726 lines
36 KiB
Python
726 lines
36 KiB
Python
#***************************************************************************
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#* *
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#* Copyright (c) 2012 *
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#* Yorik van Havre <yorik@uncreated.net> *
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#* *
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#* This program is free software; you can redistribute it and/or modify *
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#* it under the terms of the GNU Lesser General Public License (LGPL) *
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#* as published by the Free Software Foundation; either version 2 of *
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#* the License, or (at your option) any later version. *
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#* for detail see the LICENCE text file. *
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#* *
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#* This program is distributed in the hope that it will be useful, *
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#* but WITHOUT ANY WARRANTY; without even the implied warranty of *
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#* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
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#* GNU Library General Public License for more details. *
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#* *
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#* You should have received a copy of the GNU Library General Public *
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#* License along with this program; if not, write to the Free Software *
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#* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 *
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#* USA *
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#* *
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#***************************************************************************
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import FreeCAD, Draft, math, ArchComponent, DraftVecUtils
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from FreeCAD import Vector
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if FreeCAD.GuiUp:
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import FreeCADGui
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from PySide import QtCore, QtGui
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from DraftTools import translate
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else:
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def translate(ctxt,txt):
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return txt
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__title__="FreeCAD Roof"
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__author__ = "Yorik van Havre", "Jonathan Wiedemann"
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__url__ = "http://www.freecadweb.org"
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def makeRoof(baseobj=None,facenr=0, angles=[45.,], run = [], idrel = [0,],thickness = [50.,], overhang=[100.,], name="Roof"):
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'''makeRoof(baseobj,[facenr],[angle],[name]) : Makes a roof based on
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a closed wire or an object. You can provide a list of angles, run,
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idrel, thickness, overhang for each edges in the wire to define the
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roof shape. The default for angle is 45 and the list is
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automatically complete to match with number of edges in the wire.
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If the base object is a solid the roof take the shape.'''
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import Part
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obj = FreeCAD.ActiveDocument.addObject("Part::FeaturePython",name)
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obj.Label = translate("Arch",name)
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w = None
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_Roof(obj)
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if FreeCAD.GuiUp:
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_ViewProviderRoof(obj.ViewObject)
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if baseobj:
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obj.Base = baseobj
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if obj.Base.isDerivedFrom("Part::Feature"):
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if obj.Base.Shape.Solids:
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if FreeCAD.GuiUp:
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obj.Base.ViewObject.hide()
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else:
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if (obj.Base.Shape.Faces and obj.Face):
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w = obj.Base.Shape.Faces[obj.Face-1].Wires[0]
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if FreeCAD.GuiUp:
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obj.Base.ViewObject.hide()
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elif obj.Base.Shape.Wires:
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w = obj.Base.Shape.Wires[0]
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if FreeCAD.GuiUp:
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obj.Base.ViewObject.hide()
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if w:
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if w.isClosed():
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if FreeCAD.GuiUp:
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obj.Base.ViewObject.hide()
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edges = Part.__sortEdges__(w.Edges)
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l = len(edges)
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la = len(angles)
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alist = angles
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for i in range(l-la):
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alist.append(angles[0])
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obj.Angles=alist
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lr = len(run)
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rlist = run
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for i in range(l-lr):
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#rlist.append(w.Edges[i].Length/2.)
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rlist.append(250.)
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obj.Runs = rlist
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lidrel = len(idrel)
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rellist = idrel
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for i in range(l-lidrel):
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rellist.append(0)
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obj.IdRel = rellist
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lthick = len(thickness)
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tlist = thickness
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for i in range(l-lthick):
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tlist.append(thickness[0])
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obj.Thickness = tlist
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lover = len(overhang)
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olist = overhang
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for i in range(l-lover):
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olist.append(overhang[0])
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obj.Overhang = olist
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obj.Face = facenr
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return obj
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class _CommandRoof:
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"the Arch Roof command definition"
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def GetResources(self):
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return {'Pixmap' : 'Arch_Roof',
