/
ArchCommands.py
976 lines (908 loc) · 38.9 KB
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ArchCommands.py
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#***************************************************************************
#* *
#* Copyright (c) 2011 *
#* 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) *
#* 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 *
#* *
#***************************************************************************
import FreeCAD,Draft,ArchComponent,DraftVecUtils
from FreeCAD import Vector
if FreeCAD.GuiUp:
import FreeCADGui
from PySide import QtGui,QtCore
from DraftTools import translate
else:
def translate(ctxt,txt):
return txt
__title__="FreeCAD Arch Commands"
__author__ = "Yorik van Havre"
__url__ = "http://www.freecadweb.org"
# module functions ###############################################
def getStringList(objects):
'''getStringList(objects): returns a string defining a list
of objects'''
result = "["
for o in objects:
if len(result) > 1:
result += ","
result += "FreeCAD.ActiveDocument." + o.Name
result += "]"
return result
def getDefaultColor(objectType):
'''getDefaultColor(string): returns a color value for the given object
type (Wall, Structure, Window, WindowGlass)'''
p = FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Mod/Arch")
if objectType == "Wall":
c = p.GetUnsigned("WallColor",4294967295)
elif objectType == "Structure":
c = p.GetUnsigned("StructureColor",2847259391)
elif objectType == "WindowGlass":
c = p.GetUnsigned("WindowGlassColor",1772731135)
elif objectType == "Rebar":
c = p.GetUnsigned("RebarColor",3111475967)
else:
c = p.GetUnsigned("WindowsColor",810781695)
r = float((c>>24)&0xFF)/255.0
g = float((c>>16)&0xFF)/255.0
b = float((c>>8)&0xFF)/255.0
result = (r,g,b,1.0)
return result
def addComponents(objectsList,host):
'''addComponents(objectsList,hostObject): adds the given object or the objects
from the given list as components to the given host Object. Use this for
example to add windows to a wall, or to add walls to a cell or floor.'''
if not isinstance(objectsList,list):
objectsList = [objectsList]
hostType = Draft.getType(host)
if hostType in ["Floor","Building","Site"]:
c = host.Group
for o in objectsList:
if not o in c:
c.append(o)
host.Group = c
elif hostType in ["Wall","Structure","Window","Roof"]:
import DraftGeomUtils
a = host.Additions
if hasattr(host,"Axes"):
x = host.Axes
for o in objectsList:
if DraftGeomUtils.isValidPath(o.Shape) and (hostType == "Structure"):
if o.Support == host:
o.Support = None
host.Tool = o
elif Draft.getType(o) == "Axis":
if not o in x:
x.append(o)
elif not o in a:
if hasattr(o,"Shape"):
a.append(o)
host.Additions = a
if hasattr(host,"Axes"):
host.Axes = x
elif hostType in ["SectionPlane"]:
a = host.Objects
for o in objectsList:
if not o in a:
if hasattr(o,"Shape"):
a.append(o)
host.Objects = a
elif host.isDerivedFrom("App::DocumentObjectGroup"):
c = host.Group
for o in objectsList:
if not o in c:
c.append(o)
host.Group = c
def removeComponents(objectsList,host=None):
'''removeComponents(objectsList,[hostObject]): removes the given component or
the components from the given list from their parents. If a host object is
specified, this function will try adding the components as holes to the host
object instead.'''
