexCount, ref triangleCount, ref objectCount, ref vertexArrays, ref hasProps))
{
result = true;
}
laneID = laneID.ToLane().m_nextLane;
}
}
if ((info.m_netLayers & (1 << layer)) != 0)
{
bool hasSegments = !info.m_segments.IsNullorEmpty();
if (hasSegments || hasProps)
{
result = true;
if (hasSegments)
{
for (int i = 0; i < info.m_segments.Length; i++)
{
NetInfo.Segment segmentInfo = info.m_segments[i];
if (segmentInfo.m_layer == layer && segmentInfo.CheckFlags(m_flags, out _) && segmentInfo.m_combinedLod != null)
{
CalculateGroupData(segmentInfo, ref vertexCount, ref triangleCount, ref objectCount, ref vertexArrays);
}
}
}
}
}
return(result);
}
// NetNode
// Token: 0x060034C1 RID: 13505 RVA: 0x0023A834 File Offset: 0x00238C34
private void RenderInstance(RenderManager.CameraInfo cameraInfo, ushort nodeID, NetInfo info, int iter, NetNode.Flags flags, ref uint instanceIndex, ref RenderManager.Instance data)
{
if (data.m_dirty)
{
data.m_dirty = false;
if (iter == 0)
{
if ((flags & NetNode.Flags.Junction) != NetNode.Flags.None)
{
this.RefreshJunctionData(nodeID, info, instanceIndex);
}
else if ((flags & NetNode.Flags.Bend) != NetNode.Flags.None)
{
this.RefreshBendData(nodeID, info, instanceIndex, ref data);
}
else if ((flags & NetNode.Flags.End) != NetNode.Flags.None)
{
this.RefreshEndData(nodeID, info, instanceIndex, ref data);
}
}
}
if (data.m_initialized)
{
if ((flags & NetNode.Flags.Junction) != NetNode.Flags.None)
{
if ((data.m_dataInt0 & 8) != 0)
{
ushort segment = this.GetSegment(data.m_dataInt0 & 7);
ushort segment2 = this.GetSegment(data.m_dataInt0 >> 4);
if (segment != 0 && segment2 != 0)
{
NetManager instance = Singleton <NetManager> .instance;
info = instance.m_segments.m_buffer[(int)segment].Info;
NetInfo info2 = instance.m_segments.m_buffer[(int)segment2].Info;
NetNode.Flags flags2 = flags;
if (((instance.m_segments.m_buffer[(int)segment].m_flags | instance.m_segments.m_buffer[(int)segment2].m_flags) & NetSegment.Flags.Collapsed) != NetSegment.Flags.None)
{
flags2 |= NetNode.Flags.Collapsed;
}
for (int i = 0; i < info.m_nodes.Length; i++)
{
NetInfo.Node node = info.m_nodes[i];
if (node.CheckFlags(flags2) && node.m_directConnect && (node.m_connectGroup == NetInfo.ConnectGroup.None || (node.m_connectGroup & info2.m_connectGroup & NetInfo.ConnectGroup.AllGroups) != NetInfo.ConnectGroup.None))
{
Vector4 dataVector = data.m_dataVector3;
Vector4 dataVector2 = data.m_dataVector0;
if (node.m_requireWindSpeed)
{
dataVector.w = data.m_dataFloat0;
}
if ((node.m_connectGroup & NetInfo.ConnectGroup.Oneway) != NetInfo.ConnectGroup.None)
{
bool flag = instance.m_segments.m_buffer[(int)segment].m_startNode == nodeID == ((instance.m_segments.m_buffer[(int)segment].m_flags & NetSegment.Flags.Invert) == NetSegment.Flags.None);
if (info2.m_hasBackwardVehicleLanes != info2.m_hasForwardVehicleLanes || (node.m_connectGroup & NetInfo.ConnectGroup.Directional) != NetInfo.ConnectGroup.None)
{
bool flag2 = instance.m_segments.m_buffer[(int)segment2].m_startNode == nodeID == ((instance.m_segments.m_buffer[(int)segment2].m_flags & NetSegment.Flags.Invert) == NetSegment.Flags.None);
if (flag == flag2)