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'MenuText': QtCore.QT_TRANSLATE_NOOP("Arch_Roof","Roof"),
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'Accel': "R, F",
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'ToolTip': QtCore.QT_TRANSLATE_NOOP("Arch_Roof","Creates a roof object from the selected wire.")}
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def IsActive(self):
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return not FreeCAD.ActiveDocument is None
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def Activated(self):
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sel = FreeCADGui.Selection.getSelectionEx()
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if sel:
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sel = sel[0]
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obj = sel.Object
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FreeCADGui.Control.closeDialog()
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if sel.HasSubObjects:
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if "Face" in sel.SubElementNames[0]:
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idx = int(sel.SubElementNames[0][4:])
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FreeCAD.ActiveDocument.openTransaction(translate("Arch","Create Roof"))
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FreeCADGui.addModule("Arch")
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FreeCADGui.doCommand("Arch.makeRoof(FreeCAD.ActiveDocument."+obj.Name+","+str(idx)+")")
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FreeCAD.ActiveDocument.commitTransaction()
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FreeCAD.ActiveDocument.recompute()
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return
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if obj.isDerivedFrom("Part::Feature"):
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if obj.Shape.Wires:
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FreeCAD.ActiveDocument.openTransaction(translate("Arch","Create Roof"))
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FreeCADGui.addModule("Arch")
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FreeCADGui.doCommand("Arch.makeRoof(FreeCAD.ActiveDocument."+obj.Name+")")
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FreeCAD.ActiveDocument.commitTransaction()
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FreeCAD.ActiveDocument.recompute()
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return
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else:
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FreeCAD.Console.PrintMessage(translate("Arch","Unable to create a roof"))
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else:
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FreeCAD.Console.PrintMessage(translate("Arch","Please select a base object\n"))
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FreeCADGui.Control.showDialog(ArchComponent.SelectionTaskPanel())
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FreeCAD.ArchObserver = ArchComponent.ArchSelectionObserver(nextCommand="Arch_Roof")
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FreeCADGui.Selection.addObserver(FreeCAD.ArchObserver)
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class _Roof(ArchComponent.Component):
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"The Roof object"
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def __init__(self,obj):
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ArchComponent.Component.__init__(self,obj)
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obj.addProperty("App::PropertyFloatList","Angles","Arch", translate("Arch","A list of angles for each roof pane"))
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obj.addProperty("App::PropertyFloatList","Runs","Arch", translate("Arch","A list of horizontal length projections for each roof pane"))
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obj.addProperty("App::PropertyIntegerList","IdRel","Arch", translate("Arch","A list of IDs of relative profiles for each roof pane"))
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obj.addProperty("App::PropertyFloatList","Thickness","Arch", translate("Arch","A list of thicknesses for each roof pane"))
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obj.addProperty("App::PropertyFloatList","Overhang","Arch", translate("Arch","A list of overhangs for each roof pane"))
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obj.addProperty("App::PropertyFloatList","Heights","Arch", translate("Arch","A list of calculated heights for each roof pane"))
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obj.addProperty("App::PropertyInteger","Face","Base",translate("Arch","The face number of the base object used to build this roof"))
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self.Type = "Roof"
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obj.Proxy = self
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def calcHeight(self, id):
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" Get the height from run and angle of the given roof profil "
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htRel = self.profilsDico[id]["run"]*(math.tan(math.radians(self.profilsDico[id]["angle"])))
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return htRel
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def calcRun(self, id):
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" Get the run from height and angle of the given roof profil "
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runRel = self.profilsDico[id]["height"]/(math.tan(math.radians(self.profilsDico[id]["angle"])))
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return runRel
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def calcAngle(self, id):
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" Get the angle from height and run of the given roof profil "
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a = math.degrees(math.atan(self.profilsDico[id]["height"]/self.profilsDico[id]["run"]))
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return a
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def getPerpendicular(self, vec, rotEdge, l):
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" Get the perpendicular vec of given edge on xy plane "
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norm = FreeCAD.Vector(0,0,1)
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perpendicular = vec.cross(norm)
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if -180. <= rotEdge < -90.:
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perpendicular[0] = abs(perpendicular[0])*-1
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perpendicular[1] = abs(perpendicular[1])*-1
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elif -90. <= rotEdge <= 0.:
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perpendicular[0] = abs(perpendicular[0])*-1
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perpendicular[1] = abs(perpendicular[1])
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elif 0. < rotEdge <= 90.:
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perpendicular[0] = abs(perpendicular[0])
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perpendicular[1] = abs(perpendicular[1])
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elif 90. < rotEdge <= 180.:
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perpendicular[0] = abs(perpendicular[0])
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perpendicular[1] = abs(perpendicular[1])*-1
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else:
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print("Unknown Angle")
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perpendicular[2] = abs(perpendicular[2])
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perpendicular.normalize()
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perpendicular = perpendicular.multiply(l)
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return perpendicular
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def makeRoofProfilsDic(self, id, angle, run, idrel, overhang, thickness,):
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profilDico = {}
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profilDico["id"] = id
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if angle == 90.:
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profilDico["name"] = "Pignon"+str(id)
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profilDico["run"]=0.