if not isinstance(objectsList,list):
objectsList = [objectsList]
if host:
if Draft.getType(host) in ["Wall","Structure"]:
if hasattr(host,"Tool"):
if objectsList[0] == host.Tool:
host.Tool = None
if hasattr(host,"Axes"):
a = host.Axes
for o in objectsList[:]:
if o in a:
a.remove(o)
objectsList.remove(o)
s = host.Subtractions
for o in objectsList:
if not o in s:
s.append(o)
if Draft.getType(o) == "Window":
# fix for sketch-based windows
if o.Base:
if o.Base.Support:
if isinstance(o.Base.Support,tuple):
if o.Base.Support[0].Name == host.Name:
FreeCAD.Console.PrintMessage(translate("Arch","removing sketch support to avoid cross-referencing"))
o.Base.Support = None
elif o.Base.Support.Name == host.Name:
FreeCAD.Console.PrintMessage(translate("Arch","removing sketch support to avoid cross-referencing"))
o.Base.Support = None
elif o.Base.ExternalGeometry:
for i in range(len(o.Base.ExternalGeometry)):
if o.Base.ExternalGeometry[i][0].Name == host.Name:
o.Base.delExternal(i)
FreeCAD.Console.PrintMessage(translate("Arch","removing sketch support to avoid cross-referencing"))
break
host.Subtractions = s
else:
for o in objectsList:
if o.InList:
h = o.InList[0]
tp = Draft.getType(h)
if tp in ["Floor","Building","Site"]:
c = h.Components
if o in c:
c.remove(o)
h.Components = c
o.ViewObject.show()
elif tp in ["Wall","Structure"]:
a = h.Additions
s = h.Subtractions
if o in a:
a.remove(o)
h.Additions = a
o.ViewObject.show()
elif o in s:
s.remove(o)
h.Subtractions = s
o.ViewObject.show()
elif o == s.Base:
s.Base = None
o.ViewObject.show()
elif tp in ["SectionPlane"]:
a = h.Objects
if o in a:
a.remove(o)
h.Objects = a
def fixWindow(obj):
'''fixWindow(object): Fixes non-DAG problems in windows
by removing supports and external geometry from underlying sketches'''
if Draft.getType(obj) == "Window":
if obj.Base:
if hasattr(obj.Base,"Support"):
if obj.Base.Support:
if isinstance(o.Base.Support,tuple):
if obj.Base.Support[0]:
FreeCAD.Console.PrintMessage(translate("Arch","removing sketch support to avoid cross-referencing"))
obj.Base.Support = None
elif obj.Base.Support:
FreeCAD.Console.PrintMessage(translate("Arch","removing sketch support to avoid cross-referencing"))
obj.Base.Support = None
if hasattr(obj.Base,"ExternalGeometry"):
if obj.Base.ExternalGeometry:
for i in range(len(obj.Base.ExternalGeometry)):
obj.Base.delExternal(0)
FreeCAD.Console.PrintMessage(translate("Arch","removing sketch external references to avoid cross-referencing"))
def copyProperties(obj1,obj2):
'''copyProperties(obj1,obj2): Copies properties values from obj1 to obj2,
when that property exists in both objects'''
for prop in obj1.PropertiesList:
if prop in obj2.PropertiesList:
if not prop in ["Proxy","Shape"]:
setattr(obj2,prop,getattr(obj1,prop))
if obj1.ViewObject and obj2.ViewObject:
for prop in obj1.ViewObject.PropertiesList:
if prop in obj2.ViewObject.PropertiesList:
if not prop in ["Proxy","Shape"]:
setattr(obj2.ViewObject,prop,getattr(obj1.ViewObject,prop))
def splitMesh(obj,mark=True):
'''splitMesh(object,[mark]): splits the given mesh object into separated components.
If mark is False, nothing else is done. If True (default), non-manifold components
will be painted in red.'''
