private static TopoDSShape BuildTopoDsShapeHandle(gpAx2 axis, double edgeLength)
{
var axisLocation = axis.Location;
var translationVector = new gpVec(axis.XDirection);
translationVector.Normalize();
translationVector.Multiply(edgeLength * Math.Sqrt(2) / 2);
translationVector.Rotate(axis.Axis, Math.PI / 4);
var firstPoint = new Point3D(axisLocation.Translated(translationVector));
translationVector.Rotate(axis.Axis, Math.PI / 2);
var secondPoint = new Point3D(axisLocation.Translated(translationVector));
translationVector.Rotate(axis.Axis, Math.PI / 2);
var thirdPoint = new Point3D(axisLocation.Translated(translationVector));
translationVector.Rotate(axis.Axis, Math.PI / 2);
var fourthPoint = new Point3D(axisLocation.Translated(translationVector));
var firstLine = GeomUtils.BuildLine(firstPoint, secondPoint);
var secondLine = GeomUtils.BuildLine(secondPoint, thirdPoint);
var thirdLine = GeomUtils.BuildLine(thirdPoint, fourthPoint);
var fourthLine = GeomUtils.BuildLine(fourthPoint, firstPoint);
var wireList = new List <TopoDSWire> {
firstLine, secondLine, thirdLine, fourthLine
};
var face = GeomUtils.MakeFace(wireList);
return(face);
}
/// <summary>
/// Detects parallelism with other geometry points
/// </summary>
/// <param name = "currentPoint"></param>
/// <param name = "initialPosition"></param>
/// <returns></returns>
public SolverPreviewObject GeometryParallel(Point3D currentPoint, Point3D initialPosition)
{
var qosLock = QosFactory.Instance.Get(QosNames.ParallelLineLock);
qosLock.Begin();
var vec = new gpVec(initialPosition.GpPnt, currentPoint.GpPnt);
foreach (var solverGeometricObject in LastGeometry)
{
if (solverGeometricObject.ParallelAxis.Count == 0)
{
continue;
}
foreach (var axis in solverGeometricObject.ParallelAxis)
{
if (vec.IsParallel(axis.Vector, _precision))
{
return(ProjectPointOnDirection(initialPosition, currentPoint, new gpDir(axis.Vector), Color.Black));
}
}
}
qosLock.End();
return(null);
}
private static TopoDSShape BuildTopoDsShapeHandle(gpAx2 coordinate, double edgeLength)
{
var axisLocation = coordinate.Location;
var thirdPointVector = new gpVec(coordinate.XDirection);
thirdPointVector.Multiply(edgeLength);
var thirdPoint = new Point3D(axisLocation.Translated(thirdPointVector));
var secondPointVector = new gpVec(coordinate.YDirection);
secondPointVector.Multiply(edgeLength);
var secondPoint = new Point3D(axisLocation.Translated(secondPointVector));
var firstPoint = new Point3D(axisLocation.Translated(secondPointVector.Reversed));
var firstLine = GeomUtils.BuildLine(firstPoint, secondPoint);
var secondLine = GeomUtils.BuildLine(secondPoint, thirdPoint);
var thirdLine = GeomUtils.BuildLine(thirdPoint, firstPoint);
var wireList = new List <TopoDSWire> {
firstLine, secondLine, thirdLine
};
var face = GeomUtils.MakeFace(wireList);
var extrusionVector = new gpVec(coordinate.Direction);
extrusionVector.Normalize();
extrusionVector.Multiply(edgeLength / 2);
return(new BRepPrimAPIMakePrism(face, extrusionVector, false, true).Shape);
}
public override gpAx2 GetPointLocation(int index)
{
var transform = Node.Get <TransformationInterpreter>().CurrTransform;
var ax2 = new gpAx2();
ax2.Location = Dependency[0].TransformedPoint3D.GpPnt;
var circleCenter = Dependency[0].TransformedPoint3D.GpPnt;
