From 5adcfd1dd469aed0fc9ed23579e293addc404849 Mon Sep 17 00:00:00 2001 From: wmayer Date: Fri, 18 Nov 2022 11:47:17 +0100 Subject: [PATCH] Arch: replace tabs with spaces --- src/Mod/Arch/ArchSketchObject.py | 44 ++++----- src/Mod/Arch/ArchStairs.py | 108 +++++++++++------------ src/Mod/Arch/exportIFCStructuralTools.py | 2 +- 3 files changed, 77 insertions(+), 77 deletions(-) diff --git a/src/Mod/Arch/ArchSketchObject.py b/src/Mod/Arch/ArchSketchObject.py index ad9354bff4..346b4a443a 100644 --- a/src/Mod/Arch/ArchSketchObject.py +++ b/src/Mod/Arch/ArchSketchObject.py @@ -1,25 +1,25 @@ -#*************************************************************************** -#* * -#* Copyright (c) 2022 * -#* Paul Lee * -#* * -#* This program is free software; you can redistribute it and/or modify * -#* it under the terms of the GNU Lesser General Public License (LGPL) * -#* as published by the Free Software Foundation; either version 2 of * -#* the License, or (at your option) any later version. * -#* for detail see the LICENCE text file. * -#* * -#* This program is distributed in the hope that it will be useful, * -#* but WITHOUT ANY WARRANTY; without even the implied warranty of * -#* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * -#* GNU Library General Public License for more details. * -#* * -#* You should have received a copy of the GNU Library General Public * -#* License along with this program; if not, write to the Free Software * -#* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 * -#* USA * -#* * -#*************************************************************************** +#*************************************************************************** +#* * +#* Copyright (c) 2022 * +#* Paul Lee * +#* * +#* This program is free software; you can redistribute it and/or modify * +#* it under the terms of the GNU Lesser General Public License (LGPL) * +#* as published by the Free Software Foundation; either version 2 of * +#* the License, or (at your option) any later version. * +#* for detail see the LICENCE text file. * +#* * +#* This program is distributed in the hope that it will be useful, * +#* but WITHOUT ANY WARRANTY; without even the implied warranty of * +#* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * +#* GNU Library General Public License for more details. * +#* * +#* You should have received a copy of the GNU Library General Public * +#* License along with this program; if not, write to the Free Software * +#* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 * +#* USA * +#* * +#*************************************************************************** class ArchSketchObject: def __init__(self, obj): diff --git a/src/Mod/Arch/ArchStairs.py b/src/Mod/Arch/ArchStairs.py index 199d0f0cb0..22311a06ef 100644 --- a/src/Mod/Arch/ArchStairs.py +++ b/src/Mod/Arch/ArchStairs.py @@ -110,7 +110,7 @@ def makeStairs(baseobj=None,length=None,width=None,height=None,steps=None,name=" stairs[i].Base = baseobjI if (len(baseobjI.Shape.Edges) > 1): - stepsI = 1 #'landing' if 'multi-edges' currently + stepsI = 1 #'landing' if 'multi-edges' currently elif steps: stepsI = steps else: @@ -121,7 +121,7 @@ def makeStairs(baseobj=None,length=None,width=None,height=None,steps=None,name=" additions.append(stairs[i]) stairs[i].LastSegment = stairs[i-1] else: - if len(stairs) > 1: # i.e. length >1, have a 'master' staircase created + if len(stairs) > 1: # i.e. length >1, have a 'master' staircase created stairs[0].Base = stairs[1] i += 1 if lenSelection > 1: @@ -161,25 +161,25 @@ def makeRailing(stairs): if side == "L": outlineLR = stair.OutlineLeft outlineLRAll = stair.OutlineLeftAll - stairs0RailingLR = "RailingLeft" # stairs0OutlineWireLR = "OutlineWireLeft" - stairRailingLR = "RailingLeft" # stairOutlineWireLR = "OutlineWireLeft" + stairs0RailingLR = "RailingLeft" # stairs0OutlineWireLR = "OutlineWireLeft" + stairRailingLR = "RailingLeft" # stairOutlineWireLR = "OutlineWireLeft" elif side == "R": outlineLR = stair.OutlineRight outlineLRAll = stair.OutlineRightAll - stairs0RailingLR = "RailingRight" # stairs0OutlineWireLR = "OutlineWireRight" - stairRailingLR = "RailingRight" # stairOutlineWireLR = "OutlineWireRight" + stairs0RailingLR = "RailingRight" # stairs0OutlineWireLR = "OutlineWireRight" + stairRailingLR = "RailingRight" # stairOutlineWireLR = "OutlineWireRight" if outlineLR or outlineLRAll: lrRail = ArchPipe.makePipe(baseobj=None,diameter=0,length=0,placement=None,name="Rail") if outlineLRAll: - #lrRail.Base = lrRailWire # no need to set here as _Stairs will do - setattr(stair, stairRailingLR, lrRail.Name) # setattr(stair, stairOutlineWireLR, lrRailWire.Name) + #lrRail.Base = lrRailWire # no need to set here as _Stairs will do + setattr(stair, stairRailingLR, lrRail.Name) # setattr(stair, stairOutlineWireLR, lrRailWire.Name) railList = stairs[0].Additions railList.append(lrRail) stairs[0].Additions = railList break elif outlineLR: - #lrRail.Base = lrRailWire # no need to set here as _Stairs will do - setattr(stair, stairRailingLR, lrRail.Name) # setattr(stair, stairOutlineWireLR, lrRailWire.Name) + #lrRail.Base = lrRailWire # no need to set here as _Stairs will do + setattr(stair, stairRailingLR, lrRail.Name) # setattr(stair, stairOutlineWireLR, lrRailWire.Name) railList = stair.Additions railList.append(lrRail) stair.Additions = railList @@ -188,7 +188,7 @@ def makeRailing(stairs): sel = FreeCADGui.Selection.getSelection() sel0 = sel[0] stairs = [] - if Draft.getType(sel[0]) == "Stairs": # TODO currently consider 1st selected object, then would tackle multiple objects ? + if Draft.getType(sel[0]) == "Stairs": # TODO currently consider 1st selected object, then would tackle multiple objects ? stairs.append(sel0) if Draft.getType(sel0.Base) == "Stairs": stairs.append(sel0.Base) @@ -469,7 +469,7 @@ class _Stairs(ArchComponent.Component): if isinstance(edge.Curve,(Part.LineSegment,Part.Line)): # preparing for multi-edges landing / segment staircase if obj.NumberOfSteps > 1: - self.makeStraightStairsWithLanding(obj,edge) # all cases use makeStraightStairsWithLanding() + self.makeStraightStairsWithLanding(obj,edge) # all cases use makeStraightStairsWithLanding() # preparing for multi-edges landing / segment staircase if obj.NumberOfSteps == 1: @@ -528,9 +528,9 @@ class _Stairs(ArchComponent.Component): if railWireL: # Migration - if Draft.getType(railingLeftObject.Base) != "Part": # None or not "Part" + if Draft.getType(railingLeftObject.Base) != "Part": # None or not "Part" railingLeftWireObject = FreeCAD.ActiveDocument.addObject("Part::Feature","RailingWire") - if railingLeftObject.Base: # if has railingLeftObject.Base but that != "Part" + if railingLeftObject.Base: # if has railingLeftObject.Base but that != "Part" railingLeftObject.Document.removeObject(railingLeftObject.Base.Name) # Delete the previous Base object... # Not Using FreeCAD.ActiveDocument... railingLeftObject.Base = railingLeftWireObject # update the Base object shape @@ -657,7 +657,7 @@ class _Stairs(ArchComponent.Component): return stepWire, stepFace - @staticmethod # obj become stairsObj + @staticmethod # obj become stairsObj def returnOutlines(stairsObj, edges, align="Left", mode=None, widthFirstSegment=zeroMM, widthOtherSegments=[], treadThickness=zeroMM, railStartRiser=zeroMM, offsetHLeft=zeroMM, offsetHRight=zeroMM, offsetVLeft=zeroMM, offsetVRight=zeroMM, widthFirstSegmentDefault=False): @@ -669,7 +669,7 @@ class _Stairs(ArchComponent.Component): v, vLength, vWidth, vBase = [], [], [], [] - p1, p2, p3, p4, pArc, pArc1, pArc2 = [], [], [], [], [], [], [] # p1o, p2o - Not used + p1, p2, p3, p4, pArc, pArc1, pArc2 = [], [], [], [], [], [], [] # p1o, p2o - Not used outline, outlineP1P2, outlineP3P4, outlineP1P2Closed, outlineP3P4Closed, outlineP1P2Ordered = [], [], [], [], [], [] if not isinstance(edges, list): @@ -679,10 +679,10 @@ class _Stairs(ArchComponent.Component): for i, edge in enum_edges: isLine = isinstance(edge.Curve,(Part.Line, Part.LineSegment)) - isArc = isinstance(edge.Curve,Part.Circle) # why it is Part.Circle for an Arc Edge? - why Part.ArcOfCircle Not Working? + isArc = isinstance(edge.Curve,Part.Circle) # why it is Part.Circle for an Arc Edge? - why Part.ArcOfCircle Not Working? ''' (1) append v (vec) ''' - v.append(DraftGeomUtils.vec(edge)) # TODO check all function below ok with curve? + v.append(DraftGeomUtils.vec(edge)) # TODO check all function below ok with curve? ''' (2) get netWidthI ''' @@ -709,7 +709,7 @@ class _Stairs(ArchComponent.Component): #vBase2vec = (vBase2-vBase[i]) # - would not be correct if Align is not Left ''' (1a) calc & append vLength - Need v (vec) ''' - vLength.append(Vector(v[i].x,v[i].y,v[i].z)) # TODO check all function below ok with curve? # TODO vLength in this f() is 3d + vLength.append(Vector(v[i].x,v[i].y,v[i].z)) # TODO check all function below ok with curve? # TODO vLength in this f() is 3d ''' (1b, 2a) calc & append vWidth - Need vLength, netWidthI ''' @@ -720,7 +720,7 @@ class _Stairs(ArchComponent.Component): dvec = vLength[i].cross(Vector(0,0,1)) elif isArc: - #dvec = edge.Vertexes[0].Point.sub(edge.Curve.Center) # TODO - how to determine direction? - Reference from ArchWall; used tangentAt instead + #dvec = edge.Vertexes[0].Point.sub(edge.Curve.Center) # TODO - how to determine direction? - Reference from ArchWall; used tangentAt instead #dvec1 = edge.Vertexes[1].Point.sub(edge.Curve.Center) dvec = edge.tangentAt(edge.FirstParameter).cross(Vector(0,0,1)) dvec1 = edge.tangentAt(edge.LastParameter).cross(Vector(0,0,1)) @@ -742,7 +742,7 @@ class _Stairs(ArchComponent.Component): vBase[i] = vBase[i].add(Vector(0,0,railStartRiser.Value)) if isArc: - vBase1 = vBase1.add(Vector(0,0,offsetVLeft.Value)) # TODO - if arc is flight (sloping then), arc would be ellipse, so the following become incorrect? + vBase1 = vBase1.add(Vector(0,0,offsetVLeft.Value)) # TODO - if arc is flight (sloping then), arc would be ellipse, so the following become incorrect? vBase1 = vBase1.add(Vector(0,0,railStartRiser.Value)) vBase2 = vBase2.add(Vector(0,0,offsetVLeft.Value)) vBase2 = vBase2.add(Vector(0,0,railStartRiser.Value)) @@ -783,7 +783,7 @@ class _Stairs(ArchComponent.Component): ''' (3c, 2c/2d) from [p1, p2, p3, p4] - calc outlineP1P2, outlineP3P4 ''' if i > 0: - lastEdge = edges[i-1] # thisEdge = edge + lastEdge = edges[i-1] # thisEdge = edge p1last = p1[i-1] p2last = p2[i-1] p3last = p3[i-1] @@ -801,7 +801,7 @@ class _Stairs(ArchComponent.Component): lastEdgeIsLineSegmentBool = isinstance(lastEdge.Curve,(Part.Line, Part.LineSegment)) thisEdgeIsLineSegmentBool = isinstance(edge.Curve,(Part.Line, Part.LineSegment)) - lastEdgeIsCircleBool = isinstance(lastEdge.Curve,(Part.Circle)) # why it is Part.Circle for an Arc Edge? - why Part.ArcOfCircle Not Working? + lastEdgeIsCircleBool = isinstance(lastEdge.Curve,(Part.Circle)) # why it is Part.Circle for an Arc Edge? - why Part.ArcOfCircle Not Working? thisEdgeIsCircleBool = isinstance(edge.Curve,(Part.Circle)) intersectionP1P2, intersectionP3P4 = _Stairs.findLineArcIntersections(p1last, p2last, p3last, p4last, p1this, p2this, p3this, p4this, lastEdgeIsLineSegmentBool, thisEdgeIsLineSegmentBool, @@ -821,24 +821,24 @@ class _Stairs(ArchComponent.Component): outline.append(p1[0]) pArc1.append(None) - pArc2 = pArc2[::-1] # pArcReverse = pArc2[::-1] + pArc2 = pArc2[::-1] # pArcReverse = pArc2[::-1] pArc2.append(None) pArc.extend(pArc1) - pArc.extend(pArc2) # pArc.extend(pArcReverse) + pArc.extend(pArc2) # pArc.extend(pArcReverse) firstEdgeIsLineSegmentBool = isinstance(edges[0].Curve,(Part.Line, Part.LineSegment)) - firstEdgeIsCircleBool = isinstance(edges[0].Curve,(Part.Circle)) # why it is Part.Circle for an Arc Edge? - why Part.ArcOfCircle Not Working? + firstEdgeIsCircleBool = isinstance(edges[0].Curve,(Part.Circle)) # why it is Part.Circle for an Arc Edge? - why Part.ArcOfCircle Not Working? - if mode in ["OrderedClose", "OrderedCloseAndOrderedOpen"]: # seem only using 'OrderedClose' + if mode in ["OrderedClose", "OrderedCloseAndOrderedOpen"]: # seem only using 'OrderedClose' intersectionP1P2, intersectionP3P4 = _Stairs.findLineArcIntersections(p1this, p2this, p3this, p4this, p1[0], p2[0], p3[0], p4[0], thisEdgeIsLineSegmentBool, firstEdgeIsLineSegmentBool, thisEdgeIsCircleBool, firstEdgeIsCircleBool, pArc1this, pArc2this, pArc1[0], pArc2[0]) outlineP1P2Closed = list(outlineP1P2) - outlineP1P2Closed[0] = intersectionP1P2 #intersection[0] - outlineP1P2Closed[i+1] = intersectionP1P2 #intersection[0] + outlineP1P2Closed[0] = intersectionP1P2 #intersection[0] + outlineP1P2Closed[i+1] = intersectionP1P2 #intersection[0] outlineP3P4Closed = list(outlineP3P4) - outlineP3P4Closed[0] = intersectionP3P4 #intersection[0] - outlineP3P4Closed[i+1] = intersectionP3P4 #intersection[0] + outlineP3P4Closed[0] = intersectionP3P4 #intersection[0] + outlineP3P4Closed[i+1] = intersectionP3P4 #intersection[0] if mode in ["OrderedOpen", "OrderedCloseAndOrderedOpen"]: if i > 0: # Multi-edge, otherwise no use @@ -889,24 +889,24 @@ class _Stairs(ArchComponent.Component): return intersectionsP1P2[0], intersectionsP3P4[0] else: if lastEdgeIsCircleBool: - edge1 = Part.Arc(p1last,pArc1last,p2last).toShape() # edge1 = Part.Arc(p1[i-1],pArc1[i-1],p2[i-1]).toShape() - edge1a = Part.Arc(p3last,pArc2last,p4last).toShape() # edge1a = Part.Arc(p3[i-1],pArc2[i-1],p4[i-1]).toShape() + edge1 = Part.Arc(p1last,pArc1last,p2last).toShape() # edge1 = Part.Arc(p1[i-1],pArc1[i-1],p2[i-1]).toShape() + edge1a = Part.Arc(p3last,pArc2last,p4last).toShape() # edge1a = Part.Arc(p3[i-1],pArc2[i-1],p4[i-1]).toShape() else: - edge1 = Part.LineSegment(p1last,p2last).toShape() # edge1 = Part.LineSegment(p1[i-1],p2[i-1]).toShape() - edge1a = Part.LineSegment(p3last,p4last).toShape() # edge1a = Part.LineSegment(p3[i-1],p4[i-1]).toShape() + edge1 = Part.LineSegment(p1last,p2last).toShape() # edge1 = Part.LineSegment(p1[i-1],p2[i-1]).toShape() + edge1a = Part.LineSegment(p3last,p4last).toShape() # edge1a = Part.LineSegment(p3[i-1],p4[i-1]).toShape() - if thisEdgeIsCircleBool: # why it is Part.Circle for an Arc Edge? - why Part.ArcOfCircle Not Working? - edge2 = Part.Arc(p1this,pArc1this,p2this).toShape() # edge2 = Part.Arc(p1[i],pArc1[i],p2[i]).toShape() - edge2a = Part.Arc(p3this,pArc2this,p4this).toShape() # edge2a = Part.Arc(p3[i],pArc2[i],p4[i]).toShape() + if thisEdgeIsCircleBool: # why it is Part.Circle for an Arc Edge? - why Part.ArcOfCircle Not Working? + edge2 = Part.Arc(p1this,pArc1this,p2this).toShape() # edge2 = Part.Arc(p1[i],pArc1[i],p2[i]).toShape() + edge2a = Part.Arc(p3this,pArc2this,p4this).toShape() # edge2a = Part.Arc(p3[i],pArc2[i],p4[i]).toShape() else: - edge2 = Part.LineSegment(p1this,p2this).toShape() # edge2 = Part.LineSegment(p1[i],p2[i]).toShape() - edge2a = Part.LineSegment(p3this,p4this).toShape() # edge2a = Part.LineSegment(p3[i],p4[i]).toShape() + edge2 = Part.LineSegment(p1this,p2this).toShape() # edge2 = Part.LineSegment(p1[i],p2[i]).toShape() + edge2a = Part.LineSegment(p3this,p4this).toShape() # edge2a = Part.LineSegment(p3[i],p4[i]).toShape() intersections = DraftGeomUtils.findIntersection(edge1, edge2, True,True) enum_intersections = enumerate(intersections) distList = [] for n, intersectionI in enum_intersections: - distList.append((intersectionI-p1this).Length) # distList.append((intersectionI-p1[i]).Length)) # TODO just use p1[i] for test; may be p2[i-1]...? + distList.append((intersectionI-p1this).Length) # distList.append((intersectionI-p1[i]).Length)) # TODO just use p1[i] for test; may be p2[i-1]...? # TODO - To test and follow up if none intersection is found nearestIntersectionIndex = distList.index(min(distList)) @@ -916,7 +916,7 @@ class _Stairs(ArchComponent.Component): enum_intersections = enumerate(intersections) distList = [] for n, intersectionI in enum_intersections: - distList.append((intersectionI-p4this).Length) # distList.append((intersectionI-p4[i]).Length)) # TODO just use p4[i] for test; may be p3[i-1]...? + distList.append((intersectionI-p4this).Length) # distList.append((intersectionI-p4[i]).Length)) # TODO just use p4[i] for test; may be p3[i-1]...? nearestIntersectionIndex = distList.index(min(distList)) nearestIntersectionP3P4 = intersections[nearestIntersectionIndex] return nearestIntersectionP1P2, nearestIntersectionP3P4 @@ -925,12 +925,12 @@ class _Stairs(ArchComponent.Component): def vbaseFollowLastSegment(obj, vBase): if obj.LastSegment: lastSegmentAbsTop = obj.LastSegment.AbsTop - vBase = Vector(vBase.x, vBase.y,lastSegmentAbsTop.z) # use Last Segment top's z-coordinate + vBase = Vector(vBase.x, vBase.y,lastSegmentAbsTop.z) # use Last Segment top's z-coordinate return vBase # Add flag (temporarily?) for indicating which method call this to determine whether the landing has been 're-based' before or not - def makeStraightLanding(self,obj,edge,numberofsteps=None, callByMakeStraightStairsWithLanding=False): # what is use of numberofsteps ? + def makeStraightLanding(self,obj,edge,numberofsteps=None, callByMakeStraightStairsWithLanding=False): # what is use of numberofsteps ? "builds a landing from a straight edge" # general data @@ -1129,14 +1129,14 @@ class _Stairs(ArchComponent.Component): lastSegmentAbsTop = obj.LastSegment.AbsTop print("lastSegmentAbsTop is: ") print(lastSegmentAbsTop) - vBase = Vector(vBase.x, vBase.y,lastSegmentAbsTop.z) # use Last Segment top's z-coordinate + vBase = Vector(vBase.x, vBase.y,lastSegmentAbsTop.z) # use