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else:
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profilDico["name"] = "Pan"+str(id)
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profilDico["run"] = run
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profilDico["angle"] = angle
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profilDico["idrel"] = idrel
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profilDico["overhang"] = overhang
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profilDico["thickness"] = thickness
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profilDico["height"] = None
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profilDico["points"] = []
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self.profilsDico.append(profilDico)
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def calcMissingData(self, i):
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a = self.profilsDico[i]["angle"]
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run = self.profilsDico[i]["run"]
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rel = self.profilsDico[i]["idrel"]
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if a == 0.0 and run == 0.0 :
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self.profilsDico[i]["run"] = self.profilsDico[rel]["run"]
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self.profilsDico[i]["angle"] = self.profilsDico[rel]["angle"]
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self.profilsDico[i]["height"] = self.calcHeight(i)
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elif run == 0:
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if a == 90. :
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htRel = self.calcHeight(rel)
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self.profilsDico[i]["height"] = htRel
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else :
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htRel = self.calcHeight(rel)
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self.profilsDico[i]["height"] = htRel
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run = self.calcRun(i)
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self.profilsDico[i]["run"] = run
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elif a == 0. :
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htRel = self.calcHeight(rel)
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self.profilsDico[i]["height"] = htRel
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a = self.calcAngle(i)
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self.profilsDico[i]["angle"] = a
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else :
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ht = self.calcHeight(i)
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self.profilsDico[i]["height"] = ht
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def calcEdgeGeometry(self, edges, i):
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self.profilsDico[i]["edge"] = edges[i]
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vec = edges[i].Vertexes[-1].Point.sub(edges[i].Vertexes[0].Point)
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self.profilsDico[i]["vec"] = vec
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rot = math.degrees(DraftVecUtils.angle(vec))
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self.profilsDico[i]["rot"] = rot
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def calcDraftEdges(self, i):
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import DraftGeomUtils
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edge = self.profilsDico[i]["edge"]
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vec = self.profilsDico[i]["vec"]
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rot = self.profilsDico[i]["rot"]
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overhang = self.profilsDico[i]["overhang"]
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run = self.profilsDico[i]["run"]
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perpendicular = self.getPerpendicular(vec,rot,self.profilsDico[i]["overhang"]).negative()
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eave = DraftGeomUtils.offset(edge,perpendicular)
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self.profilsDico[i]["eaveD"] = eave
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perpendicular = self.getPerpendicular(vec,rot,self.profilsDico[i]["run"])
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ridge = DraftGeomUtils.offset(edge,perpendicular)
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self.profilsDico[i]["ridge"] = ridge
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def calcEave(self, i):
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import DraftGeomUtils
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pt0Eave1 = DraftGeomUtils.findIntersection(self.findProfil(i-1)["eaveD"],self.findProfil(i)["eaveD"],infinite1=True,infinite2=True,)
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pt1Eave1 = DraftGeomUtils.findIntersection(self.findProfil(i)["eaveD"],self.findProfil(i+1)["eaveD"],infinite1=True,infinite2=True,)
