public override void sampleAt(TrackSegment4 trackSegment, float t)
{
base.sampleAt(trackSegment, t);
Vector3 normal = trackSegment.getNormal(t);
Vector3 trackPivot = base.getTrackPivot(trackSegment.getPoint(t, 0), normal);
Vector3 tangentPoint = trackSegment.getTangentPoint(t);
Vector3 normalized = Vector3.Cross(normal, tangentPoint).normalized;
Vector3 middlePoint = trackPivot + normalized * base.trackWidth / 2f;
Vector3 middlePoint2 = trackPivot - normalized * base.trackWidth / 2f;
Vector3 vector = trackPivot + normal * getCenterPointOffsetY();
if (useAlternativeTrackStyle(trackSegment))
{
centerBoxExtruder.extrude(trackPivot + normal * base.trackWidth / 3f, tangentPoint, normal);
}
else
{
centerTubeExtruder.extrude(trackPivot, tangentPoint, normal);
}
leftTubeExtruder.extrude(middlePoint, tangentPoint, normal);
rightTubeExtruder.extrude(middlePoint2, tangentPoint, normal);
collisionMeshExtruder.extrude(trackPivot, tangentPoint, normal);
if (liftExtruder1 != null)
{
liftExtruder1.setUV(14, 14);
liftExtruder1.extrude(vector - (normal * 0.23f), tangentPoint, normal);
}
}
public override void sampleAt(TrackSegment4 trackSegment, float t)
{
base.sampleAt(trackSegment, t);
var normal = trackSegment.getNormal(t);
var trackPivot = getTrackPivot(trackSegment.getPoint(t, 0), normal);
var tangentPoint = trackSegment.getTangentPoint(t);
var binormal = Vector3.Cross(normal, tangentPoint).normalized;
var midPoint = trackPivot - normal * getCenterPointOffsetY();
trackBase.extrude(trackPivot, tangentPoint, normal);
leftRail.extrude(
trackPivot - normal * (leftRail.height / 2.0f + trackBase.height / 2.0f) + binormal * railOffset,
tangentPoint, normal);
rightRail.extrude(
trackPivot - normal * (rightRail.height / 2.0f + trackBase.height / 2.0f) - binormal * railOffset,
tangentPoint, normal);
leftRailInner.extrude(
trackPivot - normal * (leftRailInner.height / 2.0f + trackBase.height / 2.0f) +
binormal * (railOffset - (leftRail.width / 2.0f + leftRailInner.width / 2.0f)), tangentPoint, normal);
rightRailInner.extrude(
trackPivot - normal * (leftRailInner.height / 2.0f + trackBase.height / 2.0f) -
binormal * (railOffset - (rightRail.width / 2.0f + leftRailInner.width / 2.0f)), tangentPoint, normal);
collisionMeshExtruder.extrude(trackPivot, tangentPoint, normal);
foreach (Extruder lift in this.liftExtruders)
{
lift.extrude(midPoint, tangentPoint, normal);
}
}
public override void sampleAt(TrackSegment4 trackSegment, float t)
{
base.sampleAt(trackSegment, t);
Vector3 normal = trackSegment.getNormal(t);
Vector3 trackPivot = base.getTrackPivot(trackSegment.getPoint(t, 0), normal);
Vector3 tangentPoint = trackSegment.getTangentPoint(t);
Vector3 binormal = Vector3.Cross(normal, tangentPoint).normalized;
Vector3 leftRail = trackPivot + binormal * base.trackWidth / 2f;
Vector3 rightRail = trackPivot - binormal * base.trackWidth / 2f;
Vector3 midPoint = trackPivot + normal * this.getCenterPointOffsetY();
this.leftRailExtruder.extrude(leftRail, tangentPoint, normal);
this.rightRailExtruder.extrude(rightRail, tangentPoint, normal);
this.collisionMeshExtruder.extrude(trackPivot, tangentPoint, normal);
if (this.liftExtruder != null)
{
this.liftExtruder.extrude(midPoint, tangentPoint, normal);
}
}
public override void sampleAt(TrackSegment4 trackSegment, float t)
{
base.sampleAt(trackSegment, t);
Vector3 normal = trackSegment.getNormal(t);
Vector3 trackPivot = base.getTrackPivot(trackSegment.getPoint(t), normal);
Vector3 tangentPoint = trackSegment.getTangentPoint(t);
Vector3 normalized = Vector3.Cross(normal, tangentPoint).normalized;
Vector3 middlePoint = trackPivot + normalized * base.trackWidth / 2f;
Vector3 middlePoint2 = trackPivot - normalized * base.trackWidth / 2f;
Vector3 vector = trackPivot + normal * this.getCenterPointOffsetY();
this.centerTubeExtruder.extrude(vector, tangentPoint, normal);
this.leftTubeExtruder.extrude(middlePoint, tangentPoint, normal);
this.rightTubeExtruder.extrude(middlePoint2, tangentPoint, normal);
this.collisionMeshExtruder.extrude(trackPivot, tangentPoint, normal);
if (this.liftExtruder != null)
{
this.liftExtruder.extrude(vector - normal * (0.06613f + this.chainLiftHeight / 2f), tangentPoint, normal);
}
}
public override void sampleAt(TrackSegment4 trackSegment, float t)
{
base.sampleAt(trackSegment, t);
var normal = trackSegment.getNormal(t);
var trackPivot = getTrackPivot(trackSegment.getPoint(t), normal);
var tangentPoint = trackSegment.getTangentPoint(t);
var normalized = Vector3.Cross(normal, tangentPoint).normalized;
var middlePoint = trackPivot + normalized * trackWidth / 2f;
var middlePoint2 = trackPivot - normalized * trackWidth / 2f;
var vector = trackPivot + normal * getCenterPointOffsetY();
centerTubeExtruder.extrude(vector, tangentPoint, normal);
leftTubeExtruder.extrude(middlePoint, tangentPoint, normal);
rightTubeExtruder.extrude(middlePoint2, tangentPoint, normal);
collisionMeshExtruder.extrude(trackPivot, tangentPoint, normal);
foreach (Extruder liftExtruder in this.liftExtruders)
{
liftExtruder.extrude(vector - normal * (0.06713f + chainLiftHeight / 2f), tangentPoint, normal);
}
}
public override void sampleAt(TrackSegment4 trackSegment, float t)
{
base.sampleAt(trackSegment, t);
Vector3 normal = trackSegment.getNormal(t);
Vector3 trackPivot = getTrackPivot(trackSegment.getPoint(t), normal);
Vector3 tangentPoint = trackSegment.getTangentPoint(t);
Vector3 normalized = Vector3.Cross(normal, tangentPoint).normalized;
Vector3 middlePoint = trackPivot + normalized * trackWidth / 2f;
Vector3 middlePoint2 = trackPivot - normalized * trackWidth / 2f;
Vector3 vector = trackPivot + normal * getCenterPointOffsetY();
if (useTopperTrack)
{
topperLeftRailExtruder.extrude(middlePoint, tangentPoint, normal);
topperLeftPlankExtruder_1.extrude(middlePoint - (normal * -0.034561f), tangentPoint, normal);
topperLeftPlankExtruder_2.extrude(middlePoint - (normal * -0.050133f), tangentPoint, normal);
topperLeftPlankExtruder_3.extrude(middlePoint - (normal * -0.065763f), tangentPoint, normal);
topperLeftPlankExtruder_4.extrude(middlePoint - (normal * -0.081394f), tangentPoint, normal);
topperLeftPlankExtruder_5.extrude(middlePoint - (normal * -0.097025f), tangentPoint, normal);
topperLeftPlankExtruder_6.extrude(middlePoint - (normal * -0.112511f), tangentPoint, normal);
topperRightRailExtruder.extrude(middlePoint2, tangentPoint, normal);
topperRightPlankExtruder_1.extrude(middlePoint2 - (normal * -0.034561f), tangentPoint, normal);
topperRightPlankExtruder_2.extrude(middlePoint2 - (normal * -0.050133f), tangentPoint, normal);
topperRightPlankExtruder_3.extrude(middlePoint2 - (normal * -0.065763f), tangentPoint, normal);
topperRightPlankExtruder_4.extrude(middlePoint2 - (normal * -0.081394f), tangentPoint, normal);
topperRightPlankExtruder_5.extrude(middlePoint2 - (normal * -0.097025f), tangentPoint, normal);
topperRightPlankExtruder_6.extrude(middlePoint2 - (normal * -0.112511f), tangentPoint, normal);
}
else
{
iboxLeftRailExtruder.extrude(middlePoint, tangentPoint, normal);
iboxRightRailExtruder.extrude(middlePoint2, tangentPoint, normal);
}
collisionMeshExtruder.extrude(trackPivot, tangentPoint, normal);
if (liftExtruder != null)
{
liftExtruder.extrude(vector - normal * (0.16f + chainLiftHeight / 2f), tangentPoint, normal);