var circleAxis = new gpAx1();
circleAxis.Location = (Dependency[0].TransformedPoint3D.GpPnt);
var pointOnCircle = GetPointOnCircle(circleAxis, Dependency[1].Real, transform);
var radius = pointOnCircle.Distance(circleCenter);
var leftArrowVector = new gpVec(circleCenter, pointOnCircle);
leftArrowVector.Normalize();
leftArrowVector.Multiply(radius + DistanceToObject);
var leftArrowLocation = circleCenter.Translated(leftArrowVector);
var rightArrowVector = leftArrowVector.Reversed;
var rightArrowLocation = circleCenter.Translated(rightArrowVector);
var topArrowVector = new gpVec(leftArrowVector.XYZ);
topArrowVector.Cross(new gpVec(ax2.Direction));
topArrowVector.Normalize();
topArrowVector.Multiply(radius + DistanceToObject);
var topArrowLocation = circleCenter.Translated(topArrowVector);
var bottomArrowVector = topArrowVector.Reversed;
var bottomArrowLocation = circleCenter.Translated(bottomArrowVector);
switch (index)
{
case 0:
ax2.Location = (leftArrowLocation);
ax2.XDirection = (new gpDir(leftArrowVector));
return(ax2);
case 1:
ax2.Location = (topArrowLocation);
ax2.XDirection = (new gpDir(topArrowVector));
return(ax2);
case 2:
ax2.Location = (rightArrowLocation);
ax2.XDirection = (new gpDir(rightArrowVector));
return(ax2);
case 3:
ax2.Location = (bottomArrowLocation);
ax2.XDirection = (new gpDir(bottomArrowVector));
return(ax2);
default:
return(null);
}
}
private static TopoDSShape BuildTopoDsShapeHandle(gpAx2 coordinate, double edgeLength)
{
var axisLocation = coordinate.Location;
var firstPoint = new Point3D(axisLocation);
var secondPointVector = new gpVec(coordinate.Direction);
secondPointVector.Multiply(edgeLength);
var secondPoint = new Point3D(axisLocation.Translated(secondPointVector));
var thirdPointVector = new gpVec(coordinate.XDirection);
thirdPointVector.Multiply(edgeLength);
var thirdPoint = new Point3D(axisLocation.Translated(thirdPointVector));
var firstLine = GeomUtils.BuildLine(firstPoint, secondPoint);
var secondLine = GeomUtils.BuildLine(secondPoint, thirdPoint);
var thirdLine = GeomUtils.BuildLine(thirdPoint, firstPoint);
var wireList = new List <TopoDSWire> {
firstLine, secondLine, thirdLine
};
var face = GeomUtils.MakeFace(wireList);
return(face);
}
public static void ShowFaceDirection(TopoDSFace face, Document Document)
{
var p1 = new gpPnt();
var v1 = new gpVec();
var v2 = new gpVec();
var sf = new BRepAdaptorSurface(face, true);
var u = sf.FirstUParameter;
var x = sf.LastUParameter;
if (Precision.IsInfinite(u))
{
u = (Precision.IsInfinite(x)) ? 0.0 : x;
}
else if (!Precision.IsInfinite(x))
{
u = (u + x) / 2.0;
}
var v = sf.FirstVParameter;
x = sf.LastVParameter;
if (Precision.IsInfinite(v))
{
v = (Precision.IsInfinite(x)) ? 0.0 : x;
}
else if (!Precision.IsInfinite(x))
{
v = (v + x) / 2.0;
}
sf.D1(u, v, p1, v1, v2);
var vector = v1.Crossed(v2);
x = vector.Magnitude;
// The direction vector length
const double length = 70.0;
if (x > 0.0000001)
{
vector.Multiply(length / x);
}
else
{
vector.SetCoord(length / 2.0, 0, 0);
}
var p2 = new gpPnt(p1.X, p1.Y, p1.Z);
p2.Translate(vector);
if (p1.IsEqual(p2, Precision.Confusion))
{
return;
}
DrawArrow(Document, p1, p2, face.Orientation());
}
private static gpTrsf BuildTranslation(Point3D point1, Point3D point2)
{
var vector = new gpVec(point1.GpPnt, point2.GpPnt);