{
goto IL_570;
}
}
if (flag)
{
if ((node.m_connectGroup & NetInfo.ConnectGroup.OnewayStart) == NetInfo.ConnectGroup.None)
{
goto IL_570;
}
}
else
{
if ((node.m_connectGroup & NetInfo.ConnectGroup.OnewayEnd) == NetInfo.ConnectGroup.None)
{
goto IL_570;
}
dataVector2.x = -dataVector2.x;
dataVector2.y = -dataVector2.y;
}
}
if (cameraInfo.CheckRenderDistance(data.m_position, node.m_lodRenderDistance))
{
instance.m_materialBlock.Clear();
instance.m_materialBlock.SetMatrix(instance.ID_LeftMatrix, data.m_dataMatrix0);
instance.m_materialBlock.SetMatrix(instance.ID_RightMatrix, data.m_extraData.m_dataMatrix2);
instance.m_materialBlock.SetVector(instance.ID_MeshScale, dataVector2);
instance.m_materialBlock.SetVector(instance.ID_ObjectIndex, dataVector);
instance.m_materialBlock.SetColor(instance.ID_Color, data.m_dataColor0);
if (node.m_requireSurfaceMaps && data.m_dataTexture1 != null)
{
instance.m_materialBlock.SetTexture(instance.ID_SurfaceTexA, data.m_dataTexture0);
instance.m_materialBlock.SetTexture(instance.ID_SurfaceTexB, data.m_dataTexture1);
instance.m_materialBlock.SetVector(instance.ID_SurfaceMapping, data.m_dataVector1);
}
NetManager netManager = instance;
netManager.m_drawCallData.m_defaultCalls = netManager.m_drawCallData.m_defaultCalls + 1;
Graphics.DrawMesh(node.m_nodeMesh, data.m_position, data.m_rotation, node.m_nodeMaterial, node.m_layer, null, 0, instance.m_materialBlock);
}
else
{
NetInfo.LodValue combinedLod = node.m_combinedLod;
if (combinedLod != null)
{
if (node.m_requireSurfaceMaps && data.m_dataTexture0 != combinedLod.m_surfaceTexA)
{
if (combinedLod.m_lodCount != 0)
{
NetSegment.RenderLod(cameraInfo, combinedLod);
}
combinedLod.m_surfaceTexA = data.m_dataTexture0;
combinedLod.m_surfaceTexB = data.m_dataTexture1;
combinedLod.m_surfaceMapping = data.m_dataVector1;
}
combinedLod.m_leftMatrices[combinedLod.m_lodCount] = data.m_dataMatrix0;
combinedLod.m_rightMatrices[combinedLod.m_lodCount] = data.m_extraData.m_dataMatrix2;
combinedLod.m_meshScales[combinedLod.m_lodCount] = dataVector2;
combinedLod.m_objectIndices[combinedLod.m_lodCount] = dataVector;
combinedLod.m_meshLocations[combinedLod.m_lodCount] = data.m_position;
combinedLod.m_lodMin = Vector3.Min(combinedLod.m_lodMin, data.m_position);
combinedLod.m_lodMax = Vector3.Max(combinedLod.m_lodMax, data.m_position);
if (++combinedLod.m_lodCount == combinedLod.m_leftMatrices.Length)
{
NetSegment.RenderLod(cameraInfo, combinedLod);
}
}
}
}
IL_570 :;
}
}
}
else
{
ushort segment3 = this.GetSegment(data.m_dataInt0 & 7);
if (segment3 != 0)
{
NetManager instance2 = Singleton <NetManager> .instance;
info = instance2.m_segments.m_buffer[(int)segment3].Info;
for (int j = 0; j < info.m_nodes.Length; j++)
{
NetInfo.Node node2 = info.m_nodes[j];
if (node2.CheckFlags(flags) && !node2.m_directConnect)
{
Vector4 dataVector3 = data.m_extraData.m_dataVector4;
if (node2.m_requireWindSpeed)
{
dataVector3.w = data.m_dataFloat0;
}
if (cameraInfo.CheckRenderDistance(data.m_position, node2.m_lodRenderDistance))
{
instance2.m_materialBlock.Clear();
instance2.m_materialBlock.SetMatrix(instance2.ID_LeftMatrix, data.m_dataMatrix0);
