private static Point3d getSlopeIntercept(string surfaceTAR, Point3d pnt3dX, double slope, bool exists, Vector3d v3d)
{
Point3d pnt3d0 = Pub.pnt3dO;
ObjectId idSurf = Surf.getSurface(surfaceTAR, out exists);
TinSurface surf = idSurf.getEnt() as TinSurface;
try
{
pnt3d0 = surf.GetIntersectionPoint(pnt3dX, v3d);
}
catch (System.Exception)
{
v3d = new Vector3d(v3d.X, v3d.Y, -slope);
pnt3d0 = surf.GetIntersectionPoint(pnt3dX, v3d);
}
return(pnt3d0);
}
RDR()
{
string prompt, result;
bool escape = false, exists = false, done = false, done2 = false;
double trianglationFactor = 0.001; //applied to treads to avoid vertical faces0
double lenTread, lenLand, grdLandU, wthRiser;
List <riserSum> rSum = new List <riserSum>();
ResultBuffer rb;
TypedValue[] tvs;
Dict.deleteDictionary("RDR");
ObjectId idDict = Dict.getNamedDictionary("RDR", out exists);
if (exists)
{
rb = Dict.getXRec(idDict, "Defaults");
tvs = rb.AsArray();
lenTread = double.Parse(tvs[0].Value.ToString());
lenLand = double.Parse(tvs[1].Value.ToString());
grdLandU = double.Parse(tvs[2].Value.ToString());
wthRiser = double.Parse(tvs[4].Value.ToString());
}
else
{
lenTread = 11.0;
lenLand = 5.5;
grdLandU = -0.01;
wthRiser = 5.5;
}
do
{
prompt = string.Format("\nLength riser tread(LR): {0}; Width of Riser(W): {1}; Length upper landing(LL): {2}; Grade upper Landing(G): {3}; No Change <OK> [LR/W/LL/G/OK]", lenTread, wthRiser, lenLand, grdLandU);
escape = UserInput.getUserInputKeyword("OK", out result, prompt, "LR W LL G OK");
if (escape)
{
return;
}
switch (result)
{
case "LR":
UserInput.getUserInput("Enter Riser trEAD LENGTH in Inches ", out lenTread, lenTread);
break;
case "LL":
UserInput.getUserInput("Enter LENGTH of UPPER LANDING", out lenLand, lenLand);
break;
case "G":
UserInput.getUserInput("Enter SLOPE of UPPER Landing from HIGH POINT towards LOW POINT: ", out grdLandU, grdLandU);
break;
case "W":
UserInput.getUserInput("Enter RISER WIDTH: ", out wthRiser, wthRiser);
break;
case "OK":
done = true;
break;
}
}while (!done);
tvs = new TypedValue[5];
tvs.SetValue(new TypedValue(1000, lenTread), 0); //length of riser tread in inches
tvs.SetValue(new TypedValue(1000, lenLand), 1); //length of upper landing - perp to bldg
tvs.SetValue(new TypedValue(1000, grdLandU), 2); //grade of upper landing
tvs.SetValue(new TypedValue(1000, wthRiser), 4); //width of riser tread in inches
Dict.addXRec(idDict, "Defaults", new ResultBuffer(tvs));
object osMode = SnapMode.getOSnap();
SnapMode.setOSnap((int)osModes.NON);
TinSurface surf = Surf.getTinSurface("CPNT-ON", out exists);
Point3d pnt3dPick;
PromptStatus ps;
Entity ent = Select.selectEntity(typeof(Polyline3d), "\nSelect Building Floor Slab Breakline", "Selected entity was not a 3d Breakline", out pnt3dPick, out ps);
if (ps != PromptStatus.OK)
{
return;
}
Polyline3d poly3dFF = (Polyline3d)ent; //Finish Floor breakline