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eave = DraftGeomUtils.edg(FreeCAD.Vector(pt0Eave1[0]),FreeCAD.Vector(pt1Eave1[0]))
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self.profilsDico[i]["eave"] = eave
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def findProfil(self, idx):
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if 0<=idx<len(self.profilsDico):
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profil = self.profilsDico[idx]
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else:
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idx = abs(abs(idx) - len(self.profilsDico))
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profil = self.profilsDico[idx]
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return profil
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def nextPignon(self, i):
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import DraftGeomUtils
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profilCurrent = self.findProfil(i)
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profilNext1 = self.findProfil(i+1)
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profilNext2 = self.findProfil(i+2)
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point = DraftGeomUtils.findIntersection(profilCurrent["eave"],profilNext1["eave"],infinite1=True,infinite2=True,)
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self.ptsPaneProject.append(FreeCAD.Vector(point[0]))
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pt1 = DraftGeomUtils.findIntersection(profilCurrent["edge"],profilNext1["eave"],infinite1=True,infinite2=True,)
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pt2 = DraftGeomUtils.findIntersection(profilNext2["edge"],profilNext1["eave"],infinite1=True,infinite2=True,)
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eaveWithoutOverhang = DraftGeomUtils.edg(pt1[0],pt2[0])
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if profilCurrent["run"]+profilNext2["run"] != eaveWithoutOverhang.Length :
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points = [FreeCAD.Vector(0.0,0.0,0.0),]
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points.append(FreeCAD.Vector(profilCurrent["run"],profilCurrent["height"],0.0))
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rampantCurrent = DraftGeomUtils.edg(points[0],points[1])
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points = [FreeCAD.Vector(eaveWithoutOverhang.Length,0.0,0.0),]
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points.append(FreeCAD.Vector(eaveWithoutOverhang.Length-profilNext2["run"],profilNext2["height"],0.0))
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rampantNext2 = DraftGeomUtils.edg(points[0],points[1])
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point = DraftGeomUtils.findIntersection(rampantCurrent,rampantNext2,infinite1=True,infinite2=True,)
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ridgeCurrent = DraftGeomUtils.offset(profilCurrent["edge"],self.getPerpendicular(profilCurrent["vec"],profilCurrent["rot"],point[0].x))
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point = DraftGeomUtils.findIntersection(ridgeCurrent,profilNext1["eave"],infinite1=True,infinite2=True,)
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else:
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point = DraftGeomUtils.findIntersection(profilCurrent["ridge"],profilNext1["eaveD"],infinite1=True,infinite2=True,)
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self.ptsPaneProject.append(FreeCAD.Vector(point[0]))
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def backPignon(self, i):
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import DraftGeomUtils
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profilCurrent = self.findProfil(i)
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profilBack1 = self.findProfil(i-1)
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profilBack2 = self.findProfil(i-2)
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pt1 = DraftGeomUtils.findIntersection(profilCurrent["edge"],profilBack1["eave"],infinite1=True,infinite2=True,)
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pt2 = DraftGeomUtils.findIntersection(profilBack2["edge"],profilBack1["eave"],infinite1=True,infinite2=True,)
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eaveWithoutOverhang = DraftGeomUtils.edg(pt1[0],pt2[0])
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if profilCurrent["run"]+profilBack2["run"] != eaveWithoutOverhang.Length :
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points = [FreeCAD.Vector(0.0,0.0,0.0),]
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points.append(FreeCAD.Vector(profilCurrent["run"],profilCurrent["height"],0.0))
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rampantCurrent = DraftGeomUtils.edg(points[0],points[1])
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points = [FreeCAD.Vector(eaveWithoutOverhang.Length,0.0,0.0),]
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points.append(FreeCAD.Vector(eaveWithoutOverhang.Length-profilBack2["run"],profilBack2["height"],0.0))
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rampantBack2 = DraftGeomUtils.edg(points[0],points[1])