}
}
public override void afterExtrusion(TrackSegment4 trackSegment, GameObject putMeshOnGO)
{
base.afterExtrusion(trackSegment, putMeshOnGO);
int crossBeamIndex = 0;
float pos = 0.0f;
//adds random wood planks as supports
while (pos < trackSegment.getLength(0))
{
float tForDistance = trackSegment.getTForDistance(pos, 0);
Vector3 normal = trackSegment.getNormal(tForDistance);
Vector3 tangetPoint = trackSegment.getTangentPoint(tForDistance);
Vector3 binormal = Vector3.Cross(normal, tangetPoint).normalized;
Vector3 pivot = base.getTrackPivot(trackSegment.getPoint(tForDistance, 0), normal);
float crossBeamOffset = BeamSizeVariation [crossBeamIndex % BeamSizeVariation.Length];
BoxExtruder selectedCrossBeamExtruder = TrackBeamExtruder [(crossBeamIndex + 10) % TrackBeamExtruder.Length];
Vector3 left = tangetPoint.normalized * (selectedCrossBeamExtruder.width / 2.0f) + Vector3.down * railSize + pivot + binormal * (base.trackWidth + crossBeamOffset) / 2f;
Vector3 right = tangetPoint.normalized * (selectedCrossBeamExtruder.width / 2.0f) + Vector3.down * railSize + pivot - binormal * (base.trackWidth + crossBeamOffset) / 2f;
pos += TrackBeamExtruder[(crossBeamIndex + 10) % TrackBeamExtruder.Length].width + .03f;
if (pos > trackSegment.getLength(0))
{
break;
}
selectedCrossBeamExtruder.extrude(left, binormal * -1f, normal);
selectedCrossBeamExtruder.extrude(right, binormal * -1f, normal);
selectedCrossBeamExtruder.end();
crossBeamIndex++;
}
if (!(trackSegment is Station))
{
pos = 0.0f;
float segments = trackSegment.getLength(0) / (float)Mathf.RoundToInt(trackSegment.getLength(0) / this.crossBeamSpacing);
//inbetween supports for edge of track
while (pos < trackSegment.getLength(0))
{
float tForDistance = trackSegment.getTForDistance(pos, 0);
Vector3 normal = trackSegment.getNormal(tForDistance);
Vector3 tangetPoint = trackSegment.getTangentPoint(tForDistance);
Vector3 binormal = Vector3.Cross(normal, tangetPoint).normalized;
Vector3 pivot = base.getTrackPivot(trackSegment.getPoint(tForDistance, 0), normal);
float crossBeamOffset = BeamSizeVariation [crossBeamIndex % BeamSizeVariation.Length] * .3f;
Vector3 left = pivot + binormal * (SupportBoxArea / 2.0f) + Vector3.down * (railSize + railSize + SupoortBeamSize / 2.0f);
Vector3 right = pivot - binormal * (SupportBoxArea / 2.0f) + Vector3.down * (railSize + railSize + SupoortBeamSize / 2.0f);
SupportBeamExtruder.extrude(left + binormal * crossBeamOffset, binormal * -1f, normal);
SupportBeamExtruder.extrude(right - binormal * crossBeamOffset, binormal * -1f, normal);
SupportBeamExtruder.end();
float bottom = Mathf.FloorToInt(left.y);
if (bottom > Mathf.FloorToInt(right.y))
{
bottom = Mathf.FloorToInt(right.y);
}
SupportBeamExtruder.extrude(left, normal, binormal);
SupportBeamExtruder.extrude(new Vector3(left.x, bottom, left.z), normal, binormal);
SupportBeamExtruder.end();
SupportBeamExtruder.extrude(right, normal, binormal);
SupportBeamExtruder.extrude(new Vector3(right.x, bottom, right.z), normal, binormal);
SupportBeamExtruder.end();
SupportBottomBeamExtruder.extrude(new Vector3(left.x, bottom, left.z) + new Vector3(binormal.x, 0, binormal.z) * (.5f / 2.0f), binormal * -1f, Vector3.down);
SupportBottomBeamExtruder.extrude(new Vector3(right.x, bottom, right.z) - new Vector3(binormal.x, 0, binormal.z) * (.5f / 2.0f), binormal * -1f, Vector3.down);
SupportBottomBeamExtruder.end();
pos += segments;
crossBeamIndex++;
}
}
}
public override void afterExtrusion(TrackSegment4 trackSegment, GameObject putMeshOnGO)
{
base.afterExtrusion(trackSegment, putMeshOnGO);
float tieInterval = trackSegment.getLength(0) / (float)Mathf.RoundToInt(trackSegment.getLength(0) / this.tieSpacing);
float pos = 0;
// Topper Crossties
while (pos <= trackSegment.getLength(0) + 0.1f)
{
float tForDistance = trackSegment.getTForDistance(pos, 0);
pos += tieInterval;
Vector3 normal = trackSegment.getNormal(tForDistance);
Vector3 tangentPoint = trackSegment.getTangentPoint(tForDistance);
Vector3 binormal = Vector3.Cross(normal, tangentPoint).normalized;
Vector3 trackPivot = base.getTrackPivot(trackSegment.getPoint(tForDistance, 0), normal);
metalTopperCrossTie_1.extrude(trackPivot + binormal * .3f, binormal, normal);
metalTopperCrossTie_1.extrude(trackPivot - binormal * .3f, binormal, normal);
metalTopperCrossTie_1.end();
metalTopperCrossTie_2.extrude(trackPivot + binormal * .3f, binormal, normal);
metalTopperCrossTie_2.extrude(trackPivot - binormal * .3f, binormal, normal);
metalTopperCrossTie_2.end();
metalTopperCrossTie_3.extrude(trackPivot - normal * -0.021113f, normal, -1f * binormal);
metalTopperCrossTie_3.extrude(trackPivot - normal * -0.150113f, normal, -1f * binormal);
metalTopperCrossTie_3.end();
metalTopperCrossTie_4.extrude(trackPivot - normal * -0.021113f, normal, -1f * binormal);
metalTopperCrossTie_4.extrude(trackPivot - normal * -0.150113f, normal, -1f * binormal);
metalTopperCrossTie_4.end();
metalTopperCrossTie_5.extrude(trackPivot - normal * -0.021113f, normal, -1f * binormal);
metalTopperCrossTie_5.extrude(trackPivot - normal * -0.150113f, normal, -1f * binormal);
metalTopperCrossTie_5.end();
metalTopperCrossTie_6.extrude(trackPivot - normal * -0.021113f, normal, -1f * binormal);
metalTopperCrossTie_6.extrude(trackPivot - normal * -0.150113f, normal, -1f * binormal);
metalTopperCrossTie_6.end();
metalTopperCrossTie_7.extrude(trackPivot + tangentPoint * -0.00213f, tangentPoint * -1, normal);
metalTopperCrossTie_7.extrude(trackPivot + tangentPoint * -0.00001f, tangentPoint * -1, normal);
metalTopperCrossTie_7.end();
metalTopperCrossTie_8.extrude(trackPivot + tangentPoint * -0.00213f, tangentPoint, normal);
metalTopperCrossTie_8.extrude(trackPivot + tangentPoint * -0.00001f, tangentPoint, normal);
metalTopperCrossTie_8.end();
}
//Rendering beams
int i = 0;
LandPatch terrain = GameController.Instance.park.getTerrain(trackSegment.getStartpoint());
foreach (SupportPosition position in supportPosts[trackSegment.getStartpoint()])
{
if (i > 0)
{
if (terrain == null)
{
//left post
woodenVerticalSupportPostExtruder.extrude(new Vector3(position.verticalSupportPostLeft.x, position.verticalSupportPostLeft.y + supportBeamExtension, position.verticalSupportPostLeft.z), new Vector3(0, -1, 0), position.verticalSupportPostTangent);
woodenVerticalSupportPostExtruder.extrude(position.verticalSupportPostLeft, new Vector3(0, -1, 0), position.verticalSupportPostTangent);
woodenVerticalSupportPostExtruder.end();
//right post
woodenVerticalSupportPostExtruder.extrude(new Vector3(position.verticalSupportPostRight.x, position.verticalSupportPostRight.y + supportBeamExtension, position.verticalSupportPostRight.z), new Vector3(0, -1, 0), position.verticalSupportPostTangent);
woodenVerticalSupportPostExtruder.extrude(position.verticalSupportPostRight, new Vector3(0, -1, 0), position.verticalSupportPostTangent);
woodenVerticalSupportPostExtruder.end();
}
if (!(trackSegment is Station))
{
//bottom beam
if (position.bottomBarVisible)
{
metalCrossTieExtrude(position.bottomBarLeft, position.barsTangent, Vector3.up);
metalCrossTieExtrude(position.bottomBarRight, position.barsTangent, Vector3.up);
metalCrossTieEnd();
}
//top beam
if (position.topBarVisible)
{