var transformation = new gpTrsf();
transformation.SetTranslation(vector);//{Translation = vector};
return(transformation);
}
public static void DisplayTemporaryDimension(Document animationDocument, Node baseNode, Node extrusion, Mouse3DPosition mouseData, bool enableSelection)
{
var subShape = new NodeBuilder(animationDocument, FunctionNames.SubShape);
subShape[0].Reference = extrusion;
subShape[1].Integer = 1;
subShape[2].Integer = (int)TopAbsShapeEnum.TopAbs_EDGE;
subShape.ExecuteFunction();
if (subShape.Shape == null)
{
return;
}
var edge = TopoDS.Edge(subShape.Shape);
var baseNodeBuilder = new NodeBuilder(baseNode);
var gravityCenter = GeomUtils.ExtractGravityCenter(baseNodeBuilder.Shape);
var firstPoint = new Point3D();
var firstPointCalculated = GeomUtils.CalculateEdgeFirstPoint(edge);
if (firstPointCalculated != null)
{
firstPoint = (Point3D)firstPointCalculated;
}
var secondPoint = new Point3D();
var secondPointCalculated = GeomUtils.CalculateEdgeLastPoint(edge);
if (secondPointCalculated != null)
{
secondPoint = (Point3D)secondPointCalculated;
}
var middlePoint = GeomUtils.ComputeMidPoint(firstPoint, secondPoint);
// Translate the dimenion text at some distance from the extrude
var vector = new gpVec(firstPoint.GpPnt, gravityCenter.GpPnt);
vector.Reverse();
vector.Normalize();
vector.Multiply(2);
middlePoint = GeomUtils.BuildTranslation(middlePoint, vector);
subShape.Visibility = ObjectVisibility.Hidden;
// Build a distance dimension just for animation purposes
var animationBuilder = new NodeBuilder(animationDocument, FunctionNames.PointsDimension);
animationBuilder[0].TransformedPoint3D = firstPoint;
animationBuilder[1].TransformedPoint3D = secondPoint;
animationBuilder[2].TransformedPoint3D = middlePoint;
animationBuilder[3].Integer = (int)DsgPrsArrowSide.DsgPrs_AS_FIRSTPT_LASTAR;
animationBuilder[4].Real = 1;
animationBuilder.EnableSelection = false;
animationBuilder.Color = Color.Black;
animationBuilder.ExecuteFunction();
}
private static TopoDSFace BuildPlane(gpAx2 orientation, double rectangleLength)
{
var diagonalVector = new gpVec(orientation.XDirection);
diagonalVector.Multiply(rectangleLength * Math.Sqrt(2));
var secondPoint = GeomUtils.BuildTranslation(new Point3D(orientation.Location), diagonalVector);
return(OccShapeCreatorCode.BuildRectangle(orientation.Location, secondPoint.GpPnt, orientation.Direction));
}
public override void UpdatePointPosition(int index, Mouse3DPosition vertex)
{
var trsfInterpreter = Node.Set <TransformationInterpreter>();
if (_initialDraggingPosition == null)
{
InitializeDragging(vertex, trsfInterpreter);
}
//Log.DebugFormat("@pivot {0} {1} {2}", trsfInterpreter.Pivot.X(), trsfInterpreter.Pivot.Y(), trsfInterpreter.Pivot.Z());
var rotate = new gpPnt(0, 0, 0);
var startDraggingVector = new gpVec(trsfInterpreter.Pivot, _initialDraggingPosition.Value.GpPnt);
if (startDraggingVector.Magnitude <= gp.Resolution)
{
return;
}
var currentDraggingVector = new gpVec(trsfInterpreter.Pivot, vertex.Point.GpPnt);
if (currentDraggingVector.Magnitude <= gp.Resolution)
{
return;
}
var currentGizmo = GetPointLocation(index);
var rotationAxis = currentGizmo.Direction;
if (rotationAxis.IsParallel(gp.OX.Direction, Precision.Angular))
{
var rotationAngle =