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point = DraftGeomUtils.findIntersection(rampantCurrent,rampantBack2,infinite1=True,infinite2=True,)
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ridgeCurrent = DraftGeomUtils.offset(profilCurrent["edge"],self.getPerpendicular(profilCurrent["vec"],profilCurrent["rot"],point[0].x))
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point = DraftGeomUtils.findIntersection(ridgeCurrent,profilBack1["eave"],infinite1=True,infinite2=True,)
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else:
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point = DraftGeomUtils.findIntersection(profilCurrent["ridge"],profilBack1["eave"],infinite1=True,infinite2=True,)
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self.ptsPaneProject.append(FreeCAD.Vector(point[0]))
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point = DraftGeomUtils.findIntersection(profilCurrent["eave"],profilBack1["eave"],infinite1=True,infinite2=True,)
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self.ptsPaneProject.append(FreeCAD.Vector(point[0]))
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def nextSameHeight(self, i):
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import DraftGeomUtils
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profilCurrent = self.findProfil(i)
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profilNext1 = self.findProfil(i+1)
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ptInterRidges = DraftGeomUtils.findIntersection(profilCurrent["ridge"],profilNext1["ridge"],infinite1=True,infinite2=True,)
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edgeHip = DraftGeomUtils.edg(FreeCAD.Vector(ptInterRidges[0]),profilCurrent["edge"].Vertexes[-1].Point)
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ptInterHipEave = DraftGeomUtils.findIntersection(edgeHip,profilCurrent["eave"],infinite1=True,infinite2=False,)
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if ptInterHipEave:
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self.ptsPaneProject.append(FreeCAD.Vector(ptInterHipEave[0]))
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else:
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ptInterHipEave = DraftGeomUtils.findIntersection(edgeHip,profilNext1["eaveD"],infinite1=True,infinite2=True,)
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self.ptsPaneProject.append(FreeCAD.Vector(profilCurrent["eave"].Vertexes[-1].Point))
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self.ptsPaneProject.append(FreeCAD.Vector(ptInterHipEave[0]))
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self.ptsPaneProject.append(FreeCAD.Vector(ptInterRidges[0]))
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def backSameHeight(self, i):
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import DraftGeomUtils
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profilCurrent = self.findProfil(i)
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profilBack1 = self.findProfil(i-1)
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ptInterRidges = DraftGeomUtils.findIntersection(profilCurrent["ridge"],profilBack1["ridge"],infinite1=True,infinite2=True,)
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self.ptsPaneProject.append(FreeCAD.Vector(ptInterRidges[0]))
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edgeHip = DraftGeomUtils.edg(FreeCAD.Vector(ptInterRidges[0]),profilCurrent["edge"].Vertexes[0].Point)
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ptInterHipEave = DraftGeomUtils.findIntersection(edgeHip,profilCurrent["eave"],infinite1=True,infinite2=False,)
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if ptInterHipEave:
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self.ptsPaneProject.append(FreeCAD.Vector(ptInterHipEave[0]))
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else:
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ptInterHipEave = DraftGeomUtils.findIntersection(edgeHip,profilBack1["eaveD"],infinite1=True,infinite2=True,)
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self.ptsPaneProject.append(FreeCAD.Vector(ptInterHipEave[0]))
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self.ptsPaneProject.append(FreeCAD.Vector(profilCurrent["eave"].Vertexes[0].Point))
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def nextHigher(self, i):
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import DraftGeomUtils
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profilCurrent = self.findProfil(i)
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profilNext1 = self.findProfil(i+1)
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dec = profilCurrent["height"]/math.tan(math.radians(profilNext1["angle"]))
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edgeRidgeOnPane = DraftGeomUtils.offset(profilNext1["edge"],self.getPerpendicular(profilNext1["vec"],profilNext1["rot"],dec))
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ptInter = DraftGeomUtils.findIntersection(profilCurrent["ridge"],edgeRidgeOnPane,infinite1=True,infinite2=True,)
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edgeHip = DraftGeomUtils.edg(FreeCAD.Vector(ptInter[0]),profilCurrent["edge"].Vertexes[-1].Point)