metalCrossTieExtrude(position.topBarLeft, position.barsTangent, Vector3.up);
metalCrossTieExtrude(position.topBarRight, position.barsTangent, Vector3.up);
metalCrossTieEnd();
}
}
//i beam
if (position.bottomBarVisible)
{
metalIBeamExtrude(position.iBeamLeft, position.iBeamTangent, position.iBeamNormal);
metalIBeamExtrude(position.iBeamRight, position.iBeamTangent, position.iBeamNormal);
metalIBeamEnd();
}
else
{
metalCrossTieExtrude(position.iBeamLeft, position.iBeamTangent, position.iBeamNormal);
metalCrossTieExtrude(position.iBeamRight, position.iBeamTangent, position.iBeamNormal);
metalCrossTieEnd();
}
}
i++;
}
//rendering extruders
List <ShapeExtruder> metalShapeExtruders = new List <ShapeExtruder>();
if (useTopperTrack)
{
metalShapeExtruders.Add(topperLeftRailExtruder);
metalShapeExtruders.Add(topperRightRailExtruder);
metalShapeExtruders.Add(metalTopperCrossTie_1);
metalShapeExtruders.Add(metalTopperCrossTie_2);
metalShapeExtruders.Add(metalTopperCrossTie_3);
metalShapeExtruders.Add(metalTopperCrossTie_4);
metalShapeExtruders.Add(metalTopperCrossTie_5);
metalShapeExtruders.Add(metalTopperCrossTie_6);
metalShapeExtruders.Add(metalTopperCrossTie_7);
metalShapeExtruders.Add(metalTopperCrossTie_8);
}
else
{
metalShapeExtruders.Add(iboxLeftRailExtruder);
metalShapeExtruders.Add(iboxRightRailExtruder);
}
if (metalFrontCrossTieExtruder_1.vertices.Count > 0)
{
metalShapeExtruders.Add(metalFrontCrossTieExtruder_1);
metalShapeExtruders.Add(metalFrontCrossTieExtruder_2);
metalShapeExtruders.Add(metalFrontCrossTieExtruder_3);
metalShapeExtruders.Add(metalRearCrossTieExtruder_1);
metalShapeExtruders.Add(metalRearCrossTieExtruder_2);
metalShapeExtruders.Add(metalRearCrossTieExtruder_3);
}
if (metalIBeamExtruder_1.vertices.Count > 0)
{
metalShapeExtruders.Add(metalIBeamExtruder_1);
metalShapeExtruders.Add(metalIBeamExtruder_2);
metalShapeExtruders.Add(metalIBeamExtruder_3);
}
foreach (ShapeExtruder extruder in metalShapeExtruders)
{
GameObject gameObject = new GameObject("metalObject");
gameObject.transform.parent = putMeshOnGO.transform;
gameObject.transform.localPosition = Vector3.zero;
gameObject.transform.localRotation = Quaternion.identity;
MeshRenderer meshRenderer = gameObject.AddComponent <MeshRenderer>();
meshRenderer.sharedMaterial = metalMaterial;
MeshFilter meshFilter = gameObject.AddComponent <MeshFilter>();
Mesh mesh = extruder.getMesh(putMeshOnGO.transform.worldToLocalMatrix);
//trackSegment.addGeneratedMesh (mesh);
meshFilter.mesh = mesh;
}
}
public override void sampleAt(TrackSegment4 trackSegment, float t)
{
base.sampleAt(trackSegment, t);
Vector3 normal = trackSegment.getNormal(t);
Vector3 trackPivot = getTrackPivot(trackSegment.getPoint(t), normal);
Vector3 tangentPoint = trackSegment.getTangentPoint(t);
Vector3 normalized = Vector3.Cross(normal, tangentPoint).normalized;
Vector3 middlePoint = trackPivot + normalized * trackWidth / 2f;
Vector3 middlePoint2 = trackPivot - normalized * trackWidth / 2f;
Vector3 vector = trackPivot + normal * getCenterPointOffsetY();
if (useTopperTrack)
{
topperLeftRailExtruder.extrude(middlePoint, tangentPoint, normal);
topperLeftPlankExtruder_1.extrude(middlePoint - (normal * -0.034561f), tangentPoint, normal);
topperLeftPlankExtruder_2.extrude(middlePoint - (normal * -0.050133f), tangentPoint, normal);
topperLeftPlankExtruder_3.extrude(middlePoint - (normal * -0.065763f), tangentPoint, normal);
topperLeftPlankExtruder_4.extrude(middlePoint - (normal * -0.081394f), tangentPoint, normal);
topperLeftPlankExtruder_5.extrude(middlePoint - (normal * -0.097025f), tangentPoint, normal);
topperLeftPlankExtruder_6.extrude(middlePoint - (normal * -0.112511f), tangentPoint, normal);
topperRightRailExtruder.extrude(middlePoint2, tangentPoint, normal);
topperRightPlankExtruder_1.extrude(middlePoint2 - (normal * -0.034561f), tangentPoint, normal);
topperRightPlankExtruder_2.extrude(middlePoint2 - (normal * -0.050133f), tangentPoint, normal);
topperRightPlankExtruder_3.extrude(middlePoint2 - (normal * -0.065763f), tangentPoint, normal);
topperRightPlankExtruder_4.extrude(middlePoint2 - (normal * -0.081394f), tangentPoint, normal);
topperRightPlankExtruder_5.extrude(middlePoint2 - (normal * -0.097025f), tangentPoint, normal);
topperRightPlankExtruder_6.extrude(middlePoint2 - (normal * -0.112511f), tangentPoint, normal);
}
else
{
iboxLeftRailExtruder.extrude(middlePoint, tangentPoint, normal);
iboxRightRailExtruder.extrude(middlePoint2, tangentPoint, normal);
}
collisionMeshExtruder.extrude(trackPivot, tangentPoint, normal);
if (liftExtruder != null)
{
liftExtruder.extrude(vector - normal * (0.16f + chainLiftHeight / 2f), tangentPoint, normal);
}
//calculating beams
if (t == 0f)
{
supportPosts[trackSegment.getStartpoint()] = new List <SupportPosition>();
float supportInterval = trackSegment.getLength(0) / (float)Mathf.RoundToInt(trackSegment.getLength(0) / this.beamSpacing);
float pos = 0;
while (pos <= trackSegment.getLength(0) + 0.1f)
{
float tForDistance = trackSegment.getTForDistance(pos, 0);
normal = trackSegment.getNormal(tForDistance);
tangentPoint = trackSegment.getTangentPoint(tForDistance);
Vector3 binormal = Vector3.Cross(normal, tangentPoint).normalized;
trackPivot = base.getTrackPivot(trackSegment.getPoint(tForDistance, 0), normal);
SupportPosition position = new SupportPosition();
position.topBarVisible = false;
position.bottomBarVisible = false;
float trackDirection = Mathf.Repeat(Mathf.Atan2(tangentPoint.x, tangentPoint.z) * Mathf.Rad2Deg, 360.0f);
trackDirection += 45;
bool trackFacingXPositive = false;
bool trackFacingXNegative = false;
bool trackFacingZPositive = false;
bool trackFacingZNegative = false;
if (trackDirection < 90)
{
trackFacingZPositive = true;
}
else if (trackDirection < 180)
{
trackFacingXPositive = true;
}
else if (trackDirection < 270)
{
trackFacingZNegative = true;
}
else
{
trackFacingXNegative = true;
}
float trackBanking = 0f;
Vector3 bottomBeamDirection = new Vector3();
if (trackFacingXPositive)
{
trackBanking = Mathf.Repeat(Mathf.Atan2(normal.z, -normal.y), Mathf.PI * 2.0f) * Mathf.Rad2Deg;
if (trackBanking > 180)
{
trackBanking -= 360;
}
Vector2 tangentProjection = new Vector2(tangentPoint.x, tangentPoint.z);
Vector2 normalProjection = Rotate(tangentProjection, 90);
bottomBeamDirection.z = normalProjection.y;
bottomBeamDirection.x = normalProjection.x;
bottomBeamDirection.Normalize();
bottomBeamDirection *= Math.Abs(trackBanking) > 90 ? 1.0f : -1.0f;
}
if (trackFacingXNegative)
{
trackBanking = Mathf.Repeat(Mathf.Atan2(-normal.z, -normal.y), Mathf.PI * 2.0f) * Mathf.Rad2Deg;
if (trackBanking > 180)
{
trackBanking -= 360;
}
bottomBeamDirection.z = tangentPoint.x;
bottomBeamDirection.x = tangentPoint.z;
Vector2 tangentProjection = new Vector2(tangentPoint.x, tangentPoint.z);
Vector2 normalProjection = Rotate(tangentProjection, 90);
bottomBeamDirection.z = normalProjection.y;
bottomBeamDirection.x = normalProjection.x;
bottomBeamDirection.Normalize();
bottomBeamDirection *= Math.Abs(trackBanking) > 90 ? 1.0f : -1.0f;
}
if (trackFacingZPositive)
{
trackBanking = Mathf.Repeat(Mathf.Atan2(normal.x, -normal.y), Mathf.PI * 2.0f) * Mathf.Rad2Deg;
if (trackBanking > 180)
{
trackBanking -= 360;
}
bottomBeamDirection.z = tangentPoint.x;