ent = Select.selectEntity(typeof(Polyline3d), "\nSelect Dock Apron Breakline adjacent to Building", "Selected entity was not a 3d Breakline", out pnt3dPick, out ps);
if (ps != PromptStatus.OK)
{
return;
}
Polyline3d poly3dDK = (Polyline3d)ent; //Dock brkline
List <Point3d> pnts3dDK = poly3dDK.ObjectId.getCoordinates3dList();
SnapMode.setOSnap((int)osModes.END);
Point3d pnt3dR0 = UserInput.getPnt3d(Pub.pnt3dO, "\nSelect Riser connect point: upper RH corner of upper Landing: ", osMode: 1);
Point3d pnt3dL0 = UserInput.getPnt3d(Pub.pnt3dO, "\nSelect Riser connect point: upper LH corner of upper Landing: ", osMode: 1);
Point3d pnt3dR, pnt3dL;
List <Point3d> pnts3dFF = poly3dFF.ObjectId.getCoordinates3dList();
List <Point3d> pnts3dSeg = new List <Point3d>();
int x = 0;
if (pnts3dFF.Count > 2)
{
x = Geom.getVertexNo(pnts3dFF, pnt3dR0);
pnts3dSeg.Add(pnts3dFF[x]);
pnts3dSeg.Add(pnts3dFF[x + 1]);
}
else
{
pnts3dSeg = pnts3dFF;
}
double dirSegFF = pnts3dSeg[0].getDirection(pnts3dSeg[1]);
double dirRiser = pnt3dR0.getDirection(pnt3dL0);
double dirPick = 0.0;
double testRight = Geom.testRight(pnts3dSeg[0], pnts3dSeg[1], pnt3dR0);
double angle0 = 0.0;
Point3d pnt3dTar = Pub.pnt3dO;
if (testRight > 0)
{
pnt3dTar = pnt3dR0.traverse(dirSegFF - pi / 2, 10.0);
angle0 = dirSegFF + pi / 2;
}
else
{
pnt3dTar = pnt3dR0.traverse(dirSegFF + pi / 2, 10.0);
angle0 = dirSegFF - pi / 2;
}
List <Point3d> pnts3dRay = new List <Point3d> {
pnt3dR0,
pnt3dTar
};
List <Point3d> pnts3dInt = pnts3dRay.intersectWith(pnts3dSeg, false, 0);
Point3d pnt3dRef = Pub.pnt3dO;
if (pnts3dInt.Count > 0)
{
pnt3dRef = pnts3dInt[0];
}
double slope = (pnts3dSeg[1].Z - pnts3dSeg[0].Z) / pnts3dSeg[0].getDistance(pnts3dSeg[1]);
double dirDiff = System.Math.Round(dirSegFF - dirRiser, 3);
double slopeRiser = 0.0;
if (dirDiff == 0)
{
slopeRiser = slope;
}
else
{
slopeRiser = -slope;
}
double dist0 = pnts3dSeg[0].getDistance(pnt3dRef);
double distTest = Geom.getPerpDistToLine(pnts3dSeg[0], pnts3dSeg[1], pnt3dR0);
Vector3d v3d = new Vector3d(sMath.Cos(dirSegFF), sMath.Sin(dirSegFF), slope);
Point3d pnt3dRBase = pnt3dR0;
Point3d pnt3dRff, pnt3dLff;
ObjectId idCgPnt = ObjectId.Null;
ObjectId idPoly3d = ObjectId.Null;
uint pntNum = 0;
int numRisers = 1;
double distBetween = 0.0;
bool single = false;
prompt = "\nMode <Single/Multiple> [S/M]";
result = string.Empty;
escape = UserInput.getUserInputKeyword("S", out result, prompt, "S M");
if (escape)
{
return;
}
switch (result)
{
case "S":
numRisers = 1;
single = true;
break;
case "M":
prompt = "\nUnEven or Even Spacing [U/E]";
escape = UserInput.getUserInputKeyword("U", out result, prompt, "U E");
if (escape)
{
return;
}
switch (result)
{
case "E":
escape = UserInput.getUserInput("Enter # of risers to calculate: ", out result);
if (escape)
{
return;
}