if not obj.isDerivedFrom("Mesh::Feature"): return []
basemesh = obj.Mesh
comps = basemesh.getSeparateComponents()
nlist = []
if comps:
basename = obj.Name
FreeCAD.ActiveDocument.removeObject(basename)
for c in comps:
newobj = FreeCAD.ActiveDocument.addObject("Mesh::Feature",basename)
newobj.Mesh = c
if mark and (not(c.isSolid()) or c.hasNonManifolds()):
newobj.ViewObject.ShapeColor = (1.0,0.0,0.0,1.0)
nlist.append(newobj)
return nlist
return [obj]
def makeFace(wires,method=2,cleanup=False):
'''makeFace(wires): makes a face from a list of wires, finding which ones are holes'''
#print "makeFace: start:", wires
import Part
if not isinstance(wires,list):
if len(wires.Vertexes) < 3:
raise
return Part.Face(wires)
elif len(wires) == 1:
#import Draft;Draft.printShape(wires[0])
if len(wires[0].Vertexes) < 3:
raise
return Part.Face(wires[0])
wires = wires[:]
#print "makeFace: inner wires found"
ext = None
max_length = 0
# cleaning up rubbish in wires
if cleanup:
for i in range(len(wires)):
wires[i] = DraftGeomUtils.removeInterVertices(wires[i])
#print "makeFace: garbage removed"
for w in wires:
# we assume that the exterior boundary is that one with
# the biggest bounding box
if w.BoundBox.DiagonalLength > max_length:
max_length = w.BoundBox.DiagonalLength
ext = w
#print "makeFace: exterior wire",ext
wires.remove(ext)
if method == 1:
# method 1: reverse inner wires
# all interior wires mark a hole and must reverse
# their orientation, otherwise Part.Face fails
for w in wires:
#print "makeFace: reversing",w
w.reverse()
# make sure that the exterior wires comes as first in the list
wires.insert(0, ext)
#print "makeFace: done sorting", wires
if wires:
return Part.Face(wires)
else:
# method 2: use the cut method
mf = Part.Face(ext)
#print "makeFace: external face:",mf
for w in wires:
f = Part.Face(w)
#print "makeFace: internal face:",f
mf = mf.cut(f)
#print "makeFace: final face:",mf.Faces
return mf.Faces[0]
def closeHole(shape):
'''closeHole(shape): closes a hole in an open shape'''
import DraftGeomUtils, Part
# creating an edges lookup table
lut = {}
for face in shape.Faces:
for edge in face.Edges:
hc = edge.hashCode()
if lut.has_key(hc):
lut[hc] = lut[hc] + 1
else:
lut[hc] = 1
# filter out the edges shared by more than one face
bound = []
for e in shape.Edges:
if lut[e.hashCode()] == 1:
bound.append(e)
bound = DraftGeomUtils.sortEdges(bound)
try:
nface = Part.Face(Part.Wire(bound))
shell = Part.makeShell(shape.Faces+[nface])
solid = Part.Solid(shell)
except:
raise
else:
return solid
def getCutVolume(cutplane,shapes):
"""getCutVolume(cutplane,shapes): returns a cut face and a cut volume
from the given shapes and the given cutting plane"""
import Part
if not isinstance(shapes,list):
shapes = [shapes]
# building boundbox
bb = shapes[0].BoundBox
for sh in shapes[1:]:
bb.add(sh.BoundBox)
bb.enlarge(1)
# building cutplane space
placement = None
um = vm = wm = 0
try:
if hasattr(cutplane,"Shape"):
p = cutplane.Shape.copy().Faces[0]
else:
p = cutplane.copy().Faces[0]
except:
FreeCAD.Console.PrintMessage(translate("Arch","Invalid cutplane"))
return None,None,None
ce = p.CenterOfMass
ax = p.normalAt(0,0)
u = p.Vertexes[1].Point.sub(p.Vertexes[0].Point).normalize()
v = u.cross(ax)
if not bb.isCutPlane(ce,ax):
FreeCAD.Console.PrintMessage(translate("Arch","No objects are cut by the plane"))
return None,None,None
else:
corners = [FreeCAD.Vector(bb.XMin,bb.YMin,bb.ZMin),
FreeCAD.Vector(bb.XMin,bb.YMax,bb.ZMin),
FreeCAD.Vector(bb.XMax,bb.YMin,bb.ZMin),
FreeCAD.Vector(bb.XMax,bb.YMax,bb.ZMin),