startDraggingVector.AngleWithRef(currentDraggingVector, new gpVec(gp.OX.Direction)) -
_previousAngle;
_previousAngle = startDraggingVector.AngleWithRef(currentDraggingVector,
new gpVec(gp.OX.Direction));
rotate.X = GeomUtils.RadiansToDegrees(rotationAngle);
}
else if (rotationAxis.IsParallel(gp.OY.Direction, Precision.Angular))
{
var rotationAngle =
startDraggingVector.AngleWithRef(currentDraggingVector, new gpVec(gp.OY.Direction)) -
_previousAngle;
_previousAngle = startDraggingVector.AngleWithRef(currentDraggingVector,
new gpVec(gp.OY.Direction));
rotate.Y = GeomUtils.RadiansToDegrees(rotationAngle);
}
else if (rotationAxis.IsParallel(gp.OZ.Direction, Precision.Angular))
{
var rotationAngle =
startDraggingVector.AngleWithRef(currentDraggingVector, new gpVec(gp.OZ.Direction)) -
_previousAngle;
_previousAngle = startDraggingVector.AngleWithRef(currentDraggingVector,
new gpVec(gp.OZ.Direction));
rotate.Z = GeomUtils.RadiansToDegrees(rotationAngle);
}
//Log.DebugFormat("@rotation angle {0}", GeomUtils.RadiansToDegrees(rotationAngle));
trsfInterpreter.Rotate = rotate;
}
/// <summary>
/// Builds a box receiving three points that describe the base rectangle and one being the height
/// </summary>
/// <param name = "axis"></param>
/// <param name = "secondPoint"></param>
/// <param name = "height"></param>
/// <returns></returns>
private static TopoDSShape MakeBox(gpAx1 axis, Point3D secondPoint, double height)
{
var face = OccShapeCreatorCode.BuildRectangle(axis.Location, secondPoint.GpPnt, axis.Direction);
// Get the direction
var dir = GeomUtils.ExtractDirection(face);
var vector = new gpVec(dir);
vector.Multiply(height);
return(new BRepPrimAPIMakePrism(face, vector, false, true).Shape);
}
private static Point3D CalculateEndPointOnArc(Point3D center, Point3D startPoint, Point3D currentEndPoint)
{
var radius = center.Distance(startPoint);
Ensure.IsTrue(radius > 0);
var endPointVector = new gpVec(center.GpPnt, currentEndPoint.GpPnt);
endPointVector.Normalize();
endPointVector.Multiply(radius);
return(GeomUtils.BuildTranslation(center, endPointVector));
}
/// <summary>
/// Build a vector from the two pints, scale the vector with the desired value
/// and calculate a transformation applied on the first point to generate where
/// the second point should be.
/// </summary>
public static Point3D ScaleSegment(Point3D point1, Point3D point2, double scale)
{
var vector = new gpVec(point1.GpPnt, point2.GpPnt);
vector.Scale(scale);
var transformation = new gpTrsf();
transformation.SetTranslation(vector);
// Apply the transformation on the vertex
return(new Point3D(point1.GpPnt.Transformed(transformation)));
}
public void ApplyGeneralCircularPattern(gpAx1 axis, double angle, double heigth)
{
GeneralRotationWithoutPivot(axis, angle);
var transformation = ConvertgpTrsfToMatrix3DTransform();
var heightToAdd = new gpVec(axis.Direction);
heightToAdd.Normalize();
heightToAdd.Multiply(heigth);
SetTranslationValuesAndPivot(ref transformation,
new Vector3D(heightToAdd.X, heightToAdd.Y, heightToAdd.Z));
OnModified();
}
private void SetSecondPointDraggingHandle(gpVec vectorV2V1, Mouse3DPosition vertex, Point3D secondPoint)
{
if (_secondPointProjectionDirection == null)
{
_secondPointProjectionDirection = new gpDir(vectorV2V1);
}
var secondPointProjectionPlane = new gpPln(vertex.Point.GpPnt, _secondPointProjectionDirection);