numRisers = int.Parse(result.ToString());
escape = UserInput.getUserInput("Enter Spacing: ", out result);
if (escape)
{
return;
}
distBetween = double.Parse(result.ToString());
Point3d pnt3dEnd = UserInput.getPoint("\nSelect upper RH corner of landing at next riser in direction of target risers:", out ps, osMode: 1);
if (pnt3dEnd == Pub.pnt3dO)
{
return;
}
double distX = pnt3dR0.getDistance(pnt3dEnd);
double diffX = sMath.Round(sMath.Abs(distX - distBetween), 3);
if (diffX > 0)
{
Application.ShowAlertDialog("Distance between picked points and Spacing does not agree. Exiting...");
return;
}
dirPick = pnt3dR0.getDirection(pnt3dEnd);
break;
case "U":
numRisers = 1;
distBetween = 0.0;
dirPick = 0.0;
break;
}
break;
}
int k = 0;
do
{
done2 = single;
for (int p = 0; p < numRisers; p++)
{
double dist0X = 0;
if (distBetween != 0)
{ //multiple risers - even spacing
pnt3dR0 = pnt3dRBase + v3d * p * distBetween;
dist0X = dist0 + (p * distBetween);
pnt3dRff = pnts3dSeg[0] + v3d * dist0X;
if (p == numRisers - 1)
{
done2 = true;
}
}
else if (!single)
{ //multiple risers - uneven spacing
if (k == 0)
{ //
pnt3dRff = pnts3dSeg[0].traverse(dirSegFF, dist0, slope);
dist0X = dist0;
k++;
}
else
{
pnt3dR0 = UserInput.getPoint("Select upper RH corner of landing at next riser: ", out ps, osMode: 8);
if (pnt3dR0 == Pub.pnt3dO)
{
done2 = true;
break;
}
dist0X = Geom.getPerpDistToLine(pnts3dSeg[0], pnts3dSeg[1], pnt3dR0);
pnt3dRff = pnts3dSeg[0].traverse(dirSegFF, dist0X, slope);
}
}
else
{
pnt3dRff = pnts3dSeg[0].traverse(dirSegFF, dist0, slope); //single riser
dist0X = dist0;
}
idCgPnt = pnt3dRff.setPoint(out pntNum, "CPNT-ON");
pnt3dLff = pnt3dRff.traverse(dirRiser, wthRiser, slopeRiser);
idCgPnt = pnt3dLff.setPoint(out pntNum, "CPNT-ON");
double elev0 = pnts3dSeg[0].Z + slope * dist0X;
pnt3dR0 = new Point3d(pnt3dR0.X, pnt3dR0.Y, elev0 - 0.04); //point at upper right side of upper landing
idPoly3d = Draw.addPoly3d(pnt3dRff, pnt3dR0, "CPNT-BRKLINE");
pnt3dL0 = pnt3dR0.traverse(dirRiser, wthRiser, slopeRiser); //point at upper left side of upper landing
idPoly3d = Draw.addPoly3d(pnt3dLff, pnt3dL0, "CPNT-BRKLINE");
Point3dCollection pnts3dR = new Point3dCollection();
pnts3dR.Add(pnt3dR0);
idCgPnt = pnt3dR0.setPoint(out pntNum, "CPNT-ON");
addRiserCallout(idCgPnt, angle0 + pi, -1);
Point3dCollection pnts3dL = new Point3dCollection();
pnts3dL.Add(pnt3dL0);
idCgPnt = pnt3dL0.setPoint(out pntNum, "CPNT-ON");
addRiserCallout(idCgPnt, angle0 + pi, 1);
pnt3dR = pnt3dR0.traverse(angle0, lenLand - trianglationFactor, grdLandU); //point at lower right side of upper landing
pnts3dR.Add(pnt3dR);
idCgPnt = pnt3dR.setPoint(out pntNum, "CPNT-ON");
addRiserCallout(idCgPnt, angle0, 1);
Point3d pnt3dBase = pnt3dR.traverse(angle0, trianglationFactor);
pnt3dL = pnt3dR.traverse(dirRiser, wthRiser, slopeRiser); //point at lower left side of upper landing