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ptInterHipEave = DraftGeomUtils.findIntersection(edgeHip,profilCurrent["eave"],infinite1=True,infinite2=False,)
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if ptInterHipEave:
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self.ptsPaneProject.append(FreeCAD.Vector(ptInterHipEave[0]))
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else:
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ptInterHipEave = DraftGeomUtils.findIntersection(edgeHip,profilNext1["eaveD"],infinite1=True,infinite2=True,)
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self.ptsPaneProject.append(FreeCAD.Vector(profilCurrent["eave"].Vertexes[-1].Point[0]))
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self.ptsPaneProject.append(FreeCAD.Vector(ptInterHipEave[0]))
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self.ptsPaneProject.append(FreeCAD.Vector(ptInter[0]))
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ptInterRidges = DraftGeomUtils.findIntersection(profilCurrent["ridge"],profilNext1["ridge"],infinite1=True,infinite2=True,)
|
|
self.ptsPaneProject.append(FreeCAD.Vector(ptInterRidges[0]))
|
|
|
|
def backHigher(self, i):
|
|
import DraftGeomUtils
|
|
profilCurrent = self.findProfil(i)
|
|
profilBack1 = self.findProfil(i-1)
|
|
dec = profilCurrent["height"]/math.tan(math.radians(profilBack1["angle"]))
|
|
edgeRidgeOnPane = DraftGeomUtils.offset(profilBack1["edge"],self.getPerpendicular(profilBack1["vec"],profilBack1["rot"],dec))
|
|
ptInterRidges = DraftGeomUtils.findIntersection(edgeRidgeOnPane,profilCurrent["ridge"],infinite1=True,infinite2=True,)
|
|
self.ptsPaneProject.append(FreeCAD.Vector(ptInterRidges[0]))
|
|
edgeHip = DraftGeomUtils.edg(FreeCAD.Vector(ptInterRidges[0]),profilCurrent["edge"].Vertexes[0].Point)
|
|
ptInterHipEave = DraftGeomUtils.findIntersection(edgeHip,profilCurrent["eave"],infinite1=True,infinite2=False,)
|
|
if ptInterHipEave:
|
|
self.ptsPaneProject.append(FreeCAD.Vector(ptInterHipEave[0]))
|
|
else:
|
|
ptInterHipEave = DraftGeomUtils.findIntersection(edgeHip,profilBack1["eaveD"],infinite1=True,infinite2=True,)
|
|
self.ptsPaneProject.append(FreeCAD.Vector(ptInterHipEave[0]))
|
|
self.ptsPaneProject.append(FreeCAD.Vector(profilCurrent["eave"].Vertexes[0].Point[0]))
|
|
|
|
def nextSmaller(self, i):
|
|
import DraftGeomUtils
|
|
profilCurrent = self.findProfil(i)
|
|
profilNext1 = self.findProfil(i+1)
|
|
dec = profilNext1["height"]/math.tan(math.radians(profilCurrent["angle"]))
|
|
edgeRidgeOnPane = DraftGeomUtils.offset(profilCurrent["edge"],self.getPerpendicular(profilCurrent["vec"],profilCurrent["rot"],dec))
|
|
ptInter = DraftGeomUtils.findIntersection(profilNext1["ridge"],edgeRidgeOnPane,infinite1=True,infinite2=True,)
|
|
edgeHip = DraftGeomUtils.edg(FreeCAD.Vector(ptInter[0]),profilCurrent["edge"].Vertexes[-1].Point)
|
|
ptInterHipEave = DraftGeomUtils.findIntersection(edgeHip,profilCurrent["eave"],infinite1=True,infinite2=False,)
|
|
if ptInterHipEave:
|
|
self.ptsPaneProject.append(FreeCAD.Vector(ptInterHipEave[0]))
|
|
else:
|
|
ptInterHipEave = DraftGeomUtils.findIntersection(edgeHip,profilNext1["eaveD"],infinite1=True,infinite2=True,)
|
|
self.ptsPaneProject.append(FreeCAD.Vector(profilCurrent["eave"].Vertexes[-1].Point[0]))
|
|
self.ptsPaneProject.append(FreeCAD.Vector(ptInterHipEave[0]))
|
|
self.ptsPaneProject.append(FreeCAD.Vector(ptInter[0]))
|
|
ptInter = edgeHip.Vertexes[0].Point
|
|
vecInterRidges = DraftGeomUtils.findPerpendicular(ptInter, [profilCurrent["ridge"].Edges[0],], force=0)
|
|
ptInterRidges = ptInter.add(vecInterRidges[0])
|
|
self.ptsPaneProject.append(FreeCAD.Vector(ptInterRidges))
|
|
|
|
def backSmaller(self, i):
|
|
import DraftGeomUtils
|
|
profilCurrent = self.findProfil(i)
|
|
profilBack1 = self.findProfil(i-1)
|
|
dec = profilBack1["height"]/math.tan(math.radians(profilCurrent["angle"]))
|
|
edgeRidgeOnPane = DraftGeomUtils.offset(profilCurrent["edge"],self.getPerpendicular(profilCurrent["vec"],profilCurrent["rot"],dec))
|
|
ptInter1 = DraftGeomUtils.findIntersection(edgeRidgeOnPane,profilBack1["ridge"],infinite1=True,infinite2=True,)
|
|
edgeHip = DraftGeomUtils.edg(FreeCAD.Vector(ptInter1[0]),profilCurrent["edge"].Vertexes[0].Point)
|
|
ptInter2 = edgeHip.Vertexes[0].Point
|
|
vecInterRidges = DraftGeomUtils.findPerpendicular(ptInter2, [profilCurrent["ridge"].Edges[0],], force=0)
|
|
ptInterRidges = ptInter2.add(vecInterRidges[0])
|
|
self.ptsPaneProject.append(FreeCAD.Vector(ptInterRidges))
|
|
self.ptsPaneProject.append(FreeCAD.Vector(ptInter1[0]))
|
|
ptInterHipEave = DraftGeomUtils.findIntersection(edgeHip,profilCurrent["eave"],infinite1=True,infinite2=False,)
|
|
if ptInterHipEave:
|
|
self.ptsPaneProject.append(FreeCAD.Vector(ptInterHipEave[0]))
|
|
else:
|
|
ptInterHipEave = DraftGeomUtils.findIntersection(edgeHip,profilBack1["eaveD"],infinite1=True,infinite2=True,)
|
|
self.ptsPaneProject.append(FreeCAD.Vector(ptInterHipEave[0]))
|
|
self.ptsPaneProject.append(FreeCAD.Vector(profilCurrent["eave"].Vertexes[0].Point[0]))
|
|
|
|
def getRoofPaneProject(self, i):
|
|
self.ptsPaneProject=[]
|
|
profilCurrent = self.findProfil(i)
|
|
profilBack1 = self.findProfil(i-1)
|
|
profilNext1 = self.findProfil(i+1)
|
|
if profilCurrent["angle"] != 90.:
|
|
if profilNext1["angle"] == 90. :
|
|
self.nextPignon(i)