var secondProjectedPoint = GeomUtils.ProjectPointOnPlane(secondPoint.GpPnt, secondPointProjectionPlane,
Precision.Confusion);
Dependency[1].TransformedPoint3D = new Point3D(secondProjectedPoint);
Dependency[2].TransformedPoint3D = vertex.Point;
}
public SolverParallelAxis(TopoDSEdge edge)
{
Point3D?firstPoint, lastPoint;
GeomUtils.EdgeRange(edge, out firstPoint, out lastPoint);
if (firstPoint == null || lastPoint == null)
{
return;
}
var first = (Point3D)firstPoint;
var last = (Point3D)lastPoint;
Vector = new gpVec(first.GpPnt, last.GpPnt);
}
public override SolverPreviewObject InterestingShapeAroundPoint(gpPln planeOfTheView, Point3D currentPoint,
Point3D initialPosition)
{
if (currentPoint.IsEqual(initialPosition))
{
return(null);
}
var qosLock = QosFactory.Instance.Get(QosNames.ParallelLineLock);
qosLock.Begin();
var vec = new gpVec(initialPosition.GpPnt, currentPoint.GpPnt);
foreach (var solverGeometricObject in Geometry)
{
if (solverGeometricObject.ParallelAxis.Count == 0)
{
continue;
}
foreach (var axis in solverGeometricObject.ParallelAxis)
{
if (vec.IsNormal(axis.Vector, _precision))
{
var planeNormal = vec.Crossed(axis.Vector);
var planeNormalAxis = new gpAx1(initialPosition.GpPnt, new gpDir(planeNormal));
gpVec v2 = axis.Vector.Normalized;
v2.Rotate(planeNormalAxis, Math.PI / 2.0);
var parallelLine = new gceMakeLin(initialPosition.GpPnt, new gpDir(v2)).Value;
var geomLine = new GeomLine(parallelLine);
var projectionPoint = new GeomAPIProjectPointOnCurve(currentPoint.GpPnt, geomLine);
if (projectionPoint.NbPoints <= 0)
{
return(null);
}
var secondPoint = new Point3D(projectionPoint.NearestPoint);
var solverPoint = new SolverEdgeTwoPointsResult(secondPoint, initialPosition, Color.Black)
{
Type = "Perpendicular Line"
};
return(solverPoint);
}
}
}
qosLock.End();
return(null);
}
private List <NodeBuilder> PreviewRectangle(Document document, Node sketchNode)
{
//var axis1 = new gpAx2();
//axis1.Axis = (sketchNode.Children[1].Get<Axis3DInterpreter>().Axis.GpAxis);
//var location = axis1.Axis.Location.Transformed(sketchNode.Get<TransformationInterpreter>().CurrTransform);
//var direction = axis1.Axis.Direction.Transformed(sketchNode.Get<TransformationInterpreter>().CurrTransform);
//var axis = new gpAx2(location, direction);
var axisAll = NodeBuilderUtils.GetTransformedAxis(new NodeBuilder(sketchNode));
var axis = new gpAx2(axisAll.Location, axisAll.Direction);
var vec = new gpVec(Points[0].GpPnt, Points[1].GpPnt);
gpVec v2 = vec.Normalized;
v2.Rotate(axis.Axis, Math.PI / 2.0);
var parallelLine = new gceMakeLin(Points[1].GpPnt, new gpDir(v2)).Value;
var geomLine = new GeomLine(parallelLine);
var projectionPoint = new GeomAPIProjectPointOnCurve(Points[2].GpPnt, geomLine);
var thirdPoint = new Point3D(projectionPoint.NearestPoint);
var firstPoint2D = Points[0].ToPoint2D(axis);
var secondPoint2D = Points[1].ToPoint2D(axis);
var thirdPoint2D = thirdPoint.ToPoint2D(axis);
var parallelLine2 = new gceMakeLin(Points[2].GpPnt, new gpDir(vec)).Value;
var geomLine2 = new GeomLine(parallelLine2);
var projectionPoint2 = new GeomAPIProjectPointOnCurve(Points[0].GpPnt, geomLine2);
var fourthPoint = new Point3D(projectionPoint2.NearestPoint);
var fourthPoint2D = fourthPoint.ToPoint2D(axis);