instance2.m_materialBlock.SetMatrix(instance2.ID_RightMatrix, data.m_extraData.m_dataMatrix2);
instance2.m_materialBlock.SetMatrix(instance2.ID_LeftMatrixB, data.m_extraData.m_dataMatrix3);
instance2.m_materialBlock.SetMatrix(instance2.ID_RightMatrixB, data.m_dataMatrix1);
instance2.m_materialBlock.SetVector(instance2.ID_MeshScale, data.m_dataVector0);
instance2.m_materialBlock.SetVector(instance2.ID_CenterPos, data.m_dataVector1);
instance2.m_materialBlock.SetVector(instance2.ID_SideScale, data.m_dataVector2);
instance2.m_materialBlock.SetVector(instance2.ID_ObjectIndex, dataVector3);
instance2.m_materialBlock.SetColor(instance2.ID_Color, data.m_dataColor0);
if (node2.m_requireSurfaceMaps && data.m_dataTexture1 != null)
{
instance2.m_materialBlock.SetTexture(instance2.ID_SurfaceTexA, data.m_dataTexture0);
instance2.m_materialBlock.SetTexture(instance2.ID_SurfaceTexB, data.m_dataTexture1);
instance2.m_materialBlock.SetVector(instance2.ID_SurfaceMapping, data.m_dataVector3);
}
NetManager netManager2 = instance2;
netManager2.m_drawCallData.m_defaultCalls = netManager2.m_drawCallData.m_defaultCalls + 1;
Graphics.DrawMesh(node2.m_nodeMesh, data.m_position, data.m_rotation, node2.m_nodeMaterial, node2.m_layer, null, 0, instance2.m_materialBlock);
}
else
{
NetInfo.LodValue combinedLod2 = node2.m_combinedLod;
if (combinedLod2 != null)
{
if (node2.m_requireSurfaceMaps && data.m_dataTexture0 != combinedLod2.m_surfaceTexA)
{
if (combinedLod2.m_lodCount != 0)
{
NetNode.RenderLod(cameraInfo, combinedLod2);
}
combinedLod2.m_surfaceTexA = data.m_dataTexture0;
combinedLod2.m_surfaceTexB = data.m_dataTexture1;
combinedLod2.m_surfaceMapping = data.m_dataVector3;
}
combinedLod2.m_leftMatrices[combinedLod2.m_lodCount] = data.m_dataMatrix0;
combinedLod2.m_leftMatricesB[combinedLod2.m_lodCount] = data.m_extraData.m_dataMatrix3;
combinedLod2.m_rightMatrices[combinedLod2.m_lodCount] = data.m_extraData.m_dataMatrix2;
combinedLod2.m_rightMatricesB[combinedLod2.m_lodCount] = data.m_dataMatrix1;
combinedLod2.m_meshScales[combinedLod2.m_lodCount] = data.m_dataVector0;
combinedLod2.m_centerPositions[combinedLod2.m_lodCount] = data.m_dataVector1;
combinedLod2.m_sideScales[combinedLod2.m_lodCount] = data.m_dataVector2;
combinedLod2.m_objectIndices[combinedLod2.m_lodCount] = dataVector3;
combinedLod2.m_meshLocations[combinedLod2.m_lodCount] = data.m_position;
combinedLod2.m_lodMin = Vector3.Min(combinedLod2.m_lodMin, data.m_position);
combinedLod2.m_lodMax = Vector3.Max(combinedLod2.m_lodMax, data.m_position);
if (++combinedLod2.m_lodCount == combinedLod2.m_leftMatrices.Length)
{
NetNode.RenderLod(cameraInfo, combinedLod2);
}
}
}
}
}
}
}
}
else if ((flags & NetNode.Flags.End) != NetNode.Flags.None)
{
NetManager instance3 = Singleton <NetManager> .instance;
for (int k = 0; k < info.m_nodes.Length; k++)
{
NetInfo.Node node3 = info.m_nodes[k];
if (node3.CheckFlags(flags) && !node3.m_directConnect)
{
Vector4 dataVector4 = data.m_extraData.m_dataVector4;
if (node3.m_requireWindSpeed)
{
dataVector4.w = data.m_dataFloat0;
}
if (cameraInfo.CheckRenderDistance(data.m_position, node3.m_lodRenderDistance))
{
instance3.m_materialBlock.Clear();