bottomBeamDirection.x = tangentPoint.z;
Vector2 tangentProjection = new Vector2(tangentPoint.x, tangentPoint.z);
Vector2 normalProjection = Rotate(tangentProjection, 90);
bottomBeamDirection.z = normalProjection.y;
bottomBeamDirection.x = normalProjection.x;
bottomBeamDirection.Normalize();
bottomBeamDirection *= Math.Abs(trackBanking) <= 90 ? -1.0f : 1.0f;
}
if (trackFacingZNegative)
{
trackBanking = Mathf.Repeat(Mathf.Atan2(-normal.x, -normal.y), Mathf.PI * 2.0f) * Mathf.Rad2Deg;
if (trackBanking > 180)
{
trackBanking -= 360;
}
bottomBeamDirection.z = tangentPoint.x;
bottomBeamDirection.x = tangentPoint.z;
Vector2 tangentProjection = new Vector2(tangentPoint.x, tangentPoint.z);
Vector2 normalProjection = Rotate(tangentProjection, 90);
bottomBeamDirection.z = normalProjection.y;
bottomBeamDirection.x = normalProjection.x;
bottomBeamDirection.Normalize();
bottomBeamDirection *= Math.Abs(trackBanking) > 90 ? 1.0f : -1.0f;
}
position.trackBanking = trackBanking;
//track beam
Vector3 startPoint = trackPivot + normal * 0.159107f + binormal * (beamWidth / 2);
Vector3 endPoint = trackPivot + normal * 0.159107f - binormal * (beamWidth / 2);
bool equalHeight = Mathf.Abs(startPoint.y - endPoint.y) < 0.97f;
//Bottom beam calculation
Vector3 bottomBeamPivot = new Vector3(trackPivot.x, Mathf.Min(startPoint.y, endPoint.y), trackPivot.z);
Vector3 bottomBeamStart = new Vector3();
Vector3 bottomBeamEnd = new Vector3();
Vector3 bottomBeamBinormal = bottomBeamDirection.normalized;
Vector3 planePosition = new Vector3();
Vector3 planeSpanVector1 = endPoint - startPoint;
Vector3 planeSpanVector2 = tangentPoint;
Vector3 bottomLinePosition = new Vector3();
Vector3 topLinePosition = new Vector3();
Vector3 lineSpanVector = bottomBeamDirection;
bool attachToStartPoint = false;
if (((trackFacingXNegative || trackFacingXPositive) ? -1.0f : 1.0) * ((Mathf.Abs(trackBanking) <= 90) ? -1.0f : 1.0f) * trackBanking < 0)
{
bottomBeamStart.x = endPoint.x;
bottomBeamStart.z = endPoint.z;
bottomBeamStart.y = endPoint.y > startPoint.y ? startPoint.y : endPoint.y;
bottomBeamEnd = bottomBeamStart - bottomBeamDirection.normalized * beamWidth;
planePosition = endPoint;
bottomLinePosition = bottomBeamStart;
topLinePosition = new Vector3(bottomLinePosition.x, Mathf.Max(startPoint.y, endPoint.y), bottomLinePosition.z);
attachToStartPoint = false;
}
else
{
bottomBeamEnd.x = startPoint.x;
bottomBeamEnd.z = startPoint.z;
bottomBeamEnd.y = endPoint.y > startPoint.y ? startPoint.y : endPoint.y;
bottomBeamStart = bottomBeamEnd + bottomBeamDirection.normalized * beamWidth;
planePosition = startPoint;
bottomLinePosition = bottomBeamEnd;
topLinePosition = new Vector3(bottomLinePosition.x, Mathf.Max(startPoint.y, endPoint.y), bottomLinePosition.z);
attachToStartPoint = true;
}
if (Mathf.Abs(trackBanking) > 90)
{
bottomBeamStart.y -= ((Mathf.Abs(trackBanking) / 90) - 1) * invertHeadSpace;
bottomBeamEnd.y -= ((Mathf.Abs(trackBanking) / 90) - 1) * invertHeadSpace;
position.topBarVisible = true;
}
if (Mathf.Abs(trackBanking) > iBeamBankingSwitch)
{
position.bottomBarVisible = true;
}
position.bottomBarLeft = bottomBeamStart;
position.bottomBarRight = bottomBeamEnd;
position.topBarLeft = new Vector3(bottomBeamEnd.x, Mathf.Max(startPoint.y, endPoint.y), bottomBeamEnd.z);
position.topBarRight = new Vector3(bottomBeamStart.x, Mathf.Max(startPoint.y, endPoint.y), bottomBeamStart.z);
position.barsTangent = -1f * bottomBeamBinormal;
if (Mathf.Abs(trackBanking) < 90)
{
position.topBarLeft.y += (1 - (Mathf.Abs(trackBanking) / 90)) * invertHeadSpace;
position.topBarRight.y += (1 - (Mathf.Abs(trackBanking) / 90)) * invertHeadSpace;
}
Vector3 projectedTangentDirection = tangentPoint;
projectedTangentDirection.y = 0;
projectedTangentDirection.Normalize();
Vector3 intersectionPoint = new Vector3();
if (Math.Abs(trackBanking) > 90 && position.topBarVisible)
{
intersectionPoint = IntersectLineAndPlane(planePosition, planeSpanVector1, planeSpanVector2, topLinePosition, lineSpanVector);
if (!float.IsNaN(intersectionPoint.x))
{
if (attachToStartPoint)
{
endPoint = intersectionPoint;
}
else
{
startPoint = intersectionPoint;
}
}
}
else if (Math.Abs(trackBanking) > 0.1)
{
intersectionPoint = IntersectLineAndPlane(planePosition, planeSpanVector1, planeSpanVector2, bottomLinePosition, lineSpanVector);
}
if (true)
{
WriteToFile("IntersectionPoint:" + intersectionPoint);
WriteToFile("PlanePosition:" + planePosition);
WriteToFile("Magnitude:" + (intersectionPoint - planePosition).magnitude);
WriteToFile("Difference:" + (intersectionPoint - planePosition));
WriteToFile("TrackBanking" + trackBanking);
WriteToFile("planeSpanVector1" + planeSpanVector1);
WriteToFile("planeSpanVector2" + planeSpanVector2);
WriteToFile("topLinePosition" + topLinePosition);
WriteToFile("bottomLinePasition" + bottomLinePosition);
WriteToFile("lineSpanVector" + lineSpanVector);
}
if (!float.IsNaN(intersectionPoint.x) && (intersectionPoint - planePosition).magnitude > 0.5 && (intersectionPoint - planePosition).magnitude < 1.5)
{
if (attachToStartPoint)
{
endPoint = intersectionPoint;
}
else
{
startPoint = intersectionPoint;
}
}
Vector3 leftVerticalSupportPost = bottomBeamEnd;
Vector3 rightVerticalSupportPost = bottomBeamStart;
Vector3 middleOfBeam = (bottomBeamStart + bottomBeamEnd) / 2;
if (!position.topBarVisible)
{
if (trackBanking < iBeamBankingSwitch && trackBanking > -90f)
{
leftVerticalSupportPost = ((bottomBeamEnd - middleOfBeam) * 0.8f) + middleOfBeam;
}
if (trackBanking > -iBeamBankingSwitch && trackBanking < 90f)
{
rightVerticalSupportPost = ((bottomBeamStart - middleOfBeam) * 0.8f) + middleOfBeam;
}
}
if (Mathf.Abs(trackBanking) > 90)
{
leftVerticalSupportPost.y = Mathf.Max(startPoint.y, endPoint.y);
rightVerticalSupportPost.y = Mathf.Max(startPoint.y, endPoint.y);
}
else
{
leftVerticalSupportPost.y = startPoint.y;
rightVerticalSupportPost.y = endPoint.y;
}
if (pos > 0f)
{
if (Mathf.Abs(trackBanking) <= iBeamBankingSwitch)
{
float distance = 1 / Mathf.Sin((90 - Mathf.Abs(trackBanking)) * Mathf.Deg2Rad);
if (attachToStartPoint)
{
endPoint = startPoint - ((startPoint - endPoint) * distance);
}
else
{
startPoint = endPoint - ((endPoint - startPoint) * distance);
}
}
position.iBeamLeft = startPoint;
position.iBeamRight = endPoint;
position.iBeamTangent = -1f * binormal;
position.iBeamNormal = equalHeight ? Vector3.up : normal;
}
position.verticalSupportPostLeft = leftVerticalSupportPost;
position.verticalSupportPostRight = rightVerticalSupportPost;
position.verticalSupportPostTangent = projectedTangentDirection;
supportPosts[trackSegment.getStartpoint()].Add(position);
customBuildVolumeMeshExtruder.setWidth(Vector3.Distance(position.bottomBarLeft, position.bottomBarRight));
customBuildVolumeMeshExtruder.setHeight(Vector3.Distance((position.bottomBarLeft + position.bottomBarRight) / 2, (position.topBarLeft + position.topBarRight) / 2) + (Mathf.Abs(position.trackBanking) > 90 ? supportBeamExtension : 0f));
Vector3 middle = (position.topBarLeft + position.topBarRight + position.bottomBarLeft + position.bottomBarRight) / 4;
if (pos > 0f)
{
customBuildVolumeMeshExtruder.extrude(new Vector3(middle.x, middle.y + (Mathf.Abs(position.trackBanking) > 90 ? supportBeamExtension / 2 : 0f), middle.z), Vector3.Cross(position.barsTangent, Vector3.up) * (Mathf.Abs(position.trackBanking) > 90 ? 1f : -1f), Vector3.up);