var point3Ds = new List <Point3D>();
point3Ds.Add(GeomUtils.Point2DTo3D(axis, firstPoint2D.X, firstPoint2D.Y));
point3Ds.Add(GeomUtils.Point2DTo3D(axis, secondPoint2D.X, secondPoint2D.Y));
point3Ds.Add(GeomUtils.Point2DTo3D(axis, thirdPoint2D.X, thirdPoint2D.Y));
point3Ds.Add(GeomUtils.Point2DTo3D(axis, fourthPoint2D.X, fourthPoint2D.Y));
var pointLinker = new SketchCreator(document).PointLinker;
var lines = new List <NodeBuilder>
{
BuildLine(Document, pointLinker, point3Ds[0], point3Ds[1]),
BuildLine(Document, pointLinker, point3Ds[1], point3Ds[2]),
BuildLine(Document, pointLinker, point3Ds[2], point3Ds[3]),
BuildLine(Document, pointLinker, point3Ds[3], point3Ds[0])
};
return(lines);
}
private static TopoDSShape BuildAxisShapeHandle(gpAx1 mainAxis, double arrowLength, double arrowWidth)
{
var cylinderShape = GeomUtils.MakeCylinder(mainAxis, arrowWidth, arrowLength * 3 / 4,
GeomUtils.DegreesToRadians(360));
var coneVector = new gpVec(mainAxis.Direction);
coneVector.Multiply(arrowLength * 3 / 4);
var coneLocation = mainAxis.Translated(coneVector);
var cone = GeomUtils.MakeCone(coneLocation, arrowWidth * 1.5, 0, arrowLength / 4,
GeomUtils.DegreesToRadians(360));
var fuse = new BRepAlgoAPIFuse(cylinderShape, cone);
return(fuse.Shape);
}
public static void ParalelogramSetWidthPoints(Node node, double width)
{
if (width < Precision.Confusion)
{
return;
}
var builder = new NodeBuilder(node);
var initialWidth = builder[1].TransformedPoint3D.Distance(builder[2].TransformedPoint3D);
var widthToAdd = width - initialWidth;
var widthDirection = new gpVec(builder[1].TransformedPoint3D.GpPnt, builder[2].TransformedPoint3D.GpPnt);
widthDirection.Normalize();
widthDirection.Multiply(widthToAdd);
builder[2].TransformedPoint3D = new Point3D(builder[2].TransformedPoint3D.GpPnt.Translated(widthDirection));
}
/// <summary>
/// Make an extrusion starting from a shape until a height.
/// </summary>
/// <param name = "originalShape"></param>
/// <param name = "height"></param>
/// <returns></returns>
private static TopoDSShape ExtrudeMidPlane(TopoDSShape originalShape, double height)
{
TopoDSShape prismShape = null;
// Make the Extrusion
if (originalShape != null)
{
try
{
// Get the Face to be extruded
var face = originalShape;// OCTopoDS.Face(originalShape);
// Get the direction
var dir = GeomUtils.ExtractDirection(face);
if (dir == null)
{
return(null);
}
// Build the translated shape
var translationVector = new gpVec(dir);
translationVector.Multiply(-1 * height / 2);
var transformation = new gpTrsf();
transformation.SetTranslation(translationVector);
var brepTrans = new BRepBuilderAPITransform(originalShape, transformation, false);
var translatedShape = brepTrans.Shape;
// Extract the face of the translated shape
//baseEx.Init(translatedShape, TopAbsShapeEnum.TopAbs_FACE, TopAbsShapeEnum.TopAbs_SHAPE);
//baseEx.Next();
var translatedFace = translatedShape;// OCTopoDS.Face(translatedShape);
// Describe the height through a vector
var vector = new gpVec(dir);
vector.Multiply(height);
// Make the prism
prismShape = new BRepPrimAPIMakePrism(translatedFace, vector, false, true).Shape;
}
catch (Exception ex)
{
Log.Error("Error on extrude: " + ex.Message);
return(null);
}
}
return(prismShape);
}
public static void ParalelogramSetHeightPoints(Node node, double height)