instance3.m_materialBlock.SetMatrix(instance3.ID_LeftMatrix, data.m_dataMatrix0);
instance3.m_materialBlock.SetMatrix(instance3.ID_RightMatrix, data.m_extraData.m_dataMatrix2);
instance3.m_materialBlock.SetMatrix(instance3.ID_LeftMatrixB, data.m_extraData.m_dataMatrix3);
instance3.m_materialBlock.SetMatrix(instance3.ID_RightMatrixB, data.m_dataMatrix1);
instance3.m_materialBlock.SetVector(instance3.ID_MeshScale, data.m_dataVector0);
instance3.m_materialBlock.SetVector(instance3.ID_CenterPos, data.m_dataVector1);
instance3.m_materialBlock.SetVector(instance3.ID_SideScale, data.m_dataVector2);
instance3.m_materialBlock.SetVector(instance3.ID_ObjectIndex, dataVector4);
instance3.m_materialBlock.SetColor(instance3.ID_Color, data.m_dataColor0);
if (node3.m_requireSurfaceMaps && data.m_dataTexture1 != null)
{
instance3.m_materialBlock.SetTexture(instance3.ID_SurfaceTexA, data.m_dataTexture0);
instance3.m_materialBlock.SetTexture(instance3.ID_SurfaceTexB, data.m_dataTexture1);
instance3.m_materialBlock.SetVector(instance3.ID_SurfaceMapping, data.m_dataVector3);
}
NetManager netManager3 = instance3;
netManager3.m_drawCallData.m_defaultCalls = netManager3.m_drawCallData.m_defaultCalls + 1;
Graphics.DrawMesh(node3.m_nodeMesh, data.m_position, data.m_rotation, node3.m_nodeMaterial, node3.m_layer, null, 0, instance3.m_materialBlock);
}
else
{
NetInfo.LodValue combinedLod3 = node3.m_combinedLod;
if (combinedLod3 != null)
{
if (node3.m_requireSurfaceMaps && data.m_dataTexture0 != combinedLod3.m_surfaceTexA)
{
if (combinedLod3.m_lodCount != 0)
{
NetNode.RenderLod(cameraInfo, combinedLod3);
}
combinedLod3.m_surfaceTexA = data.m_dataTexture0;
combinedLod3.m_surfaceTexB = data.m_dataTexture1;
combinedLod3.m_surfaceMapping = data.m_dataVector3;
}
combinedLod3.m_leftMatrices[combinedLod3.m_lodCount] = data.m_dataMatrix0;
combinedLod3.m_leftMatricesB[combinedLod3.m_lodCount] = data.m_extraData.m_dataMatrix3;
combinedLod3.m_rightMatrices[combinedLod3.m_lodCount] = data.m_extraData.m_dataMatrix2;
combinedLod3.m_rightMatricesB[combinedLod3.m_lodCount] = data.m_dataMatrix1;
combinedLod3.m_meshScales[combinedLod3.m_lodCount] = data.m_dataVector0;
combinedLod3.m_centerPositions[combinedLod3.m_lodCount] = data.m_dataVector1;
combinedLod3.m_sideScales[combinedLod3.m_lodCount] = data.m_dataVector2;
combinedLod3.m_objectIndices[combinedLod3.m_lodCount] = dataVector4;
combinedLod3.m_meshLocations[combinedLod3.m_lodCount] = data.m_position;
combinedLod3.m_lodMin = Vector3.Min(combinedLod3.m_lodMin, data.m_position);
combinedLod3.m_lodMax = Vector3.Max(combinedLod3.m_lodMax, data.m_position);
if (++combinedLod3.m_lodCount == combinedLod3.m_leftMatrices.Length)
{
NetNode.RenderLod(cameraInfo, combinedLod3);
}
}
}
}
}
}
else if ((flags & NetNode.Flags.Bend) != NetNode.Flags.None)
{
NetManager instance4 = Singleton <NetManager> .instance;
for (int l = 0; l < info.m_segments.Length; l++)
{
NetInfo.Segment segment4 = info.m_segments[l];
bool flag3;
if (segment4.CheckFlags(info.m_netAI.GetBendFlags(nodeID, ref this), out flag3) && !segment4.m_disableBendNodes)
{
Vector4 dataVector5 = data.m_dataVector3;