pnts3dL.Add(pnt3dL);
idCgPnt = pnt3dL.setPoint(out pntNum, "CPNT-ON");
addRiserCallout(idCgPnt, angle0, -1);
idPoly3d = Draw.addPoly3d(pnt3dR, pnt3dL, "CPNT-BRKLINE");
Dictionary <double, double> res = new Dictionary <double, double>();
done = false;
double dZ = 0.0, adj = 0.0, distX = 0.0, steps = 0.0, rem = 0.0, hgtRiser = 0.0;
int stepX = 0;
double elevSurface = 0.0;
double i = 7.0;
do
{
pnt3dR = new Point3d(pnt3dBase.X, pnt3dBase.Y, pnt3dBase.Z - i / 12.0); //bottom of first step for height - Base was adjusted for triangulationFactor
elevSurface = surf.FindElevationAtXY(pnt3dR.X, pnt3dR.Y);
dZ = pnt3dR.Z - elevSurface;
if (dZ < i / 12)
{
break;
}
Vector3d v3dx = new Vector3d(System.Math.Cos(angle0), System.Math.Sin(angle0), -i / lenTread);
Point3d pnt3dX = surf.GetIntersectionPoint(pnt3dR, v3dx);
distX = pnt3dR.getDistance(pnt3dX);
steps = distX / (lenTread / 12);
rem = System.Math.Truncate(steps) + 1 - steps;
res.Add(i, rem);
if (rem < 0.05)
{
stepX = (int)System.Math.Truncate(steps) + 1;
adj = rem * i / 12;
hgtRiser = i;
if (rem * i < stepX * 0.0625)
{
hgtRiser = i - 0.0625;
adj = adj - stepX * 0.0625 / 12;
}
break;
}
if (i == 4)
{
done = true;
}
i = i - 0.0625;
}while (!done);
string dimV = Conv.decimalToFraction(hgtRiser);
string topTxt = string.Format("({0}) {1}", stepX, dimV);
rSum.Add(new riserSum {
idPoly3d = idPoly3d, angle = angle0, lenLanding = lenLand, topText = topTxt
});
pnts3dR.Add(pnt3dR);
pnt3dL = pnt3dR.traverse(dirRiser, wthRiser, slopeRiser);
pnts3dL.Add(pnt3dL);
for (int n = 1; n < steps; n++)
{
pnt3dR = pnt3dR.traverse(angle0, lenTread / 12 - trianglationFactor); //adjusted to avoid vertical faces
pnts3dR.Add(pnt3dR);
pnt3dL = pnt3dR.traverse(dirRiser, wthRiser, slopeRiser);
pnts3dL.Add(pnt3dL);
idPoly3d = Draw.addPoly3d(pnt3dR, pnt3dL, "CPNT-BRKLINE");
pnt3dR = pnt3dR.traverse(angle0, trianglationFactor); //get back to correct location
pnt3dR = new Point3d(pnt3dR.X, pnt3dR.Y, pnt3dR.Z - hgtRiser / 12);
pnts3dR.Add(pnt3dR);
pnt3dL = pnt3dR.traverse(dirRiser, wthRiser, slopeRiser);
pnts3dL.Add(pnt3dL);
idPoly3d = Draw.addPoly3d(pnt3dR, pnt3dL, "CPNT-BRKLINE");
}
pnt3dR = pnt3dR.traverse(angle0, lenTread / 12 - 0.005); //shorten width of last tread to avoid vertical faces
pnts3dR.Add(pnt3dR);
pnt3dL = pnt3dR.traverse(dirRiser, wthRiser, slopeRiser);
pnts3dL.Add(pnt3dL);
idPoly3d = Draw.addPoly3d(pnt3dR, pnt3dL, "CPNT-BRKLINE");
pnt3dR = pnt3dR.traverse(angle0, 0.005); //makeup for reduced width of tread
pnt3dR = new Point3d(pnt3dR.X, pnt3dR.Y, pnt3dR.Z - (hgtRiser / 12 - adj));
pnts3dR.Add(pnt3dR);
idCgPnt = pnt3dR.setPoint(out pntNum, "CPNT-ON");
addRiserCallout(idCgPnt, angle0, 1);
pnt3dL = pnt3dR.traverse(dirRiser, wthRiser, slopeRiser);
pnts3dL.Add(pnt3dL);
idCgPnt = pnt3dL.setPoint(out pntNum, "CPNT-ON");
addRiserCallout(idCgPnt, angle0, -1);