{
if (height < Precision.Confusion)
{
return;
}
var builder = new NodeBuilder(node);
var initialHeight = builder[0].TransformedPoint3D.Distance(builder[1].TransformedPoint3D);
var heigthToAdd = height - initialHeight;
var heigthDirection = new gpVec(builder[0].TransformedPoint3D.GpPnt, builder[1].TransformedPoint3D.GpPnt);
heigthDirection.Normalize();
heigthDirection.Multiply(heigthToAdd);
builder[1].TransformedPoint3D = new Point3D(builder[1].TransformedPoint3D.GpPnt.Translated(heigthDirection));
builder[2].TransformedPoint3D = new Point3D(builder[2].TransformedPoint3D.GpPnt.Translated(heigthDirection));
}
public void ApplyGeneralArrayPattern(gpAx1 rowAxis, gpAx1 colomnAxis, double rowLength,
double colomnLength)
{
var transformation = ConvertgpTrsfToMatrix3DTransform();
var rowLengthToAdd = new gpVec(rowAxis.Direction);
rowLengthToAdd.Normalize();
rowLengthToAdd.Multiply(rowLength);
SetTranslationValuesAndPivot(ref transformation,
new Vector3D(rowLengthToAdd.X, rowLengthToAdd.Y, rowLengthToAdd.Z));
var colomnLengthToAdd = new gpVec(colomnAxis.Direction);
colomnLengthToAdd.Normalize();
colomnLengthToAdd.Multiply(colomnLength);
SetTranslationValuesAndPivot(ref transformation,
new Vector3D(colomnLengthToAdd.X, colomnLengthToAdd.Y,
colomnLengthToAdd.Z));
OnModified();
}
private void BuildDragAxis(Document document, TopoDSShape shape, double extrudeSize)
{
var gravityCenter = GeomUtils.ExtractGravityCenter(shape);
var dir = GeomUtils.ExtractDirection(shape);
if (dir.XYZ.Z < 0)
{
dir.Reverse();
}
var vec = new gpVec(dir);
vec.Normalize();
vec.Multiply(extrudeSize);
gravityCenter = GeomUtils.BuildTranslation(gravityCenter, vec);
var point = new gpPnt(dir.XYZ);
var gravityAxis = new Axis(gravityCenter, new Point3D(point));
DrawDragAxis(document, gravityAxis, 5, 2);
// _normalPlane = BuildNormalPlane(dir, gravityAxis);
}
/// <summary>
/// Make an extrusion starting from a shape until a height.
/// </summary>
/// <param name = "originalShape"></param>
/// <param name = "height"></param>
/// <returns></returns>
private static TopoDSShape ExtrudeToDepth(TopoDSShape originalShape, double height)
{
TopoDSShape prismShape = null;
// Make the Extrusion
if (originalShape != null)
{
try
{
var face = originalShape;// OCTopoDS.Face(originalShape);
// Get the direction
var dir = GeomUtils.ExtractDirection(face);
if (dir == null)
{
return(null);
}
if (dir.XYZ.Z < 0)
{
dir.Reverse();
}
// Describe the height through a vector
var vector = new gpVec(dir);
vector.Multiply(height);
// Make the prism
return(new BRepPrimAPIMakePrism(face, vector, false, true).Shape);
}
catch (Exception ex)
{
Log.Error("Error on extrude: " + ex.Message);
return(null);
}
}
return(prismShape);
}
/// <summary>
/// Calculates the computer radiuses knowing the center position and two points located on the two axis
/// </summary>
public static bool ComputeEllipseRadiuses(Point3D center, Point3D secondPoint, Point3D thirdPoint,
out double minorRadius, out double majorRadius,
out bool reversed, ref gpDir dirX, ref gpDir dirY)
{
// Calculate the major radius
majorRadius = center.GpPnt.Distance(secondPoint.GpPnt);
// Calculate also the axis/direction of the major radus
var vecX = new gpVec(center.GpPnt, secondPoint.GpPnt);
dirX = new gpDir(vecX);