Vector4 dataVector6 = data.m_dataVector0;
if (segment4.m_requireWindSpeed)
{
dataVector5.w = data.m_dataFloat0;
}
if (flag3)
{
dataVector6.x = -dataVector6.x;
dataVector6.y = -dataVector6.y;
}
if (cameraInfo.CheckRenderDistance(data.m_position, segment4.m_lodRenderDistance))
{
instance4.m_materialBlock.Clear();
instance4.m_materialBlock.SetMatrix(instance4.ID_LeftMatrix, data.m_dataMatrix0);
instance4.m_materialBlock.SetMatrix(instance4.ID_RightMatrix, data.m_extraData.m_dataMatrix2);
instance4.m_materialBlock.SetVector(instance4.ID_MeshScale, dataVector6);
instance4.m_materialBlock.SetVector(instance4.ID_ObjectIndex, dataVector5);
instance4.m_materialBlock.SetColor(instance4.ID_Color, data.m_dataColor0);
if (segment4.m_requireSurfaceMaps && data.m_dataTexture1 != null)
{
instance4.m_materialBlock.SetTexture(instance4.ID_SurfaceTexA, data.m_dataTexture0);
instance4.m_materialBlock.SetTexture(instance4.ID_SurfaceTexB, data.m_dataTexture1);
instance4.m_materialBlock.SetVector(instance4.ID_SurfaceMapping, data.m_dataVector1);
}
NetManager netManager4 = instance4;
netManager4.m_drawCallData.m_defaultCalls = netManager4.m_drawCallData.m_defaultCalls + 1;
Graphics.DrawMesh(segment4.m_segmentMesh, data.m_position, data.m_rotation, segment4.m_segmentMaterial, segment4.m_layer, null, 0, instance4.m_materialBlock);
}
else
{
NetInfo.LodValue combinedLod4 = segment4.m_combinedLod;
if (combinedLod4 != null)
{
if (segment4.m_requireSurfaceMaps && data.m_dataTexture0 != combinedLod4.m_surfaceTexA)
{
if (combinedLod4.m_lodCount != 0)
{
NetSegment.RenderLod(cameraInfo, combinedLod4);
}
combinedLod4.m_surfaceTexA = data.m_dataTexture0;
combinedLod4.m_surfaceTexB = data.m_dataTexture1;
combinedLod4.m_surfaceMapping = data.m_dataVector1;
}
combinedLod4.m_leftMatrices[combinedLod4.m_lodCount] = data.m_dataMatrix0;
combinedLod4.m_rightMatrices[combinedLod4.m_lodCount] = data.m_extraData.m_dataMatrix2;
combinedLod4.m_meshScales[combinedLod4.m_lodCount] = dataVector6;
combinedLod4.m_objectIndices[combinedLod4.m_lodCount] = dataVector5;
combinedLod4.m_meshLocations[combinedLod4.m_lodCount] = data.m_position;
combinedLod4.m_lodMin = Vector3.Min(combinedLod4.m_lodMin, data.m_position);
combinedLod4.m_lodMax = Vector3.Max(combinedLod4.m_lodMax, data.m_position);
if (++combinedLod4.m_lodCount == combinedLod4.m_leftMatrices.Length)
{
NetSegment.RenderLod(cameraInfo, combinedLod4);
}
}
}
}
}
for (int m = 0; m < info.m_nodes.Length; m++)
{
ushort segment5 = this.GetSegment(data.m_dataInt0 & 7);
ushort segment6 = this.GetSegment(data.m_dataInt0 >> 4);
if (((instance4.m_segments.m_buffer[(int)segment5].m_flags | instance4.m_segments.m_buffer[(int)segment6].m_flags) & NetSegment.Flags.Collapsed) != NetSegment.Flags.None)
{
NetNode.Flags flags3 = flags | NetNode.Flags.Collapsed;
}
NetInfo.Node node4 = info.m_nodes[m];
if (node4.CheckFlags(flags) && node4.m_directConnect && (node4.m_connectGroup == NetInfo.ConnectGroup.None || (node4.m_connectGroup & info.m_connectGroup & NetInfo.ConnectGroup.AllGroups) != NetInfo.ConnectGroup.None))
{
Vector4 dataVector7 = data.m_dataVector3;
Vector4 dataVector8 = data.m_dataVector0;