pnt3dR = pnt3dR.traverse(angle0 + pi / 2, 0.5, slope); //point at toe of stairs / outside face of sidewall
idCgPnt = pnt3dR.setPoint(out pntNum, "CPNT-ON");
pnt3dL = pnt3dL.traverse(angle0 - pi / 2, 0.5, slopeRiser); //point at toe of stairs / outside face of sidewall
idCgPnt = pnt3dL.setPoint(out pntNum, "CPNT-ON");
List <Point3d> pnts3dSegDK = new List <Point3d>();
if (pnts3dDK.Count > 2)
{
x = Geom.getVertexNo(pnts3dDK, pnt3dR);
pnts3dSegDK.Add(pnts3dDK[x]);
pnts3dSegDK.Add(pnts3dDK[x + 1]);
}
else
{
pnts3dSegDK = pnts3dDK;
}
double dirSegDK = pnts3dSegDK[0].getDirection(pnts3dSegDK[1]);
double slopeDK = pnts3dSegDK[0].getSlope(pnts3dSegDK[1]);
double lenR = Geom.getPerpDistToLine(pnts3dSegDK[0], pnts3dSegDK[1], pnt3dR);
Point3d pnt3dRint = pnts3dSegDK[0].traverse(dirSegDK, lenR, slopeDK);
idCgPnt = pnt3dRint.setPoint(out pntNum, "CPNT-ON");
addRiserCallout(idCgPnt, angle0, 1);
double lenL = Geom.getPerpDistToLine(pnts3dSegDK[0], pnts3dSegDK[1], pnt3dL);
Point3d pnt3dLint = pnts3dSegDK[0].traverse(dirSegDK, lenL, slopeDK);
idCgPnt = pnt3dLint.setPoint(out pntNum, "CPNT-ON");
addRiserCallout(idCgPnt, angle0, -1);
if (lenL > lenR)
{
pnts3dDK.Insert(x + 1, pnt3dRint);
pnts3dDK.Insert(x + 2, pnt3dR);
pnts3dDK.Insert(x + 3, pnt3dL);
pnts3dDK.Insert(x + 4, pnt3dLint);
}
else
{
pnts3dDK.Insert(x + 1, pnt3dLint);
pnts3dDK.Insert(x + 2, pnt3dL);
pnts3dDK.Insert(x + 3, pnt3dR);
pnts3dDK.Insert(x + 4, pnt3dRint);
}
ObjectId idPoly3dR = Draw.addPoly3d(pnts3dR, "CPNT-BRKLINE");
ObjectId idPoly3dL = Draw.addPoly3d(pnts3dL, "CPNT-BRKLINE");
tvs = new TypedValue[4];
tvs.SetValue(new TypedValue(1001, apps.lnkRiser), 0);
tvs.SetValue(new TypedValue(1000, "cmdRDR"), 1);
tvs.SetValue(new TypedValue(1000, "R"), 2);
tvs.SetValue(new TypedValue(1005, idPoly3dL.getHandle()), 3);
idPoly3dR.setXData(tvs, apps.lnkRiser);
tvs = new TypedValue[4];
tvs.SetValue(new TypedValue(1001, apps.lnkRiser), 0);
tvs.SetValue(new TypedValue(1000, "cmdRDR"), 1);
tvs.SetValue(new TypedValue(1000, "L"), 2);
tvs.SetValue(new TypedValue(1005, idPoly3dR.getHandle()), 3);
idPoly3dL.setXData(tvs, apps.lnkRiser);
}
}while (!done2);
foreach (riserSum r in rSum)
{
Point3d pnt3dMid = r.idPoly3d.getBegPnt().getMidPoint2d(r.idPoly3d.getEndPnt());
addRiserSummaryCallout(pnt3dMid, r.angle, r.lenLanding, r.topText);
}
Point3dCollection pnts3dDKc = new Point3dCollection();
foreach (Point3d pnt3d in pnts3dDK)
{
pnts3dDKc.Add(pnt3d);
}
ObjectId idPoly3dDK = Draw.addPoly3d(pnts3dDKc, "CPNT-BRKLINE");
poly3dDK.ObjectId.delete();
SnapMode.setOSnap((int)osMode);
}
setupSlope(int intSide,
Point3d pnt3dA,
Point3d pnt3dB,
Point3d pnt3dC,
double slope,
ref Boolean doFirst,
string surfTar,
string surfDES,
ref List <Point3d> pnts3dB1,
ref List <Point3d> pnts3dB2,
ref List <Point3d> pnts3dD,
ref List <Point3d> pnts3dR)
{