FreeCAD.Vector(bb.XMin,bb.YMin,bb.ZMax),
FreeCAD.Vector(bb.XMin,bb.YMax,bb.ZMax),
FreeCAD.Vector(bb.XMax,bb.YMin,bb.ZMax),
FreeCAD.Vector(bb.XMax,bb.YMax,bb.ZMax)]
for c in corners:
dv = c.sub(ce)
um1 = DraftVecUtils.project(dv,u).Length
um = max(um,um1)
vm1 = DraftVecUtils.project(dv,v).Length
vm = max(vm,vm1)
wm1 = DraftVecUtils.project(dv,ax).Length
wm = max(wm,wm1)
vu = DraftVecUtils.scaleTo(u,um)
vui = vu.negative()
vv = DraftVecUtils.scaleTo(v,vm)
vvi = vv.negative()
p1 = ce.add(vu.add(vvi))
p2 = ce.add(vu.add(vv))
p3 = ce.add(vui.add(vv))
p4 = ce.add(vui.add(vvi))
cutface = Part.makePolygon([p1,p2,p3,p4,p1])
cutface = Part.Face(cutface)
cutnormal = DraftVecUtils.scaleTo(ax,wm)
cutvolume = cutface.extrude(cutnormal)
cutnormal = cutnormal.negative()
invcutvolume = cutface.extrude(cutnormal)
return cutface,cutvolume,invcutvolume
def getShapeFromMesh(mesh,fast=True,tolerance=0.001,flat=False,cut=True):
import Part, MeshPart, DraftGeomUtils
if mesh.isSolid() and (mesh.countComponents() == 1) and fast:
# use the best method
faces = []
for f in mesh.Facets:
p=f.Points+[f.Points[0]]
pts = []
for pp in p:
pts.append(FreeCAD.Vector(pp[0],pp[1],pp[2]))
faces.append(Part.Face(Part.makePolygon(pts)))
shell = Part.makeShell(faces)
solid = Part.Solid(shell)
solid = solid.removeSplitter()
return solid
faces = []
segments = mesh.getPlanarSegments(tolerance)
#print len(segments)
for i in segments:
if len(i) > 0:
wires = MeshPart.wireFromSegment(mesh, i)
if wires:
if flat:
nwires = []
for w in wires:
nwires.append(DraftGeomUtils.flattenWire(w))
wires = nwires
try:
faces.append(makeFace(wires,method=int(cut)+1))
except:
return None
try:
se = Part.makeShell(faces)
se = se.removeSplitter()
if flat:
return se
except:
try:
cp = Part.makeCompound(faces)
except:
return None
else:
return cp
else:
try:
solid = Part.Solid(se)
except:
return se
else:
return solid
def projectToVector(shape,vector):
'''projectToVector(shape,vector): projects the given shape on the given
vector'''
projpoints = []
minl = 10000000000
maxl = -10000000000
for v in shape.Vertexes:
p = DraftVecUtils.project(v.Point,vector)
projpoints.append(p)
l = p.Length
if p.getAngle(vector) > 1:
l = -l
if l > maxl:
maxl = l
if l < minl:
minl = l
return DraftVecUtils.scaleTo(vector,maxl-minl)
def meshToShape(obj,mark=True,fast=True,tol=0.001,flat=False,cut=True):
'''meshToShape(object,[mark,fast,tol,flat,cut]): turns a mesh into a shape, joining coplanar facets. If
mark is True (default), non-solid objects will be marked in red. Fast uses a faster algorithm by
building a shell from the facets then removing splitter, tol is the tolerance used when converting
mesh segments to wires, flat will force the wires to be perfectly planar, to be sure they can be
turned into faces, but this might leave gaps in the final shell. If cut is true, holes in faces are
made by subtraction (default)'''
name = obj.Name
if "Mesh" in obj.PropertiesList:
faces = []
mesh = obj.Mesh
plac = obj.Placement
solid = getShapeFromMesh(mesh,fast,tol,flat,cut)
if solid:
if solid.isClosed() and solid.isValid():
FreeCAD.ActiveDocument.removeObject(name)
newobj = FreeCAD.ActiveDocument.addObject("Part::Feature",name)
newobj.Shape = solid
newobj.Placement = plac
if (not solid.isClosed()) or (not solid.isValid()):
if mark:
newobj.ViewObject.ShapeColor = (1.0,0.0,0.0,1.0)
return newobj
return None
def removeShape(objs,mark=True):
'''takes an arch object (wall or structure) built on a cubic shape, and removes
the inner shape, keeping its length, width and height as parameters.'''
