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Add a new Arch Roof Builder

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wood galaxy 2014-12-01 14:39:50 +01:00 committed by Yorik van Havre
parent c02590c666
commit 715b5d7fe9
1 changed files with 392 additions and 31 deletions
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423
src/Mod/Arch/ArchRoof.py
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@ -1,7 +1,7 @@
#***************************************************************************
#* *
#* Copyright (c) 2012 *
#* Yorik van Havre <yorik@uncreated.net> *
#* Copyright (c) 2012 *
#* Yorik van Havre <yorik@uncreated.net> *
#* *
#* This program is free software; you can redistribute it and/or modify *
#* it under the terms of the GNU Lesser General Public License (LGPL) *
@ -21,7 +21,7 @@
#* *
#***************************************************************************
import FreeCAD,Draft,ArchComponent, DraftVecUtils
import FreeCAD, Draft, math, ArchComponent, DraftVecUtils, DraftGeomUtils
from FreeCAD import Vector
if FreeCAD.GuiUp:
import FreeCADGui
@ -35,6 +35,60 @@ __title__="FreeCAD Roof"
__author__ = "Yorik van Havre"
__url__ = "http://www.freecadweb.org"
def makeRoof2(baseobj=None,facenr=1, angles=[45.,], run = [], idrel = [0,],thickness = [1.,], overhang=[0.,], name=translate("Arch","Roof")):
'''makeRoof(baseobj,[facenr],[angle],[name]) : Makes a roof based on a
face from an existing object. You can provide the number of the face
to build the roof on (default = 1), the angle (default=45) and a name (default
= roof).'''
obj = FreeCAD.ActiveDocument.addObject("Part::FeaturePython",name)
_Roof(obj)
if FreeCAD.GuiUp:
_ViewProviderRoof(obj.ViewObject)
if baseobj:
obj.Base = baseobj
if obj.Base.isDerivedFrom("Part::Feature"):
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():
edges = DraftGeomUtils.sortEdges(w.Edges)
l = len(edges)
la = len(angles)
alist = angles
for i in range(l-la):
alist.append(angles[0])
obj.Angles=alist
lr = len(run)
rlist = run
for i in range(l-lr):
rlist.append(w.Edges[i].Length/2.)
obj.Runs = rlist
lidrel = len(idrel)
rellist = idrel
for i in range(l-lidrel):
rellist.append(0)
obj.IdRel = rellist
lthick = len(thickness)
tlist = thickness
for i in range(l-lthick):
tlist.append(thickness[0])
obj.Thickness = tlist
lover = len(overhang)
olist = overhang
for i in range(l-lover):
olist.append(2.)
obj.Overhang = olist
obj.Face = facenr
return obj
def makeRoof(baseobj=None,facenr=1,angle=45,name=translate("Arch","Roof")):
'''makeRoof(baseobj,[facenr],[angle],[name]) : Makes a roof based on a
face from an existing object. You can provide the number of the face
@ -72,7 +126,7 @@ class _CommandRoof:
idx = int(sel.SubElementNames[0][4:])
FreeCAD.ActiveDocument.openTransaction(translate("Arch","Create Roof"))
FreeCADGui.addModule("Arch")
FreeCADGui.doCommand("Arch.makeRoof(FreeCAD.ActiveDocument."+obj.Name+","+str(idx)+")")
FreeCADGui.doCommand("Arch.makeRoof2(FreeCAD.ActiveDocument."+obj.Name+","+str(idx)+")")
FreeCAD.ActiveDocument.commitTransaction()
FreeCAD.ActiveDocument.recompute()
return
@ -80,7 +134,7 @@ class _CommandRoof:
if obj.Shape.Wires:
FreeCAD.ActiveDocument.openTransaction(translate("Arch","Create Roof"))
FreeCADGui.addModule("Arch")
FreeCADGui.doCommand("Arch.makeRoof(FreeCAD.ActiveDocument."+obj.Name+")")
FreeCADGui.doCommand("Arch.makeRoof2(FreeCAD.ActiveDocument."+obj.Name+")")
FreeCAD.ActiveDocument.commitTransaction()
FreeCAD.ActiveDocument.recompute()
return
@ -91,23 +145,106 @@ class _CommandRoof:
FreeCADGui.Control.showDialog(ArchComponent.SelectionTaskPanel())
FreeCAD.ArchObserver = ArchComponent.ArchSelectionObserver(nextCommand="Arch_Roof")
FreeCADGui.Selection.addObserver(FreeCAD.ArchObserver)
class _Roof(ArchComponent.Component):
"The Roof object"
def __init__(self,obj):
ArchComponent.Component.__init__(self,obj)
obj.addProperty("App::PropertyAngle","Angle","Base",translate("Arch","The angle of this roof"))
obj.addProperty("App::PropertyFloatList","Angles","Arch", translate("Arch","The angles of each slope."))