Last Segment top's z-coordinate obj.AbsTop = vBase.add(Vector(0,0,h)) vNose = DraftVecUtils.scaleTo(vLength,-abs(obj.Nosing.Value)) a = math.atan(vHeight.Length/vLength.Length) vBasedAligned = self.align(vBase,obj.Align,vWidth) - vRiserThickness = DraftVecUtils.scaleTo(vLength,obj.RiserThickness.Value) # 50) + vRiserThickness = DraftVecUtils.scaleTo(vLength,obj.RiserThickness.Value) # 50) # steps and risers for i in range(numberofsteps-1): @@ -1162,17 +1162,17 @@ class _Stairs(ArchComponent.Component): ''' risers - add to steps or pseudosteps in the meantime before adding self.risers / self.pseudorisers ''' #vResHeight = vHeight.add(Vector(0,0,-abs(obj.TreadThickness.Value))) - r2 = r1.add(DraftVecUtils.neg(vHeight)) #vResHeight + r2 = r1.add(DraftVecUtils.neg(vHeight)) #vResHeight if i == 0: r2 = r2.add(Vector(0,0,abs(obj.TreadThickness.Value))) r3 = r2.add(vWidth) - r4 = r3.add(vHeight) #vResHeight + r4 = r3.add(vHeight) #vResHeight if i == 0: r4 = r4.add(Vector(0,0,-abs(obj.TreadThickness.Value))) riser = Part.Face(Part.makePolygon([r1,r2,r3,r4,r1])) if obj.RiserThickness.Value: - riser = riser.extrude(vRiserThickness) #Vector(0,100,0)) + riser = riser.extrude(vRiserThickness) #Vector(0,100,0)) self.steps.append(riser) else: self.pseudosteps.append(riser) @@ -1320,12 +1320,12 @@ class _Stairs(ArchComponent.Component): else: reslength = edge.Length - obj.Width.Value - treadDepth = float(reslength)/(obj.NumberOfSteps-2) # why needs 'float'? + treadDepth = float(reslength)/(obj.NumberOfSteps-2) # why needs 'float'? obj.TreadDepth = treadDepth vLength = DraftVecUtils.scaleTo(v,treadDepth) else: reslength = edge.Length - treadDepth = float(reslength)/(obj.NumberOfSteps-1) # why needs 'float'? + treadDepth = float(reslength)/(obj.NumberOfSteps-1) # why needs 'float'? obj.TreadDepth = treadDepth vLength = DraftVecUtils.scaleTo(v,treadDepth) else: @@ -1355,7 +1355,7 @@ class _Stairs(ArchComponent.Component): if obj.LastSegment: lastSegmentAbsTop = obj.LastSegment.AbsTop - p1 = Vector(p1.x, p1.y,lastSegmentAbsTop.z) # use Last Segment top's z-coordinate + p1 = Vector(p1.x, p1.y,lastSegmentAbsTop.z) # use Last Segment top's z-coordinate obj.AbsTop = p1.add(Vector(0,0,h)) p2 = p1.add(DraftVecUtils.scale(vLength,landing-1).add(Vector(0,0,landing*hstep))) @@ -1414,8 +1414,8 @@ class _Stairs(ArchComponent.Component): obj.OutlineLeft = outlineRailL # outlineL # outlineP1P2 obj.OutlineRight = outlineRailR # outlineR # outlineP3P4 - self.OutlineRailArcLeft = pArcRailL #obj.OutlineRailArcLeft = pArcRailL - self.OutlineRailArcRight = pArcRailR #obj.OutlineRailArcRight = pArcRailR + self.OutlineRailArcLeft = pArcRailL #obj.OutlineRailArcLeft = pArcRailL + self.OutlineRailArcRight = pArcRailR #obj.OutlineRailArcRight = pArcRailR outlineLeftAll, outlineRightAll, outlineRailArcLeftAll, outlineRailArcRightAll = [], [], [], [] diff --git a/src/Mod/Arch/exportIFCStructuralTools.py b/src/Mod/Arch/exportIFCStructuralTools.py index a9599e4a33..70f89facd0 100644 --- a/src/Mod/Arch/exportIFCStructuralTools.py +++ b/src/Mod/Arch/exportIFCStructuralTools.py @@ -184,7 +184,7 @@ def createStructuralMember(ifcfile, ifcbin, obj): # - no profile properties are taken into account # - no materials properties are takein into account # - - # create geometry + # create geometry verts = [None for _ in range(len(edges)+1)] verts[0] = tuple(edges[0].Vertexes[ 0].Point.multiply(scaling)) verts[1] = tuple(edges[0].Vertexes[-1].Point.multiply(scaling))