}
pos += supportInterval;
}
customBuildVolumeMeshExtruder.end();
}
}
private void recalculate(MeshGenerator meshGenerator, TrackSegment4 segment)
{
foreach (Transform child in segment.gameObject.transform)
{
if (child.name != "BetweenTracksMouseCollider" && !child.name.Contains("StationPlatformTrackTile") && child.name != "MouseSelectionCollider")
{
var mesh_filter = child.gameObject.GetComponent <MeshFilter> ();
if (mesh_filter != null)
{
UnityEngine.Object.Destroy(mesh_filter.mesh);
UnityEngine.Object.Destroy(mesh_filter.sharedMesh);
}
UnityEngine.Object.Destroy(child.gameObject);
}
}
if (segment.getLength() <= 0f)
{
Debug.LogWarning("Can't extrude this segment! Has a length of 0.");
}
meshGenerator.prepare(segment, segment.gameObject);
float num = 0f;
float num2 = 0f;
meshGenerator.sampleAt(segment, 0f);
int num3 = 0;
int num4 = 0;
Vector3 b = segment.getStartpoint();
do
{
float num5 = 1f - num2;
if (Vector3.Angle(segment.getDirection(), segment.getPoint(num2 + num5) - segment.getPoint(num2)) > 5f)
{
num5 /= 2f;
}
int num6 = 0;
Vector3 point = segment.getPoint(num2 + num5);
float num7 = Vector3.Angle(segment.getTangentPoint(num2), segment.getTangentPoint(num2 + num5));
num7 = Mathf.Max(num7, Vector3.Angle(segment.getNormal(num2), segment.getNormal(num2 + num5)));
while (num5 > 0.01f && (num7 > 10f || (num7 > 2f && (point - b).magnitude > 0.225f)))
{
num4++;
num5 /= 2f;
point = segment.getPoint(num2 + num5);
num7 = Vector3.Angle(segment.getTangentPoint(num2), segment.getTangentPoint(num2 + num5));
num7 = Mathf.Max(num7, Vector3.Angle(segment.getNormal(num2), segment.getNormal(num2 + num5)));
num6++;
if (num6 > 50)
{
break;
}
}
num += (point - b).magnitude;
num2 += num5;
b = point;
if (num2 > 1f)
{
break;
}
meshGenerator.sampleAt(segment, num2);
num3++;
}while (num2 < 1f && num3 < 300);
if (!Mathf.Approximately(num2, 1f))
{
meshGenerator.sampleAt(segment, 1f);
}
meshGenerator.afterExtrusion(segment, segment.gameObject);
MeshFilter component = segment.gameObject.GetComponent <MeshFilter>();
Mesh mesh = meshGenerator.getMesh(segment.gameObject);
UnityEngine.Object.Destroy(component.sharedMesh);
UnityEngine.Object.Destroy(component.mesh);
component.sharedMesh = mesh;
meshGenerator.afterMeshGeneration(segment, segment.gameObject);
Extruder buildVolumeMeshExtruder = meshGenerator.getBuildVolumeMeshExtruder();
buildVolumeMeshExtruder.transform(segment.gameObject.transform.worldToLocalMatrix);
BoundingMesh boundingMesh = segment.gameObject.GetComponent <BoundingMesh>();
boundingMesh.layers = BoundingVolume.Layers.Buildvolume;
boundingMesh.setMesh(buildVolumeMeshExtruder.vertices.ToArray(), buildVolumeMeshExtruder.indizes.ToArray());
GameObject track_mouse_collider = segment.transform.Find("BetweenTracksMouseCollider").gameObject; // new GameObject("BetweenTracksMouseCollider");
track_mouse_collider.transform.parent = segment.gameObject.transform;
track_mouse_collider.transform.localPosition = Vector3.zero;
track_mouse_collider.transform.localRotation = Quaternion.identity;
track_mouse_collider.layer = LayerMasks.ID_MOUSECOLLIDERS;
MeshCollider meshCollider = track_mouse_collider.GetComponent <MeshCollider>();
Mesh collisionMesh = meshGenerator.getCollisionMesh(segment.gameObject);
UnityEngine.Object.Destroy(meshCollider.sharedMesh);
meshCollider.sharedMesh = collisionMesh;
MouseCollider mouseCollider = segment.gameObject.GetComponent <MouseCollider>();
mouseCollider.colliderObject = track_mouse_collider;
}
public override void afterExtrusion(TrackSegment4 trackSegment, GameObject putMeshOnGO)
{
base.afterExtrusion(trackSegment, putMeshOnGO);
float tieInterval = trackSegment.getLength(0) / (float)Mathf.RoundToInt(trackSegment.getLength(0) / 0.3f);
float pos = 0;
while (pos <= trackSegment.getLength(0) + 0.1f)
{
float tForDistance = trackSegment.getTForDistance(pos, 0);
pos += tieInterval;
Vector3 normal = trackSegment.getNormal(tForDistance);
Vector3 tangentPoint = trackSegment.getTangentPoint(tForDistance);
Vector3 binormal = Vector3.Cross(normal, tangentPoint).normalized;
Vector3 trackPivot = base.getTrackPivot(trackSegment.getPoint(tForDistance, 0), normal);
if (useAlternativeTrackStyle(trackSegment))
{
crossBoxExtruder.setHeight(sideTubesRadius);
crossBoxExtruder.extrude((trackPivot - binormal * base.trackWidth / 2f) + (normal * sideTubesRadius * 0.5f), binormal, normal);
crossBoxExtruder.setHeight(sideTubesRadius * 3f);
crossBoxExtruder.extrude((trackPivot - binormal * base.trackWidth / 4f) + (normal * sideTubesRadius * 1.5f), binormal, normal);
crossBoxExtruder.extrude((trackPivot + binormal * base.trackWidth / 4f) + (normal * sideTubesRadius * 1.5f), binormal, normal);
crossBoxExtruder.setHeight(sideTubesRadius);
crossBoxExtruder.extrude((trackPivot + binormal * base.trackWidth / 2f) + (normal * sideTubesRadius * 0.5f), binormal, normal);
crossBoxExtruder.end();
}
else
{
centerCrossTubeExtruder.setRadius(centerTubeRadius / 3f);
centerCrossTubeExtruder.extrude(trackPivot - binormal * base.trackWidth / 3f, binormal, normal);
centerCrossTubeExtruder.setRadius(centerTubeRadius / 2f);
centerCrossTubeExtruder.extrude(trackPivot, binormal, normal);
centerCrossTubeExtruder.setRadius(centerTubeRadius / 3f);
centerCrossTubeExtruder.extrude(trackPivot + binormal * base.trackWidth / 3f, binormal, normal);
centerCrossTubeExtruder.end();
sideCrossTubeExtruder.setRadius(sideTubesRadius - 0.001f);
sideCrossTubeExtruder.extrude(trackPivot - binormal * base.trackWidth / 2f, binormal, normal);
sideCrossTubeExtruder.setRadius(sideTubesRadius - 0.01f);
sideCrossTubeExtruder.extrude(trackPivot - binormal * base.trackWidth / 3f, binormal, normal);
sideCrossTubeExtruder.extrude(trackPivot + binormal * base.trackWidth / 3f, binormal, normal);
sideCrossTubeExtruder.setRadius(sideTubesRadius - 0.001f);
sideCrossTubeExtruder.extrude(trackPivot + binormal * base.trackWidth / 2f, binormal, normal);
sideCrossTubeExtruder.end();
}
}
if (trackSegment is Loop4 && !trackSegment.isPreview)
{
centerBoxExtruder.end();
float tForDistance = trackSegment.getTForDistance(trackSegment.getLength(0) * 0.34f, 0);
Vector3 normal = trackSegment.getNormal(tForDistance);
Vector3 tangentPoint = trackSegment.getTangentPoint(tForDistance);
Vector3 trackPivot = base.getTrackPivot(trackSegment.getPoint(tForDistance, 0), normal);
Vector3 val2 = trackPivot + normal * base.trackWidth / 3f;
Vector3 point = GameController.Instance.park.getTerrain(val2).getPoint(val2);
centerBoxExtruder.extrude(point, tangentPoint, normal);
centerBoxExtruder.extrude(val2, tangentPoint, normal);
centerBoxExtruder.end();
tForDistance = trackSegment.getTForDistance(trackSegment.getLength(0) * 0.66f, 0);
normal = trackSegment.getNormal(tForDistance);
tangentPoint = trackSegment.getTangentPoint(tForDistance);
trackPivot = base.getTrackPivot(trackSegment.getPoint(tForDistance, 0), normal);
val2 = trackPivot + normal * base.trackWidth / 3f;
point = GameController.Instance.park.getTerrain(val2).getPoint(val2);
centerBoxExtruder.extrude(val2, tangentPoint, normal);
centerBoxExtruder.extrude(point, tangentPoint, normal);
centerBoxExtruder.end();
}
if (liftExtruder1 != null)
{