double dblB1Width = Convert.ToDouble(fmain.strB1Width.ToString());
double dblB2Width = Convert.ToDouble(fmain.strB2Width.ToString());
double dblB1Slope = Convert.ToDouble(fmain.strB1Slope.ToString());
double dblB2Slope = Convert.ToDouble(fmain.strB2Slope.ToString());
Boolean boolB1 = fmain.boolB1;
Boolean boolB2 = fmain.boolB1;
Boolean success = false;
double dblAngAB = pnt3dA.getDirection(pnt3dB);
double dblAngBC = pnt3dB.getDirection(pnt3dC);
double dblAngABC = Geom.getAngle3Points(pnt3dA, pnt3dB, pnt3dC);
Point3d pnt3dX;
bool exists = false;
List <Point3d> pnts3dT = new List <Point3d>();
ObjectId idSurf = Surf.getSurface(surfTar, out exists);
TinSurface surf = idSurf.getEnt() as TinSurface;
double dblAng = dblAngAB + PI / 2 * intSide;
Vector3d v3d = new Vector3d(System.Math.Cos(dblAng), System.Math.Sin(dblAng), -slope);
pnts3dT = getIntermediates(pnt3dA, pnt3dB, dblAngAB);
for (int i = 0; i < pnts3dT.Count; i++)
{
pnts3dR.Add(pnts3dT.ElementAt(i));
}
if (doFirst == true)
{
pnt3dX = pnts3dT.ElementAt(0);
if (boolB1 == true)
{
pnt3dX = pnt3dX.traverse(dblAng, dblB1Width, dblB1Slope);
pnts3dB1.Add(pnt3dX);
}
if (boolB2 == true)
{
pnt3dX = pnt3dX.traverse(dblAng, dblB2Width, dblB2Slope);
}
Point3d pnt3d00 = surf.GetIntersectionPoint(pnt3dX, v3d);
pnts3dD.Add(pnt3d00);
if (boolB2 == true)
{
pnt3dX = pnt3d00.traverse(dblAng + PI, dblB2Width, -dblB2Slope);
pnts3dB2.Add(pnt3dX);
}
}
for (int i = 1; i < pnts3dT.Count; i++)
{
pnt3dX = pnts3dT.ElementAt(i);
if (boolB1 == true)
{
pnt3dX = pnt3dX.traverse(dblAng, dblB1Width, dblB1Slope);
pnts3dB1.Add(pnt3dX);
}
if (boolB2 == true)
{
pnt3dX = pnt3dX.traverse(dblAng, dblB2Width, dblB2Slope);
}
Point3d pnt3d01 = surf.GetIntersectionPoint(pnt3dX, v3d);
pnts3dD.Add(pnt3d01);
if (boolB2 == true)
{
pnt3dX = pnt3d01.traverse(dblAng + PI, dblB2Width, -dblB2Slope);
pnts3dB2.Add(pnt3dX);
}
}
//do mid delta
double dblAngV = intSide * dblAngBC + (2 * PI - dblAngABC) / 2;
pnt3dX = pnts3dT.ElementAt(pnts3dT.Count - 1);
if (boolB1 == true)
{
pnt3dX = pnt3dX.traverse(dblAngV, dblB1Width, dblB1Slope);
pnts3dB1.Add(pnt3dX);
}
if (boolB2 == true)
{
pnt3dX = pnt3dX.traverse(dblAngV, dblB2Width, dblB2Slope);
}
Point3d pnt3d02 = surf.GetIntersectionPoint(pnt3dX, v3d);
pnts3dD.Add(pnt3d02);
if (boolB2 == true)
{
pnt3dX = pnt3d02.traverse(dblAngV + PI, dblB2Width, -dblB2Slope);
pnts3dB2.Add(pnt3dX);
}
return(success);
} // end setupSlope
setupSlope(int intSide,
Point3d pnt3dA,
Point3d pnt3dB,
double slope,
ref Boolean boolDoFirst,
string strSurfaceTAR,
string strSurfaceDES,
ref List <Point3d> pnts3dB1,
ref List <Point3d> pnts3dB2,
ref List <Point3d> pnts3dD,
ref List <Point3d> pnts3dR)
{
double dblB1Width = Convert.ToDouble(fmain.strB1Width.ToString());
double dblB2Width = Convert.ToDouble(fmain.strB2Width.ToString());
double dblB1Slope = Convert.ToDouble(fmain.strB1Slope.ToString());