|
|
elif profilNext1["height"] == profilCurrent["height"] :
|
|
self.nextSameHeight(i)
|
|
elif profilNext1["height"] < profilCurrent["height"] :
|
|
self.nextSmaller(i)
|
|
elif profilNext1["height"] > profilCurrent["height"] :
|
|
self.nextHigher(i)
|
|
else:
|
|
print("Arch Roof : Case Not implemented")
|
|
if profilBack1["angle"] == 90. :
|
|
self.backPignon(i)
|
|
elif profilBack1["height"] == profilCurrent["height"] :
|
|
self.backSameHeight(i)
|
|
elif profilBack1["height"] < profilCurrent["height"] :
|
|
self.backSmaller(i)
|
|
elif profilBack1["height"] > profilCurrent["height"] :
|
|
self.backHigher(i)
|
|
else:
|
|
print("Arch Roof : Case Not implemented")
|
|
else:
|
|
self.ptsPaneProject=[]
|
|
|
|
self.ptsPaneProject = DraftVecUtils.removeDoubles(self.ptsPaneProject)
|
|
profilCurrent["points"] = self.ptsPaneProject
|
|
|
|
def createProfilShape (self, points, midpoint, rot, vec, run, d, f):
|
|
import Part
|
|
lp = len(points)
|
|
points.append(points[0])
|
|
edgesWire = []
|
|
for i in range(lp):
|
|
edge = Part.makeLine(points[i],points[i+1])
|
|
edgesWire.append(edge)
|
|
profil = Part.Wire(edgesWire)
|
|
profil.translate(midpoint)
|
|
profil.rotate(midpoint,FreeCAD.Vector(0,0,1), 90. + rot * -1)
|
|
perp = self.getPerpendicular(vec,rot,run)
|
|
profil.rotate(midpoint,perp,90.)
|
|
vecT = vec.normalize()
|
|
vecT.multiply(d)
|
|
profil.translate(vecT)
|
|
vecE = vecT.multiply(-2.)
|
|
profilFace = Part.Face(profil)
|
|
profilShp = profilFace.extrude(vecE)
|
|
profilShp = f.common(profilShp)
|
|
#shapesList.append(profilShp)
|
|
return profilShp
|
|
|
|
def execute(self,obj):
|
|
|
|
if self.clone(obj):
|
|
return
|
|
|
|
import Part, math, DraftGeomUtils
|
|
pl = obj.Placement
|
|
#self.baseface = None
|
|
|
|
base = None
|
|
w = None
|
|
if obj.Base:
|
|
if obj.Base.isDerivedFrom("Part::Feature"):
|
|
if obj.Base.Shape.Solids:
|
|
base = obj.Base.Shape
|
|
#pl = obj.Base.Placement
|
|
else:
|
|
if (obj.Base.Shape.Faces and obj.Face):
|
|
w = obj.Base.Shape.Faces[obj.Face-1].Wires[0]
|
|
elif obj.Base.Shape.Wires:
|
|
w = obj.Base.Shape.Wires[0]
|
|
if w:
|
|
if w.isClosed():
|
|
self.profilsDico = []
|
|
self.shps = []
|
|
self.subVolshps = []
|
|
heights = []
|
|
edges = Part.__sortEdges__(w.Edges)
|
|
l = len(edges)
|
|
for i in range(l):
|
|
self.makeRoofProfilsDic(i, obj.Angles[i], obj.Runs[i], obj.IdRel[i], obj.Overhang[i], obj.Thickness[i])
|
|
for i in range(l):
|
|
self.calcMissingData(i)
|
|
for i in range(l):
|
|
self.calcEdgeGeometry(edges, i)
|
|
for i in range(l):
|
|
self.calcDraftEdges(i)
|
|
for i in range(l):
|
|
self.calcEave(i)
|
|
for p in self.profilsDico:
|
|
heights.append(p["height"])
|
|
obj.Heights = heights
|
|
for i in range(l):
|
|
self.getRoofPaneProject(i)
|
|
profilCurrent = self.findProfil(i)
|
|
midpoint = DraftGeomUtils.findMidpoint(profilCurrent["edge"])
|
|
ptsPaneProject = profilCurrent["points"]
|
|
lp = len(ptsPaneProject)
|
|
if lp != 0:
|
|
ptsPaneProject.append(ptsPaneProject[0])
|
|
edgesWire = []
|
|
for p in range(lp):
|
|
edge = Part.makeLine(ptsPaneProject[p],ptsPaneProject[p+1])
|
|
edgesWire.append(edge)
|
|
wire = Part.Wire(edgesWire)
|
|
d = wire.BoundBox.DiagonalLength
|
|
thicknessV = profilCurrent["thickness"]/(math.cos(math.radians(profilCurrent["angle"])))
|
|
overhangV = profilCurrent["overhang"]*math.tan(math.radians(profilCurrent["angle"]))
|
|
if wire.isClosed():
|
|
f = Part.Face(wire)
|
|
f = f.extrude(FreeCAD.Vector(0,0,profilCurrent["height"]+1000000.0))
|
|
f.translate(FreeCAD.Vector(0.0,0.0,-2*overhangV))
|
|
ptsPaneProfil=[FreeCAD.Vector(-profilCurrent["overhang"],-overhangV,0.0),FreeCAD.Vector(profilCurrent["run"],profilCurrent["height"],0.0),FreeCAD.Vector(profilCurrent["run"],profilCurrent["height"]+thicknessV,0.0),FreeCAD.Vector(-profilCurrent["overhang"],-overhangV+thicknessV,0.0)]
|
|
self.shps.append(self.createProfilShape(ptsPaneProfil, midpoint, profilCurrent["rot"], profilCurrent["vec"], profilCurrent["run"], d, f))
|
|
## subVolume shape
|
|
ptsSubVolumeProfil=[FreeCAD.Vector(-profilCurrent["overhang"],-overhangV,0.0),FreeCAD.Vector(profilCurrent["run"],profilCurrent["height"],0.0),FreeCAD.Vector(profilCurrent["run"],profilCurrent["height"]+900000.0,0.0),FreeCAD.Vector(-profilCurrent["overhang"],profilCurrent["height"]+900000.0,0.0)]
|
|
self.subVolshps.append(self.createProfilShape(ptsSubVolumeProfil, midpoint, profilCurrent["rot"], profilCurrent["vec"], profilCurrent["run"], d, f))
|
|
## SubVolume
|
|
self.sub = self.subVolshps.pop()
|
|
for s in self.subVolshps:
|
|
self.sub = self.sub.fuse(s)
|
|
self.sub = self.sub.removeSplitter()
|
|
if not self.sub.isNull():
|
|
if not DraftGeomUtils.isNull(pl):
|
|
self.sub.Placement = pl
|
|
## BaseVolume
|
|
base = self.shps.pop()
|
|
for s in self.shps :
|
|
base = base.fuse(s)
|
|
base = self.processSubShapes(obj,base)
|
|
self.applyShape(obj,base,pl)
|
|
elif base :
|
|
base = self.processSubShapes(obj,base)
|
|
self.applyShape(obj,base,pl)
|
|
else:
|
|
FreeCAD.Console.PrintMessage(translate("Arch","Unable to create a roof"))
|
|
|
|
def getSubVolume(self,obj):
|
|
"returns a volume to be subtracted"
|
|
if obj.Base:
|
|
if obj.Base.isDerivedFrom("Part::Feature"):
|
|
if obj.Base.Shape.Solids:
|
|
return obj.Shape
|
|
else :
|
|