import DraftGeomUtils
if not isinstance(objs,list):
objs = [objs]
for obj in objs:
if DraftGeomUtils.isCubic(obj.Shape):
dims = DraftGeomUtils.getCubicDimensions(obj.Shape)
if dims:
name = obj.Name
tp = Draft.getType(obj)
print tp
if tp == "Structure":
FreeCAD.ActiveDocument.removeObject(name)
import ArchStructure
str = ArchStructure.makeStructure(length=dims[1],width=dims[2],height=dims[3],name=name)
str.Placement = dims[0]
elif tp == "Wall":
FreeCAD.ActiveDocument.removeObject(name)
import ArchWall
length = dims[1]
width = dims[2]
v1 = Vector(length/2,0,0)
v2 = v1.negative()
v1 = dims[0].multVec(v1)
v2 = dims[0].multVec(v2)
line = Draft.makeLine(v1,v2)
wal = ArchWall.makeWall(line,width=width,height=dims[3],name=name)
else:
if mark:
obj.ViewObject.ShapeColor = (1.0,0.0,0.0,1.0)
def mergeCells(objectslist):
'''mergeCells(objectslist): merges the objects in the given list
into one. All objects must be of the same type and based on the Cell
object (cells, floors, buildings, or sites).'''
if not objectslist:
return None
if not isinstance(objectslist,list):
return None
if len(objectslist) < 2:
return None
typ = Draft.getType(objectslist[0])
if not(typ in ["Cell","Floor","Building","Site"]):
return None
for o in objectslist:
if Draft.getType(o) != typ:
return None
base = objectslist.pop(0)
for o in objectslist:
l = base.Components
for c in o.Components:
if not c in l:
l.append(c)
base.Components = l
FreeCAD.ActiveDocument.removeObject(o.Name)
FreeCAD.ActiveDocument.recompute()
return base
def download(url,force=False):
'''downloads a file from the given URL and saves it in the
user directory. Returns the path to the saved file'''
import urllib2, os
name = url.split('/')[-1]
filepath = os.path.join(FreeCAD.ConfigGet("UserAppData"),name)
if os.path.exists(filepath) and not(force):
return filepath
try:
FreeCAD.Console.PrintMessage("downloading "+url+" ...\n")
response = urllib2.urlopen(url)
s = response.read()
f = open(filepath,'wb')
f.write(s)
f.close()
except:
return None
else:
return filepath
def check(objectslist,includehidden=False):
"""check(objectslist,includehidden=False): checks if the given objects contain only solids"""
objs = Draft.getGroupContents(objectslist)
if not includehidden:
objs = Draft.removeHidden(objs)
bad = []
for o in objs:
if not o.isDerivedFrom("Part::Feature"):
bad.append([o,"is not a Part-based object"])
else:
s = o.Shape
if (not s.isClosed()) and (not (Draft.getType(o) == "Axis")):
bad.append([o,translate("Arch","is not closed")])
elif not s.isValid():
bad.append([o,translate("Arch","is not valid")])
elif (not s.Solids) and (not (Draft.getType(o) == "Axis")):
bad.append([o,translate("Arch","doesn't contain any solid")])
else:
f = 0
for sol in s.Solids:
f += len(sol.Faces)
if not sol.isClosed():
bad.append([o,translate("Arch","contains a non-closed solid")])
if len(s.Faces) != f:
bad.append([o,translate("Arch","contains faces that are not part of any solid")])
return bad
def addFixture(fixture,baseobject):
'''addFixture(fixture,baseobject): adds the given object as a
fixture to the given base object'''
if hasattr(baseobject,"Fixtures"):
f = baseobject.Fixtures
f.append(fixture)
baseobject.Fixtures = f
if baseobject.ViewObject.DisplayMode != "Detailed":
fixture.ViewObject.hide()
else:
FreeCAD.Console.PrintMessage(translate("Arch","This object has no support for fixtures"))
def getTuples(data,scale=1,placement=None):
"""getTuples(data,[scale,placement]): returns a tuple or a list of tuples from a vector
or from the vertices of a shape. Scale can indicate a scale factor"""
import Part
if isinstance(data,FreeCAD.Vector):
if placement:
data = placement.multVec(data)
return (data.x*scale,data.y*scale,data.z*scale)
elif isinstance(data,Part.Shape):
t = []
if len(data.Wires) == 1:
import Part,DraftGeomUtils
data = Part.Wire(DraftGeomUtils.sortEdges(data.Wires[0].Edges))
verts = data.Vertexes
#verts.reverse()
for v in verts:
pt = v.Point
if placement:
pt = placement.multVec(pt)
t.append((pt.x*scale,pt.y*scale,pt.z*scale))
t.append(t[0]) # for IFC verts lists must be closed
else:
print "Arch.getTuples(): Wrong profile data"
return t
def getExtrusionData(obj,scale=1):
"""getExtrusionData(obj,[scale]): returns a closed path (a list of tuples) and a tuple expressing an extrusion
vector, or None, if a base loop and an extrusion direction cannot be extracted. Scale can indicate a scale factor."""