GameObject gameObject = new GameObject("ChainLift1");
MeshRenderer meshRenderer = gameObject.AddComponent <MeshRenderer>();
meshRenderer.shadowCastingMode = ShadowCastingMode.Off;
meshRenderer.sharedMaterials = getLiftMaterials();
MeshFilter meshFilter = gameObject.AddComponent <MeshFilter>();
Mesh mesh1 = meshFilter.mesh = liftExtruder1.getMesh(putMeshOnGO.transform.worldToLocalMatrix);
mesh1.RecalculateBounds();
gameObject.transform.parent = putMeshOnGO.transform;
gameObject.transform.localPosition = Vector3.zero;
gameObject.transform.localRotation = Quaternion.identity;
if ((UnityEngine.Object)trackSegment.track != (UnityEngine.Object)null)
{
ChainLiftAnimator chainLiftAnimator = gameObject.AddComponent <ChainLiftAnimator>();
chainLiftAnimator.setTrackedRide(trackSegment.track.TrackedRide);
chainLiftAnimator.Initialize();
}
}
}
private void recalculate(MeshGenerator meshGenerator, TrackSegment4 segment)
{
foreach(Transform child in segment.gameObject.transform) {
if (child.name != "BetweenTracksMouseCollider" && !child.name.Contains("StationPlatformTrackTile") && child.name != "MouseSelectionCollider") {
var mesh_filter = child.gameObject.GetComponent<MeshFilter> ();
if (mesh_filter != null) {
UnityEngine.Object.Destroy (mesh_filter.mesh);
UnityEngine.Object.Destroy (mesh_filter.sharedMesh);
}
UnityEngine.Object.Destroy (child.gameObject);
}
}
if (segment.getLength() <= 0f)
{
Debug.LogWarning("Can't extrude this segment! Has a length of 0.");
}
meshGenerator.prepare(segment, segment.gameObject);
float num = 0f;
float num2 = 0f;
meshGenerator.sampleAt(segment, 0f);
int num3 = 0;
int num4 = 0;
Vector3 b = segment.getStartpoint();
do
{
float num5 = 1f - num2;
if (Vector3.Angle(segment.getDirection(), segment.getPoint(num2 + num5) - segment.getPoint(num2)) > 5f)
{
num5 /= 2f;
}
int num6 = 0;
Vector3 point = segment.getPoint(num2 + num5);
float num7 = Vector3.Angle(segment.getTangentPoint(num2), segment.getTangentPoint(num2 + num5));
num7 = Mathf.Max(num7, Vector3.Angle(segment.getNormal(num2), segment.getNormal(num2 + num5)));
while (num5 > 0.01f && (num7 > 10f || (num7 > 2f && (point - b).magnitude > 0.225f)))
{
num4++;
num5 /= 2f;
point = segment.getPoint(num2 + num5);
num7 = Vector3.Angle(segment.getTangentPoint(num2), segment.getTangentPoint(num2 + num5));
num7 = Mathf.Max(num7, Vector3.Angle(segment.getNormal(num2), segment.getNormal(num2 + num5)));
num6++;
if (num6 > 50)
{
break;
}
}
num += (point - b).magnitude;
num2 += num5;
b = point;
if (num2 > 1f)
{
break;
}
meshGenerator.sampleAt(segment, num2);
num3++;
}
while (num2 < 1f && num3 < 300);
if (!Mathf.Approximately(num2, 1f))
{
meshGenerator.sampleAt(segment, 1f);
}
meshGenerator.afterExtrusion(segment, segment.gameObject);
MeshFilter component = segment.gameObject.GetComponent<MeshFilter>();
Mesh mesh = meshGenerator.getMesh(segment.gameObject);
UnityEngine.Object.Destroy (component.sharedMesh);
UnityEngine.Object.Destroy (component.mesh);
component.sharedMesh = mesh;
meshGenerator.afterMeshGeneration(segment, segment.gameObject);
Extruder buildVolumeMeshExtruder = meshGenerator.getBuildVolumeMeshExtruder();
buildVolumeMeshExtruder.transform(segment.gameObject.transform.worldToLocalMatrix);
BoundingMesh boundingMesh = segment.gameObject.GetComponent<BoundingMesh>();
boundingMesh.layers = BoundingVolume.Layers.Buildvolume;
boundingMesh.setMesh(buildVolumeMeshExtruder.vertices.ToArray(), buildVolumeMeshExtruder.indizes.ToArray());
GameObject track_mouse_collider = segment.transform.Find ("BetweenTracksMouseCollider").gameObject;// new GameObject("BetweenTracksMouseCollider");
track_mouse_collider.transform.parent = segment.gameObject.transform;
track_mouse_collider.transform.localPosition = Vector3.zero;
track_mouse_collider.transform.localRotation = Quaternion.identity;
track_mouse_collider.layer = LayerMasks.ID_MOUSECOLLIDERS;
MeshCollider meshCollider = track_mouse_collider.GetComponent<MeshCollider>();
Mesh collisionMesh = meshGenerator.getCollisionMesh(segment.gameObject);
UnityEngine.Object.Destroy (meshCollider.sharedMesh);
meshCollider.sharedMesh = collisionMesh;
MouseCollider mouseCollider = segment.gameObject.GetComponent<MouseCollider>();
mouseCollider.colliderObject = track_mouse_collider;
}
public override void afterExtrusion(TrackSegment4 trackSegment, GameObject putMeshOnGO)
{
base.afterExtrusion(trackSegment, putMeshOnGO);
WriteToFile(trackSegment.track.TrackedRide.supportConfiguration.supportSettings [0].supportGO.ToString());
WriteToFile(trackSegment.track.TrackedRide.supportConfiguration.supportSettings [0].supportGO.GetType().ToString());
float supportInterval = trackSegment.getLength(0) / ((float)Mathf.RoundToInt(trackSegment.getLength(0) / this.crossBeamSpacing) * 2);
float pos = 0;
bool isTopperCrosstie = true;
int index = 0;
Vector3 previousSupportLeft = new Vector3();
Vector3 previousSupportRight = new Vector3();
Vector3 previousSupportTangent = new Vector3();
bool previousFlippedSupportPosts = false;
while (pos <= trackSegment.getLength(0) + 0.1f)
{
index++;
float tForDistance = trackSegment.getTForDistance(pos, 0);
pos += supportInterval;
isTopperCrosstie = !isTopperCrosstie;
Vector3 normal = trackSegment.getNormal(tForDistance);
Vector3 tangentPoint = trackSegment.getTangentPoint(tForDistance);
Vector3 binormal = Vector3.Cross(normal, tangentPoint).normalized;
Vector3 trackPivot = base.getTrackPivot(trackSegment.getPoint(tForDistance, 0), normal);
if (isTopperCrosstie)
{
/*
* metalTopperCrossTie_1.extrude(trackPivot + binormal * .3f, binormal, normal);
* metalTopperCrossTie_1.extrude(trackPivot - binormal * .3f, binormal, normal);
* metalTopperCrossTie_1.end();
* metalTopperCrossTie_2.extrude(trackPivot + binormal * .3f, binormal, normal);
* metalTopperCrossTie_2.extrude(trackPivot - binormal * .3f, binormal, normal);
* metalTopperCrossTie_2.end();
* metalTopperCrossTie_3.extrude(trackPivot - normal * -0.021113f, normal, -1f * binormal);
* metalTopperCrossTie_3.extrude(trackPivot - normal * -0.150113f, normal, -1f * binormal);
* metalTopperCrossTie_3.end();
* metalTopperCrossTie_4.extrude(trackPivot - normal * -0.021113f, normal, -1f * binormal);
* metalTopperCrossTie_4.extrude(trackPivot - normal * -0.150113f, normal, -1f * binormal);
* metalTopperCrossTie_4.end();
* metalTopperCrossTie_5.extrude(trackPivot - normal * -0.021113f, normal, -1f * binormal);
* metalTopperCrossTie_5.extrude(trackPivot - normal * -0.150113f, normal, -1f * binormal);
* metalTopperCrossTie_5.end();
* metalTopperCrossTie_6.extrude(trackPivot - normal * -0.021113f, normal, -1f * binormal);
* metalTopperCrossTie_6.extrude(trackPivot - normal * -0.150113f, normal, -1f * binormal);
* metalTopperCrossTie_6.end();
* metalTopperCrossTie_7.extrude(trackPivot + tangentPoint * -0.00213f, tangentPoint * -1, normal);
* metalTopperCrossTie_7.extrude(trackPivot + tangentPoint * -0.00001f, tangentPoint * -1, normal);
* metalTopperCrossTie_7.end();
* metalTopperCrossTie_8.extrude(trackPivot + tangentPoint * -0.00213f, tangentPoint, normal);
* metalTopperCrossTie_8.extrude(trackPivot + tangentPoint * -0.00001f, tangentPoint, normal);
* metalTopperCrossTie_8.end();
*/
}
else
{
float trackDirection = Mathf.Repeat(Mathf.Atan2(tangentPoint.x, tangentPoint.z) * Mathf.Rad2Deg, 360.0f);