if (node4.m_requireWindSpeed)
{
dataVector7.w = data.m_dataFloat0;
}
if ((node4.m_connectGroup & NetInfo.ConnectGroup.Oneway) != NetInfo.ConnectGroup.None)
{
bool flag4 = instance4.m_segments.m_buffer[(int)segment5].m_startNode == nodeID == ((instance4.m_segments.m_buffer[(int)segment5].m_flags & NetSegment.Flags.Invert) == NetSegment.Flags.None);
bool flag5 = instance4.m_segments.m_buffer[(int)segment6].m_startNode == nodeID == ((instance4.m_segments.m_buffer[(int)segment6].m_flags & NetSegment.Flags.Invert) == NetSegment.Flags.None);
if (flag4 == flag5)
{
goto IL_1637;
}
if (flag4)
{
if ((node4.m_connectGroup & NetInfo.ConnectGroup.OnewayStart) == NetInfo.ConnectGroup.None)
{
goto IL_1637;
}
}
else
{
if ((node4.m_connectGroup & NetInfo.ConnectGroup.OnewayEnd) == NetInfo.ConnectGroup.None)
{
goto IL_1637;
}
dataVector8.x = -dataVector8.x;
dataVector8.y = -dataVector8.y;
}
}
if (cameraInfo.CheckRenderDistance(data.m_position, node4.m_lodRenderDistance))
{
instance4.m_materialBlock.Clear();
instance4.m_materialBlock.SetMatrix(instance4.ID_LeftMatrix, data.m_dataMatrix0);
instance4.m_materialBlock.SetMatrix(instance4.ID_RightMatrix, data.m_extraData.m_dataMatrix2);
instance4.m_materialBlock.SetVector(instance4.ID_MeshScale, dataVector8);
instance4.m_materialBlock.SetVector(instance4.ID_ObjectIndex, dataVector7);
instance4.m_materialBlock.SetColor(instance4.ID_Color, data.m_dataColor0);
if (node4.m_requireSurfaceMaps && data.m_dataTexture1 != null)
{
instance4.m_materialBlock.SetTexture(instance4.ID_SurfaceTexA, data.m_dataTexture0);
instance4.m_materialBlock.SetTexture(instance4.ID_SurfaceTexB, data.m_dataTexture1);
instance4.m_materialBlock.SetVector(instance4.ID_SurfaceMapping, data.m_dataVector1);
}
NetManager netManager5 = instance4;
netManager5.m_drawCallData.m_defaultCalls = netManager5.m_drawCallData.m_defaultCalls + 1;
Graphics.DrawMesh(node4.m_nodeMesh, data.m_position, data.m_rotation, node4.m_nodeMaterial, node4.m_layer, null, 0, instance4.m_materialBlock);
}
else
{
NetInfo.LodValue combinedLod5 = node4.m_combinedLod;
if (combinedLod5 != null)
{
if (node4.m_requireSurfaceMaps && data.m_dataTexture0 != combinedLod5.m_surfaceTexA)
{
if (combinedLod5.m_lodCount != 0)
{
NetSegment.RenderLod(cameraInfo, combinedLod5);
}
combinedLod5.m_surfaceTexA = data.m_dataTexture0;
combinedLod5.m_surfaceTexB = data.m_dataTexture1;
combinedLod5.m_surfaceMapping = data.m_dataVector1;
}
combinedLod5.m_leftMatrices[combinedLod5.m_lodCount] = data.m_dataMatrix0;
combinedLod5.m_rightMatrices[combinedLod5.m_lodCount] = data.m_extraData.m_dataMatrix2;
combinedLod5.m_meshScales[combinedLod5.m_lodCount] = dataVector8;
combinedLod5.m_objectIndices[combinedLod5.m_lodCount] = dataVector7;
combinedLod5.m_meshLocations[combinedLod5.m_lodCount] = data.m_position;
combinedLod5.m_lodMin = Vector3.Min(combinedLod5.m_lodMin, data.m_position);
combinedLod5.m_lodMax = Vector3.Max(combinedLod5.m_lodMax, data.m_position);
if (++combinedLod5.m_lodCount == combinedLod5.m_leftMatrices.Length)
{
NetSegment.RenderLod(cameraInfo, combinedLod5);
}
}
}
}
IL_1637 :;
}
}
}
instanceIndex = (uint)data.m_nextInstance;
}