obj.addProperty("App::PropertyFloatList","Runs","Arch", translate("Arch","The horizontal lenght projection of each crawling."))
obj.addProperty("App::PropertyIntegerList","IdRel","Arch", translate("Arch","The pane Id of relative profil."))
obj.addProperty("App::PropertyFloatList","Thickness","Arch", translate("Arch","The thickness of the roof pane."))
obj.addProperty("App::PropertyFloatList","Overhang","Arch", translate("Arch","TODO:The Overhang of the roof pane."))
obj.addProperty("App::PropertyFloatList","Heights","Arch", translate("Arch","The calculated height of the roof pane list."))
obj.addProperty("App::PropertyInteger","Face","Base",translate("Arch","The face number of the base object used to build this roof"))
self.Type = "Roof"
obj.Proxy = self
def calcHeight(self, id):
htRel = self.profilsDico[id]["run"]*(math.tan(math.radians(self.profilsDico[id]["angle"])))
return htRel
def calcRun(self, id):
lgRel = self.profilsDico[id]["height"]/(math.tan(math.radians(self.profilsDico[id]["angle"])))
return lgRel
def calcAngle(self, id):
a = math.degrees(math.atan(self.profilsDico[id]["height"]/self.profilsDico[id]["run"]))
return a
def getPerpendicular(self, vec, angleEdge, l):
norm = FreeCAD.Vector(0,0,1)
perpendicular = vec.cross(norm)
if -180. <= angleEdge < -90.:
perpendicular[0] = abs(perpendicular[0])*-1
perpendicular[1] = abs(perpendicular[1])*-1
elif -90. <= angleEdge <= 0.:
perpendicular[0] = abs(perpendicular[0])*-1
perpendicular[1] = abs(perpendicular[1])
elif 0. < angleEdge <= 90.:
perpendicular[0] = abs(perpendicular[0])
perpendicular[1] = abs(perpendicular[1])
elif 90. < angleEdge <= 180.:
perpendicular[0] = abs(perpendicular[0])
perpendicular[1] = abs(perpendicular[1])*-1
else:
print("Angle inconnue")
perpendicular[2] = abs(perpendicular[2])
perpendicular.normalize()
perpendicular = perpendicular.multiply(l)
return perpendicular
def makeRoofProfilsDic(self, id, angle, run, idrel, overhang, thickness,):
profilDico = {}
profilDico["id"] = id
if angle == 90.:
profilDico["name"] = "Pignon"+str(id)
profilDico["run"]=0.
else:
profilDico["name"] = "Pan"+str(id)
profilDico["run"] = run
profilDico["angle"] = angle
profilDico["idrel"] = idrel
profilDico["overhang"] = overhang
profilDico["thickness"] = thickness
profilDico["height"] = None
profilDico["points"] = []
self.profilsDico.append(profilDico)
def calcMissingData(self, i):
a = self.profilsDico[i]["angle"]
lg = self.profilsDico[i]["run"]
rel = self.profilsDico[i]["idrel"]
if a == 0.0 and lg == 0.0 :
self.profilsDico[i]["run"] = self.profilsDico[rel]["run"]
self.profilsDico[i]["angle"] = self.profilsDico[rel]["angle"]
self.profilsDico[i]["height"] = self.calcHeight(i)
elif lg == 0:
if a == 90. :
htRel = self.calcHeight(rel)
self.profilsDico[i]["height"] = htRel
else :
htRel = self.calcHeight(rel)
self.profilsDico[i]["height"] = htRel
run = self.calcRun(i)
self.profilsDico[i]["run"] = run
elif a == 0. :
htRel = self.calcHeight(rel)
self.profilsDico[i]["height"] = htRel
a = self.calcAngle(i)
self.profilsDico[i]["angle"] = a
else :
ht = self.calcHeight(i)
self.profilsDico[i]["height"] = ht
def execute(self,obj):
import Part, math, DraftGeomUtils
pl = obj.Placement
self.baseface = None
base = None
if obj.Base and obj.Angle:
if obj.Base and obj.Angles:
w = None
if obj.Base.isDerivedFrom("Part::Feature"):
if (obj.Base.Shape.Faces and obj.Face):
@ -116,34 +253,146 @@ class _Roof(ArchComponent.Component):
w = obj.Base.Shape.Wires[0]
if w:
if w.isClosed():
f = Part.Face(w)
self.baseface = f.copy()
norm = f.normalAt(0,0)
c = round(math.tan(math.radians(obj.Angle)),Draft.precision())