trackDirection += 45;
bool trackFacingXPositive = false;
bool trackFacingXNegative = false;
bool trackFacingZPositive = false;
bool trackFacingZNegative = false;
if (trackDirection < 90)
{
trackFacingZPositive = true;
}
else if (trackDirection < 180)
{
trackFacingXPositive = true;
}
else if (trackDirection < 270)
{
trackFacingZNegative = true;
}
else
{
trackFacingXNegative = true;
}
float trackBanking = 0f;
Vector3 bottomBeamDirection = new Vector3();
if (trackFacingXPositive)
{
trackBanking = Mathf.Repeat(Mathf.Atan2(normal.z, -normal.y), Mathf.PI * 2.0f) * Mathf.Rad2Deg;
if (trackBanking > 180)
{
trackBanking -= 360;
}
Vector2 tangentProjection = new Vector2(tangentPoint.x, tangentPoint.z);
Vector2 normalProjection = Rotate(tangentProjection, 90);
bottomBeamDirection.z = normalProjection.y;
bottomBeamDirection.x = normalProjection.x;
bottomBeamDirection.Normalize();
bottomBeamDirection *= Math.Abs(trackBanking) > 90 ? 1.0f : -1.0f;
}
if (trackFacingXNegative)
{
trackBanking = Mathf.Repeat(Mathf.Atan2(-normal.z, -normal.y), Mathf.PI * 2.0f) * Mathf.Rad2Deg;
if (trackBanking > 180)
{
trackBanking -= 360;
}
bottomBeamDirection.z = tangentPoint.x;
bottomBeamDirection.x = tangentPoint.z;
Vector2 tangentProjection = new Vector2(tangentPoint.x, tangentPoint.z);
Vector2 normalProjection = Rotate(tangentProjection, 90);
bottomBeamDirection.z = normalProjection.y;
bottomBeamDirection.x = normalProjection.x;
bottomBeamDirection.Normalize();
bottomBeamDirection *= Math.Abs(trackBanking) > 90 ? 1.0f : -1.0f;
}
if (trackFacingZPositive)
{
trackBanking = Mathf.Repeat(Mathf.Atan2(normal.x, -normal.y), Mathf.PI * 2.0f) * Mathf.Rad2Deg;
if (trackBanking > 180)
{
trackBanking -= 360;
}
bottomBeamDirection.z = tangentPoint.x;
bottomBeamDirection.x = tangentPoint.z;
Vector2 tangentProjection = new Vector2(tangentPoint.x, tangentPoint.z);
Vector2 normalProjection = Rotate(tangentProjection, 90);
bottomBeamDirection.z = normalProjection.y;
bottomBeamDirection.x = normalProjection.x;
bottomBeamDirection.Normalize();
bottomBeamDirection *= Math.Abs(trackBanking) <= 90 ? -1.0f : 1.0f;
}
if (trackFacingZNegative)
{
trackBanking = Mathf.Repeat(Mathf.Atan2(-normal.x, -normal.y), Mathf.PI * 2.0f) * Mathf.Rad2Deg;
if (trackBanking > 180)
{
trackBanking -= 360;
}
bottomBeamDirection.z = tangentPoint.x;
bottomBeamDirection.x = tangentPoint.z;
Vector2 tangentProjection = new Vector2(tangentPoint.x, tangentPoint.z);
Vector2 normalProjection = Rotate(tangentProjection, 90);
bottomBeamDirection.z = normalProjection.y;
bottomBeamDirection.x = normalProjection.x;
bottomBeamDirection.Normalize();
bottomBeamDirection *= Math.Abs(trackBanking) > 90 ? 1.0f : -1.0f;
}
//track beam
Vector3 startPoint = trackPivot + normal * 0.159107f + binormal * (beamWidth / 2);
Vector3 endPoint = trackPivot + normal * 0.159107f - binormal * (beamWidth / 2);
bool equalHeight = Mathf.Abs(startPoint.y - endPoint.y) < 0.97f;
//Bottom beam calculation
Vector3 bottomBeamPivot = new Vector3(trackPivot.x, Mathf.Min(startPoint.y, endPoint.y), trackPivot.z);
Vector3 bottomBeamStart = new Vector3();
Vector3 bottomBeamEnd = new Vector3();
Vector3 bottomBeamBinormal = bottomBeamDirection.normalized;
Vector3 planePosition = new Vector3();
Vector3 planeSpanVector1 = endPoint - startPoint;
Vector3 planeSpanVector2 = tangentPoint;
Vector3 bottomLinePosition = new Vector3();
Vector3 topLinePosition = new Vector3();
Vector3 lineSpanVector = bottomBeamDirection;
bool hasTopBars = false;
bool attachToStartPoint = false;
if (((trackFacingXNegative || trackFacingXPositive) ? -1.0f : 1.0) * ((Mathf.Abs(trackBanking) <= 90) ? -1.0f : 1.0f) * trackBanking < 0)
{
bottomBeamStart.x = endPoint.x;
bottomBeamStart.z = endPoint.z;
bottomBeamStart.y = endPoint.y > startPoint.y ? startPoint.y : endPoint.y;
bottomBeamEnd = bottomBeamStart - bottomBeamDirection.normalized * beamWidth;
planePosition = endPoint;
bottomLinePosition = bottomBeamStart;
topLinePosition = new Vector3(bottomLinePosition.x, Mathf.Max(startPoint.y, endPoint.y), bottomLinePosition.z);
attachToStartPoint = false;
}
else
{
bottomBeamEnd.x = startPoint.x;
bottomBeamEnd.z = startPoint.z;
bottomBeamEnd.y = endPoint.y > startPoint.y ? startPoint.y : endPoint.y;
bottomBeamStart = bottomBeamEnd + bottomBeamDirection.normalized * beamWidth;
planePosition = startPoint;
bottomLinePosition = bottomBeamEnd;
topLinePosition = new Vector3(bottomLinePosition.x, Mathf.Max(startPoint.y, endPoint.y), bottomLinePosition.z);
attachToStartPoint = true;
}
if (!(trackSegment is Station))
{
if (Mathf.Abs(trackBanking) > 90)
{
bottomBeamStart.y -= ((Mathf.Abs(trackBanking) / 90) - 1) * invertHeadSpace;
bottomBeamEnd.y -= ((Mathf.Abs(trackBanking) / 90) - 1) * invertHeadSpace;
if (pos > supportInterval)
{
//Top beam extruding
metalCrossTieExtrude(new Vector3(bottomBeamEnd.x, Mathf.Max(startPoint.y, endPoint.y), bottomBeamEnd.z), -1f * bottomBeamBinormal, Vector3.up);
metalCrossTieExtrude(new Vector3(bottomBeamStart.x, Mathf.Max(startPoint.y, endPoint.y), bottomBeamStart.z), -1f * bottomBeamBinormal, Vector3.up);
metalCrossTieEnd();
hasTopBars = true;
}
}
//Bottom beam extruding
if (Mathf.Abs(trackBanking) > iBeamBankingSwitch && pos > supportInterval)
{
metalCrossTieExtrude(bottomBeamEnd, -1f * bottomBeamBinormal, Vector3.up);
metalCrossTieExtrude(bottomBeamStart, -1f * bottomBeamBinormal, Vector3.up);
metalCrossTieEnd();
}
Vector3 leftVerticalSupportPost = bottomBeamEnd;
Vector3 rightVerticalSupportPost = bottomBeamStart;
if (!hasTopBars)
{
if (trackBanking < iBeamBankingSwitch && trackBanking > -90f)
{
leftVerticalSupportPost = ((bottomBeamEnd - trackPivot) * 0.8f) + trackPivot;
}
if (trackBanking > -iBeamBankingSwitch && trackBanking < 90f)
{
rightVerticalSupportPost = ((bottomBeamStart - trackPivot) * 0.8f) + trackPivot;
}
}
LandPatch terrain = GameController.Instance.park.getTerrain(trackPivot);
if (terrain != null)
{
groundHeight = terrain.getLowestHeight();
groundHeight = Mathf.Min(trackSegment.getStartpoint().y, trackSegment.getEndpoint().y);
}
else
{
groundHeight = 0;
}
Vector3 projectedTangentDirection = tangentPoint;
projectedTangentDirection.y = 0;
projectedTangentDirection.Normalize();
if (Mathf.Abs(trackBanking) > 90)
{
leftVerticalSupportPost.y = Mathf.Max(startPoint.y, endPoint.y);
rightVerticalSupportPost.y = Mathf.Max(startPoint.y, endPoint.y);
}
else
{
leftVerticalSupportPost.y = startPoint.y;
rightVerticalSupportPost.y = endPoint.y;
}
if (pos > supportInterval)
{
//left post
woodenVerticalSupportPostExtruder.extrude(new Vector3(leftVerticalSupportPost.x, leftVerticalSupportPost.y + supportBeamExtension, leftVerticalSupportPost.z), new Vector3(0, -1, 0), projectedTangentDirection);
woodenVerticalSupportPostExtruder.extrude(new Vector3(leftVerticalSupportPost.x, groundHeight, leftVerticalSupportPost.z), new Vector3(0, -1, 0), projectedTangentDirection);
woodenVerticalSupportPostExtruder.end();
//right post
woodenVerticalSupportPostExtruder.extrude(new Vector3(rightVerticalSupportPost.x, rightVerticalSupportPost.y + supportBeamExtension, rightVerticalSupportPost.z), new Vector3(0, -1, 0), projectedTangentDirection);