if self.sub:
|
|
return self.sub
|
|
else :
|
|
self.execute(obj)
|
|
return self.sub
|
|
return None
|
|
|
|
class _ViewProviderRoof(ArchComponent.ViewProviderComponent):
|
|
"A View Provider for the Roof object"
|
|
|
|
def __init__(self,vobj):
|
|
ArchComponent.ViewProviderComponent.__init__(self,vobj)
|
|
|
|
def getIcon(self):
|
|
import Arch_rc
|
|
return ":/icons/Arch_Roof_Tree.svg"
|
|
|
|
def attach(self,vobj):
|
|
self.Object = vobj.Object
|
|
return
|
|
|
|
def unsetEdit(self,vobj,mode):
|
|
FreeCADGui.Control.closeDialog()
|
|
return
|
|
|
|
def setEdit(self,vobj,mode=0):
|
|
if vobj.Object.Base.Shape.Solids :
|
|
taskd = ArchComponent.ComponentTaskPanel()
|
|
taskd.obj = self.Object
|
|
taskd.update()
|
|
FreeCADGui.Control.showDialog(taskd)
|
|
else:
|
|
taskd = _RoofTaskPanel()
|
|
taskd.obj = self.Object
|
|
taskd.update()
|
|
FreeCADGui.Control.showDialog(taskd)
|
|
return True
|
|
|
|
class _RoofTaskPanel:
|
|
'''The editmode TaskPanel for Roof objects'''
|
|
def __init__(self):
|
|
|
|
self.updating = False
|
|
|
|
self.obj = None
|
|
self.form = QtGui.QWidget()
|
|
self.form.setObjectName("TaskPanel")
|
|
self.grid = QtGui.QGridLayout(self.form)
|
|
self.grid.setObjectName("grid")
|
|
self.title = QtGui.QLabel(self.form)
|
|
self.grid.addWidget(self.title, 0, 0, 1, 2)
|
|
|
|
# tree
|
|
self.tree = QtGui.QTreeWidget(self.form)
|
|
self.grid.addWidget(self.tree, 1, 0, 1, 2)
|
|
self.tree.setColumnCount(7)
|
|
self.tree.header().resizeSection(0,30)
|
|
self.tree.header().resizeSection(1,50)
|
|
self.tree.header().resizeSection(2,60)
|
|
self.tree.header().resizeSection(3,30)
|
|
self.tree.header().resizeSection(4,50)
|
|
self.tree.header().resizeSection(5,50)
|
|
self.tree.header().resizeSection(6,50)
|
|
|
|
QtCore.QObject.connect(self.tree, QtCore.SIGNAL("itemChanged(QTreeWidgetItem *, int)"), self.edit)
|
|
self.update()
|
|
|
|
def isAllowedAlterSelection(self):
|
|
return False
|
|
|
|
def isAllowedAlterView(self):
|
|
return True
|
|
|
|
def getStandardButtons(self):
|
|
return int(QtGui.QDialogButtonBox.Close)
|
|
|
|
def update(self):
|
|
'fills the treewidget'
|
|
self.updating = True
|
|
self.tree.clear()
|
|
if self.obj:
|
|
for i in range(len(self.obj.Angles)):
|
|
item = QtGui.QTreeWidgetItem(self.tree)
|
|
item.setText(0,str(i))
|
|
item.setText(1,str(self.obj.Angles[i]))
|
|
item.setText(2,str(self.obj.Runs[i]))
|
|
item.setText(3,str(self.obj.IdRel[i]))
|
|
item.setText(4,str(self.obj.Thickness[i]))
|
|
item.setText(5,str(self.obj.Overhang[i]))
|
|
item.setText(6,str(self.obj.Heights[i]))
|
|
item.setFlags(item.flags() | QtCore.Qt.ItemIsEditable)
|
|
item.setTextAlignment(0,QtCore.Qt.AlignLeft)
|
|
self.retranslateUi(self.form)
|
|
self.updating = False
|
|
|
|
def edit(self,item,column):
|
|
if not self.updating:
|
|
self.resetObject()
|
|
|
|
def resetObject(self,remove=None):
|
|
"transfers the values from the widget to the object"
|
|
a = []
|
|
run = []
|
|
rel = []
|
|
thick = []
|
|
over = []
|
|
for i in range(self.tree.topLevelItemCount()):
|
|
it = self.tree.findItems(str(i),QtCore.Qt.MatchExactly,0)[0]
|
|
a.append(float(it.text(1)))
|
|
run.append(float(it.text(2)))
|
|
rel.append(int(it.text(3)))
|
|
thick.append(float(it.text(4)))
|
|
over.append(float(it.text(5)))
|
|
self.obj.Runs = run
|
|
self.obj.Angles = a
|
|
self.obj.IdRel = rel
|
|
self.obj.Thickness = thick
|
|
self.obj.Overhang = over
|
|
self.obj.touch()
|
|
FreeCAD.ActiveDocument.recompute()
|
|
self.update()
|
|
|
|
def reject(self):
|
|
FreeCAD.ActiveDocument.recompute()
|
|
FreeCADGui.ActiveDocument.resetEdit()
|
|
return True
|
|
|
|
def retranslateUi(self, TaskPanel):
|
|
TaskPanel.setWindowTitle(QtGui.QApplication.translate("Arch", "Roof", None, QtGui.QApplication.UnicodeUTF8))
|
|
self.title.setText(QtGui.QApplication.translate("Arch", "Parameters of the profiles of the roof:\n* Angle : slope in degrees compared to the horizontal one.\n* Run : outdistance between the wall and the ridge sheathing.\n* Thickness : thickness of the side of roof.\n* Overhang : outdistance between the sewer and the wall.\n* Height : height of the ridge sheathing (calculated automatically)\n* IdRel : Relative Id for calculations automatic.\n---\nIf Angle = 0 and Run = 0 then profile is identical to the relative profile.\nIf Angle = 0 then angle is calculated so that the height is the same one as the relative profile.\nIf Run = 0 then Run is calculated so that the height is the same one as the relative profile.", None, QtGui.QApplication.UnicodeUTF8))
|
|
self.tree.setHeaderLabels([QtGui.QApplication.translate("Arch", "Id", None, QtGui.QApplication.UnicodeUTF8),
|
|
QtGui.QApplication.translate("Arch", "Angle (deg)", None, QtGui.QApplication.UnicodeUTF8),
|
|
QtGui.QApplication.translate("Arch", "Run (mm)", None, QtGui.QApplication.UnicodeUTF8),
|
|
QtGui.QApplication.translate("Arch", "IdRel", None, QtGui.QApplication.UnicodeUTF8),
|
|
QtGui.QApplication.translate("Arch", "Thickness (mm)", None, QtGui.QApplication.UnicodeUTF8),
|
|
QtGui.QApplication.translate("Arch", "Overhang (mm)", None, QtGui.QApplication.UnicodeUTF8),
|
|
QtGui.QApplication.translate("Arch", "Height (mm)", None, QtGui.QApplication.UnicodeUTF8)])
|
|
|
|
if FreeCAD.GuiUp:
|
|
FreeCADGui.addCommand('Arch_Roof',_CommandRoof())
|