d = f.BoundBox.DiagonalLength
edges = DraftGeomUtils.sortEdges(f.Edges)
l = len(edges)
edges.append(edges[0])
self.profilsDico = []
shps = []
heights = []
edges = DraftGeomUtils.sortEdges(w.Edges)
l = len(edges)
for i in range(l):
v = DraftGeomUtils.vec(DraftGeomUtils.angleBisection(edges[i],edges[i+1]))
v.normalize()
bis = v.getAngle(DraftGeomUtils.vec(edges[i]))
delta = 1/math.cos(bis)
v.multiply(delta)
n = (FreeCAD.Vector(norm)).multiply(c)
dv = v.add(n)
dv.normalize()
dv.scale(d,d,d)
shps.append(f.extrude(dv))
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 p in self.profilsDico:
heights.append(p["height"])
obj.Heights = heights
"""
for p in self.profilsDico:
print p
print obj.Angles
print obj.Runs
print obj.IdRel
print obj.Overhang
print obj.Thickness
print obj.Heights
"""
for i in range(l):
edgesForward = edges[:]
edgesForward.append(edges[0])
edgesBack = edges[:]
edgesBack.insert(0,edges[-1])
points=[]
profil0 =self.profilsDico[i-1]
profil1 =self.profilsDico[i]
if i == l-1:
profil2 =self.profilsDico[0]
else:
profil2 =self.profilsDico[i+1]
vec0 = edges[i-1].Vertexes[-1].Point.sub(edges[i-1].Vertexes[0].Point)
vec1 = edges[i].Vertexes[-1].Point.sub(edges[i].Vertexes[0].Point)
vec2 = edgesForward[i+1].Vertexes[-1].Point.sub(edgesForward[i+1].Vertexes[0].Point)
angleEdge0 = math.degrees(DraftVecUtils.angle(vec0))
angleEdge1 = math.degrees(DraftVecUtils.angle(vec1))
angleEdge2 = math.degrees(DraftVecUtils.angle(vec2))
points=[edges[i].Vertexes[0].Point,edges[i].Vertexes[-1].Point]
if profil1["angle"] != 90.:
lg = profil1["run"]
faitage = DraftGeomUtils.offset(edges[i],self.getPerpendicular(vec1,angleEdge1,lg))
midpoint = DraftGeomUtils.findMidpoint(edges[i])
if profil2["angle"] == 90. :
edge = DraftGeomUtils.offset(edgesForward[i+1],FreeCAD.Vector(0,0,0))
point = DraftGeomUtils.findIntersection(faitage,edge,infinite1=True,infinite2=True,)
points.append(FreeCAD.Vector(point[0]))
elif profil2["height"] == profil1["height"]:
edge = DraftGeomUtils.offset(edgesForward[i+1],self.getPerpendicular(vec2,angleEdge2,profil2["run"]))
point = DraftGeomUtils.findIntersection(faitage,edge,infinite1=True,infinite2=True,)
points.append(FreeCAD.Vector(point[0]))
elif profil1["height"] > profil2["height"]:
edge = DraftGeomUtils.offset(edgesForward[i+1],self.getPerpendicular(vec2,angleEdge2,profil2["run"]))
dec = profil2["height"]/math.tan(math.radians(profil1["angle"]))
edge1 = DraftGeomUtils.offset(edges[i],self.getPerpendicular(vec1,angleEdge1,dec))
pointR = DraftGeomUtils.findIntersection(edge,edge1,infinite1=True,infinite2=True,)
points.append(FreeCAD.Vector(pointR[0]))
point = DraftGeomUtils.findIntersection(faitage,edge,infinite1=True,infinite2=True,)
points.append(FreeCAD.Vector(point[0]))
elif profil1["height"] < profil2["height"]:
dec = profil1["height"]/math.tan(math.radians(profil2["angle"]))
edge1 = DraftGeomUtils.offset(edgesForward[i+1],self.getPerpendicular(vec2,angleEdge2,dec))
point = DraftGeomUtils.findIntersection(faitage,edge1,infinite1=True,infinite2=True,)
points.append(FreeCAD.Vector(point[0]))
else:
print("Cas de figure non pris en charge")
if profil0["angle"] == 90. :
edge = edgesBack[i]
point = DraftGeomUtils.findIntersection(faitage,edge,infinite1=True,infinite2=True,)
points.append(FreeCAD.Vector(point[0]))
elif profil0["height"] == profil1["height"]:
edge = DraftGeomUtils.offset(edgesBack[i],self.getPerpendicular(vec0,angleEdge0,profil0["run"]))
point = DraftGeomUtils.findIntersection(faitage,edge,infinite1=True,infinite2=True,)
points.append(FreeCAD.Vector(point[0]))
elif profil1["height"] > profil0["height"]:
dec = profil0["height"]/math.tan(math.radians(profil1["angle"]))
edge1 = DraftGeomUtils.offset(edges[i],self.getPerpendicular(vec1,angleEdge1,dec))
edge = DraftGeomUtils.offset(edges[i-1],self.getPerpendicular(vec0,angleEdge0,profil0["run"]))
point = DraftGeomUtils.findIntersection(edge,faitage,infinite1=True,infinite2=True,)
points.append(FreeCAD.Vector(point[0]))
point = DraftGeomUtils.findIntersection(edge1,edge,infinite1=True,infinite2=True,)
points.append(FreeCAD.Vector(point[0]))
elif profil1["height"] < profil0["height"]:
dec = profil1["height"]/math.tan(math.radians(profil0["angle"]))
edge1 = DraftGeomUtils.offset(edges[i-1],self.getPerpendicular(vec0,angleEdge0,dec))
point = DraftGeomUtils.findIntersection(faitage,edge1,infinite1=True,infinite2=True,)
points.append(FreeCAD.Vector(point[0]))
else:
print("Cas de figure non pris en charge")
points = DraftVecUtils.removeDoubles(points)
self.profilsDico[i]["points"] = points
lp = len(points)
points.append(points[0])
edgesWire = []
for i in range(lp):
edge = Part.makeLine(points[i],points[i+1])
edgesWire.append(edge)
wire = Part.Wire(edgesWire)
d = wire.BoundBox.DiagonalLength
thicknessV = profil1["thickness"]/(math.cos(math.radians(profil1["angle"])))
overhangV = profil1["overhang"]*math.tan(math.radians(profil1["angle"]))
if wire.isClosed():
f = Part.Face(wire)
f = f.extrude(FreeCAD.Vector(0,0,profil1["height"]+2*thicknessV))
points=[FreeCAD.Vector(-profil1["overhang"],-overhangV,0.0),FreeCAD.Vector(profil1["run"],profil1["height"],0.0),FreeCAD.Vector(profil1["run"],profil1["height"]+thicknessV,0.0),FreeCAD.Vector(-profil1["overhang"],-overhangV+thicknessV,0.0)]
lp = len(points)
points.append(points[0])
edgesWire = []
for i in range(lp):
edge = Part.makeLine(points[i],points[i+1])
edgesWire.append(edge)
profilCouv = Part.Wire(edgesWire)
profilCouv.translate(midpoint)
profilCouv.rotate(midpoint,FreeCAD.Vector(0,0,1), 90. + angleEdge1 * -1)
perp = self.getPerpendicular(vec1,angleEdge1,profil1["run"])
profilCouv.rotate(midpoint,perp,90.)
vecT = vec1.normalize()
vecT.multiply(d)
profilCouv.translate(vecT)
vecE = vecT.multiply(-2.)
pC = Part.Face(profilCouv)
profilVol = pC.extrude(vecE)
#Part.show(profilVol)
panVol = f.common(profilVol)
#Part.show(panVol)
shps.append(panVol)
else:
#TODO PIGNON
pass
base = shps.pop()
for s in shps:
base = base.common(s)
base = base.fuse(s)
base = base.removeSplitter()
if not base.isNull():
if not DraftGeomUtils.isNull(pl):
base.Placement = pl
base = self.processSubShapes(obj,base)
if base:
if not base.isNull():
@ -158,8 +407,6 @@ class _Roof(ArchComponent.Component):
return self.baseface.extrude(norm)
return None
class _ViewProviderRoof(ArchComponent.ViewProviderComponent):
"A View Provider for the Roof object"
@ -170,5 +417,119 @@ class _ViewProviderRoof(ArchComponent.ViewProviderComponent):
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):
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 = the 0 then profile is identical to the relative profile.\nIf Angle = the 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", None, QtGui.QApplication.UnicodeUTF8),
QtGui.QApplication.translate("Arch", "Run", None, QtGui.QApplication.UnicodeUTF8),
QtGui.QApplication.translate("Arch", "IdRel", None, QtGui.QApplication.UnicodeUTF8),
QtGui.QApplication.translate("Arch", "Thickness", None, QtGui.QApplication.UnicodeUTF8),
QtGui.QApplication.translate("Arch", "Overhang", None, QtGui.QApplication.UnicodeUTF8),
QtGui.QApplication.translate("Arch", "Height", None, QtGui.QApplication.UnicodeUTF8)])
if FreeCAD.GuiUp:
FreeCADGui.addCommand('Arch_Roof',_CommandRoof())