woodenVerticalSupportPostExtruder.extrude(new Vector3(rightVerticalSupportPost.x, groundHeight, rightVerticalSupportPost.z), new Vector3(0, -1, 0), projectedTangentDirection);
woodenVerticalSupportPostExtruder.end();
if (Mathf.Abs(trackBanking) > 90 != previousFlippedSupportPosts)
{
Vector3 temp = previousSupportLeft;
previousSupportLeft = previousSupportRight;
previousSupportRight = temp;
}
//Horizontal beams
float leftY = Mathf.Min(previousSupportLeft.y, leftVerticalSupportPost.y) - 0.06f;
float rightY = Mathf.Min(previousSupportRight.y, rightVerticalSupportPost.y) - 0.06f;
float connectionY = Mathf.Min(leftY, rightY);
//left horizontal beams
bool first = true;
while (leftY > groundHeight)
{
woodenHorizontalSupportPostExtruder.extrude(new Vector3(previousSupportLeft.x, leftY, previousSupportLeft.z), previousSupportTangent, Vector3.up);
woodenHorizontalSupportPostExtruder.extrude(new Vector3(leftVerticalSupportPost.x, leftY, leftVerticalSupportPost.z), projectedTangentDirection, Vector3.up);
woodenHorizontalSupportPostExtruder.end();
if (first)
{
leftY -= woodenHorizontalSupportPostExtruder.height * 1.5f;
leftY = Mathf.Floor(leftY / supportVerticalGrid) * supportVerticalGrid;
first = false;
}
else
{
leftY -= supportVerticalGrid;
}
}
first = true;
//right horizontal beams
while (rightY > groundHeight)
{
woodenHorizontalSupportPostExtruder.extrude(new Vector3(previousSupportRight.x, rightY, previousSupportRight.z), previousSupportTangent, Vector3.up);
woodenHorizontalSupportPostExtruder.extrude(new Vector3(rightVerticalSupportPost.x, rightY, rightVerticalSupportPost.z), projectedTangentDirection, Vector3.up);
woodenHorizontalSupportPostExtruder.end();
if (first)
{
rightY -= woodenHorizontalSupportPostExtruder.height * 1.5f;
rightY = Mathf.Floor(rightY / supportVerticalGrid) * supportVerticalGrid;
first = false;
}
else
{
rightY -= supportVerticalGrid;
}
}
first = true;
//connector beams
while (connectionY > groundHeight)
{
if (connectionY < bottomBeamEnd.y)
{
woodenHorizontalSupportPostExtruder.extrude(new Vector3(rightVerticalSupportPost.x, connectionY, rightVerticalSupportPost.z), Vector3.Cross(projectedTangentDirection, Vector3.up), Vector3.up);
woodenHorizontalSupportPostExtruder.extrude(new Vector3(leftVerticalSupportPost.x, connectionY, leftVerticalSupportPost.z), Vector3.Cross(projectedTangentDirection, Vector3.up), Vector3.up);
woodenHorizontalSupportPostExtruder.end();
if (!first && connectionY > supportVerticalGrid)
{
woodenHorizontalSupportPostExtruder.extrude(new Vector3(rightVerticalSupportPost.x, connectionY, rightVerticalSupportPost.z), Vector3.Cross(projectedTangentDirection, Vector3.up), Vector3.up);
woodenHorizontalSupportPostExtruder.extrude(new Vector3(leftVerticalSupportPost.x, connectionY - supportVerticalGrid, leftVerticalSupportPost.z), Vector3.Cross(projectedTangentDirection, Vector3.up), Vector3.up);
woodenHorizontalSupportPostExtruder.end();
}
}
if (first)
{
connectionY -= woodenHorizontalSupportPostExtruder.height * 1.5f;
connectionY = Mathf.Floor(connectionY / supportVerticalGrid) * supportVerticalGrid;
first = false;
}
else
{
connectionY -= supportVerticalGrid;
}
}
}
previousSupportLeft = leftVerticalSupportPost;
previousSupportRight = rightVerticalSupportPost;
previousSupportTangent = projectedTangentDirection;
previousFlippedSupportPosts = Mathf.Abs(trackBanking) > 90;
}
Vector3 intersectionPoint = new Vector3();
if (Math.Abs(trackBanking) > 90 && hasTopBars)
{
intersectionPoint = IntersectLineAndPlane(planePosition, planeSpanVector1, planeSpanVector2, topLinePosition, lineSpanVector);
if (!float.IsNaN(intersectionPoint.x))
{
if (attachToStartPoint)
{
endPoint = intersectionPoint;
}
else
{
startPoint = intersectionPoint;
}
}
}
else if (Math.Abs(trackBanking) > 0.1)
{
intersectionPoint = IntersectLineAndPlane(planePosition, planeSpanVector1, planeSpanVector2, bottomLinePosition, lineSpanVector);
}
if (Mathf.Abs(trackBanking) > 5 && !float.IsNaN(intersectionPoint.x) && (intersectionPoint - planePosition).magnitude > 0.5 && (intersectionPoint - planePosition).magnitude < 1.5)
{
WriteToFile("IntersectionPoint:" + intersectionPoint);
WriteToFile("PlanePosition:" + planePosition);
WriteToFile("Magnitude:" + (intersectionPoint - planePosition).magnitude);
WriteToFile("Difference:" + (intersectionPoint - planePosition));
WriteToFile("TrackBanking" + trackBanking);
WriteToFile("planeSpanVector1" + planeSpanVector1);
WriteToFile("planeSpanVector2" + planeSpanVector2);
WriteToFile("topLinePosition" + topLinePosition);
WriteToFile("bottomLinePasition" + bottomLinePosition);
WriteToFile("lineSpanVector" + lineSpanVector);
if (attachToStartPoint)
{
endPoint = intersectionPoint;
}
else
{
startPoint = intersectionPoint;
}
}
if (pos > supportInterval)
{
if (Mathf.Abs(trackBanking) > iBeamBankingSwitch)
{
metalIBeamExtrude(startPoint, -1f * binormal, equalHeight ? Vector3.up : normal);
metalIBeamExtrude(endPoint, -1f * binormal, equalHeight ? Vector3.up : normal);
metalIBeamEnd();
}
else
{
float distance = 1 / Mathf.Sin((90 - Mathf.Abs(trackBanking)) * Mathf.Deg2Rad);
if (attachToStartPoint)
{
endPoint = startPoint - ((startPoint - endPoint) * distance);
}
else
{
startPoint = endPoint - ((endPoint - startPoint) * distance);
}
metalCrossTieExtrude(startPoint, -1f * binormal, equalHeight ? Vector3.up : normal);
metalCrossTieExtrude(endPoint, -1f * binormal, equalHeight ? Vector3.up : normal);
metalCrossTieEnd();
}
}
}
}
List <ShapeExtruder> metalShapeExtruders = new List <ShapeExtruder>();
if (useTopperTrack)
{
metalShapeExtruders.Add(topperLeftRailExtruder);
metalShapeExtruders.Add(topperRightRailExtruder);
/*
* metalShapeExtruders.Add(metalTopperCrossTie_1);
* metalShapeExtruders.Add(metalTopperCrossTie_2);
* metalShapeExtruders.Add(metalTopperCrossTie_3);
* metalShapeExtruders.Add(metalTopperCrossTie_4);
* metalShapeExtruders.Add(metalTopperCrossTie_5);
* metalShapeExtruders.Add(metalTopperCrossTie_6);
* metalShapeExtruders.Add(metalTopperCrossTie_7);
* metalShapeExtruders.Add(metalTopperCrossTie_8);
*/
}
else
{
metalShapeExtruders.Add(iboxLeftRailExtruder);
metalShapeExtruders.Add(iboxRightRailExtruder);
}
if (metalFrontCrossTieExtruder_1.vertices.Count > 0)
{
metalShapeExtruders.Add(metalFrontCrossTieExtruder_1);
metalShapeExtruders.Add(metalFrontCrossTieExtruder_2);
metalShapeExtruders.Add(metalFrontCrossTieExtruder_3);
metalShapeExtruders.Add(metalRearCrossTieExtruder_1);
metalShapeExtruders.Add(metalRearCrossTieExtruder_2);
metalShapeExtruders.Add(metalRearCrossTieExtruder_3);
}
if (metalIBeamExtruder_1.vertices.Count > 0)
{
metalShapeExtruders.Add(metalIBeamExtruder_1);
metalShapeExtruders.Add(metalIBeamExtruder_2);
metalShapeExtruders.Add(metalIBeamExtruder_3);
}
foreach (ShapeExtruder extruder in metalShapeExtruders)
{
GameObject gameObject = new GameObject("metalObject");
gameObject.transform.parent = putMeshOnGO.transform;
gameObject.transform.localPosition = Vector3.zero;
gameObject.transform.localRotation = Quaternion.identity;
MeshRenderer meshRenderer = gameObject.AddComponent <MeshRenderer>();
meshRenderer.sharedMaterial = metalMaterial;
MeshFilter meshFilter = gameObject.AddComponent <MeshFilter>();
Mesh mesh = extruder.getMesh(putMeshOnGO.transform.worldToLocalMatrix);
trackSegment.addGeneratedMesh(mesh);
meshFilter.mesh = mesh;
}
}