var line = new gpLin(center.GpPnt, dirX);
// Calculate the minor radius
minorRadius = line.Distance(thirdPoint.GpPnt);
reversed = false;
if (minorRadius < Precision.Confusion || majorRadius < Precision.Confusion)
{
return(false);
}
// Calculate also the axis/direction of the major radus
var vecY = new gpVec(center.GpPnt, thirdPoint.GpPnt);
// We want the direction to be perpendicular on the direction of the major radius
var vecZ = vecX.Crossed(vecY);
vecY = vecX.Crossed(vecZ);
dirY = new gpDir(vecY);
// Major radius must be bigger than minor radius
if (minorRadius > majorRadius)
{
var aux = majorRadius;
majorRadius = minorRadius;
minorRadius = aux;
reversed = true;
}
return(true);
}
public void D3(double U, gpPnt P, gpVec V1, gpVec V2, gpVec V3)
{
Geom_Ellipse_D356E36E6F(Instance, U, P.Instance, V1.Instance, V2.Instance, V3.Instance);
}
public void D2(double U, gpPnt P, gpVec V1, gpVec V2)
{
Geom_Ellipse_D227877840(Instance, U, P.Instance, V1.Instance, V2.Instance);
}
public void D1(double U, gpPnt P, gpVec V1)
{
Geom_Ellipse_D11387A81(Instance, U, P.Instance, V1.Instance);
}
public override gpAx2 GetPointLocation(int index)
{
//var transform = Node.Get<TransformationInterpreter>().CurrTransform;
var transform = NodeBuilderUtils.GetGlobalTransformation(new NodeBuilder(NodeBuilderUtils.FindSketchNode(Node)));
var ax2 = new gpAx2();
var centerAxis = new gpAx1();
if (Dependency[0].Name == InterpreterNames.Reference)
{
var circleLocation = Dependency[0].RefTransformedPoint3D.GpPnt;
var pointBuilder = Dependency[0].ReferenceBuilder;
var circleNormal = pointBuilder[0].Reference.Children[1].Get <Axis3DInterpreter>().Axis.Direction;
centerAxis = new gpAx1(circleLocation, new gpDir(circleNormal.GpPnt.XYZ).Transformed(transform));
ax2.Axis = (centerAxis);
}
if (Dependency[0].Name == InterpreterNames.Axis3D)
{
centerAxis = Dependency[0].TransformedAxis3D;
ax2.Axis = (centerAxis);
}
var circleCenter = centerAxis;
var pointOnCircle = GetPointOnCircle(centerAxis, Dependency[1].Real, transform);
var radius = pointOnCircle.Distance(circleCenter.Location);
var leftArrowVector = new gpVec(circleCenter.Location, pointOnCircle);
leftArrowVector.Normalize();
leftArrowVector.Multiply(radius + DistanceToObject);
var leftArrowLocation = circleCenter.Location.Translated(leftArrowVector);
var rightArrowVector = leftArrowVector.Reversed;
var rightArrowLocation = circleCenter.Location.Translated(rightArrowVector);
var topArrowVector = new gpVec(leftArrowVector.XYZ);
topArrowVector.Cross(new gpVec(ax2.Direction));
topArrowVector.Normalize();
topArrowVector.Multiply(radius + DistanceToObject);
var topArrowLocation = circleCenter.Location.Translated(topArrowVector);
var bottomArrowVector = topArrowVector.Reversed;
var bottomArrowLocation = circleCenter.Location.Translated(bottomArrowVector);
switch (index)
{
case 0:
ax2.Location = (leftArrowLocation);
ax2.XDirection = (new gpDir(leftArrowVector));
return(ax2);
case 1:
ax2.Location = (topArrowLocation);
ax2.XDirection = (new gpDir(topArrowVector));
return(ax2);
case 2:
ax2.Location = (rightArrowLocation);
ax2.XDirection = (new gpDir(rightArrowVector));
return(ax2);
case 3:
ax2.Location = (bottomArrowLocation);
ax2.XDirection = (new gpDir(bottomArrowVector));
return(ax2);
default:
return(null);
}
}