double dblB2Slope = Convert.ToDouble(fmain.strB2Slope.ToString());
Boolean boolB1 = fmain.boolB1;
Boolean boolB2 = fmain.boolB1;
Boolean boolSuccess = false;
double dblAngAB = pnt3dA.getDirection(pnt3dB);
//double[] dblPnts = new double[] { };
Point3d pnt3dX;
bool exists = false;
List <Point3d> pnts3dT = new List <Point3d>();
double dblAng = dblAngAB + PI / 2 * intSide;
pnts3dT = getIntermediates(pnt3dA, pnt3dB, dblAngAB);
for (int i = 0; i < pnts3dT.Count; i++)
{
pnts3dR.Add(pnts3dT.ElementAt(i));
}
for (int i = 0; i < pnts3dT.Count; i++)
{
pnt3dX = pnts3dT.ElementAt(i);
if (boolB1 == true)
{
pnt3dX = pnt3dX.traverse(dblAng, dblB1Width, dblB1Slope);
pnts3dB1.Add(pnt3dX);
}
if (boolB2 == true)
{
pnt3dX = pnt3dX.traverse(dblAng, dblB2Width, dblB2Slope);
}
ObjectId idSurf = Surf.getSurface(strSurfaceTAR, out exists);
TinSurface surf = idSurf.getEnt() as TinSurface;
Vector3d v3d = new Vector3d(System.Math.Cos(dblAng), System.Math.Sin(dblAng), -slope);
Point3d pnt3d0 = Pub.pnt3dO;
try
{
pnt3d0 = surf.GetIntersectionPoint(pnt3dX, v3d);
}
catch (System.Exception)
{
v3d = new Vector3d(v3d.X, v3d.Y, slope);
pnt3d0 = surf.GetIntersectionPoint(pnt3dX, v3d);
}
pnts3dD.Add(pnt3d0);
if (boolB2 == true)
{
pnt3dX = pnt3d0.traverse(dblAng + PI, dblB2Width, -dblB2Slope);
pnts3dB2.Add(pnt3dX);
}
}
return(boolSuccess);
} // end setupSlope
internal void setupSlope()
{
double dblAngAB = _pnt3dA.getDirection(_pnt3dB);
Point3d pnt3dX;
bool exists = false;
List <Point3d> pnts3dT = new List <Point3d>();
double dblAng = dblAngAB + pi / 2 * _intSide;
pnts3dT = getIntermediates(_pnt3dA, _pnt3dB, dblAngAB, _interval);
for (int i = 0; i < pnts3dT.Count; i++)
{
_pnts3dR.Add(pnts3dT[i]);
}
for (int i = 0; i < pnts3dT.Count; i++)
{
pnt3dX = pnts3dT[i];
if (_doB1 == true)
{
pnt3dX = pnt3dX.traverse(dblAng, _B1Width, _B1Slope);
_pnts3dB1.Add(pnt3dX);
}
if (_doB2 == true)
{
pnt3dX = pnt3dX.traverse(dblAng, _B2Width, _B2Slope);
}
Vector3d v3d = new Vector3d(System.Math.Cos(dblAng), System.Math.Sin(dblAng), _slope);
Point3d pnt3d0 = Pub.pnt3dO;
if (_strSurfaceTAR != "")
{
ObjectId idSurf = Surf.getSurface(_strSurfaceTAR, out exists);
TinSurface surf = idSurf.getEnt() as TinSurface;
try
{
pnt3d0 = surf.GetIntersectionPoint(pnt3dX, v3d);
}
catch (System.Exception)
{
v3d = new Vector3d(v3d.X, v3d.Y, -_slope);
pnt3d0 = surf.GetIntersectionPoint(pnt3dX, v3d);
}
}
else
{
try
{
double elevDiff = _elev - pnt3dX.Z;
if (elevDiff > 0)
{
pnt3d0 = pnt3dX.traverse(dblAng, elevDiff / _slope, _slope);
}
else
{
pnt3d0 = pnt3dX.traverse(dblAng, System.Math.Abs(elevDiff) / _slope, -_slope);
}
}
catch (System.Exception ex)
{
BaseObjs.writeDebug(ex.Message + " Grading_SetupSlope.cs: line: 122");
}
}
_pnts3dD.Add(pnt3d0);
if (_doB2 == true)
{
pnt3dX = pnt3d0.traverse(dblAng + pi, _B2Width, -_B2Slope);
_pnts3dB2.Add(pnt3dX);
}
}
}