if hasattr(obj,"Additions"):
if obj.Additions:
# provisorily treat objs with additions as breps
return None
if hasattr(obj,"Subtractions"):
if obj.Subtractions:
# provisorily treat objs with subtractions as breps
return None
if hasattr(obj,"Proxy"):
if hasattr(obj.Proxy,"BaseProfile") and hasattr(obj.Proxy,"ExtrusionVector"):
pl = FreeCAD.Placement(obj.Placement)
r = FreeCAD.Rotation(obj.Placement.Rotation)
if pl.isNull():
pl = r = None
return getTuples(obj.Proxy.BaseProfile,scale,pl), getTuples(obj.Proxy.ExtrusionVector,scale,r)
return None
def getBrepFacesData(obj,scale=1):
"""getBrepFacesData(obj,[scale]): returns a list(0) of lists(1) of lists(2) of lists(3),
list(3) being a list of vertices defining a loop, list(2) describing a face from one or
more loops, list(1) being the whole solid made of several faces, list(0) being the list
of solids inside the object. Scale can indicate a scaling factor"""
if hasattr(obj,"Shape"):
if obj.Shape:
if obj.Shape.isValid():
if not obj.Shape.isNull():
sols = []
for sol in obj.Shape.Solids:
s = []
for face in obj.Shape.Faces:
f = []
for wire in face.Wires:
f.append(getTuples(wire,scale))
s.append(f)
sols.append(s)
return sols
return None
def getHost(obj,strict=True):
"""getHost(obj,[strict]): returns the host of the current object. If strict is true (default),
the host can only be an object of a higher level than the given one, or in other words, if a wall
is contained in another wall which is part of a floor, the floor is returned instead of the parent wall"""
import Draft
t = Draft.getType(obj)
for par in obj.InList:
if par.isDerivedFrom("Part::Feature"):
if strict:
if Draft.getType(par) != t:
return par
else:
return getHost(par,strict)
else:
return par
return None
def pruneIncluded(objectslist):
"""pruneIncluded(objectslist): removes from a list of Arch objects, those that are subcomponents of
another shape-based object, leaving only the top-level shapes."""
import Draft
newlist = []
for obj in objectslist:
toplevel = True
if obj.isDerivedFrom("Part::Feature"):
if not (Draft.getType(obj) in ["Window","Clone"]):
for parent in obj.InList:
if parent.isDerivedFrom("Part::Feature"):
toplevel = False
if toplevel:
newlist.append(obj)
return newlist
# command definitions ###############################################
class _CommandAdd:
"the Arch Add command definition"
def GetResources(self):
return {'Pixmap' : 'Arch_Add',
'MenuText': QtCore.QT_TRANSLATE_NOOP("Arch_Add","Add component"),
'ToolTip': QtCore.QT_TRANSLATE_NOOP("Arch_Add","Adds the selected components to the active object")}
def IsActive(self):
if len(FreeCADGui.Selection.getSelection()) > 1:
return True
else:
return False
def Activated(self):
sel = FreeCADGui.Selection.getSelection()
if Draft.getType(sel[-1]) == "Space":
FreeCAD.ActiveDocument.openTransaction(str(translate("Arch","Add space boundary")))
FreeCADGui.doCommand("import Arch")
FreeCADGui.doCommand("Arch.addSpaceBoundaries( FreeCAD.ActiveDocument."+sel[-1].Name+", FreeCADGui.Selection.getSelectionEx() )")
else:
FreeCAD.ActiveDocument.openTransaction(str(translate("Arch","Grouping")))
if not mergeCells(sel):
host = sel.pop()
ss = "["
for o in sel:
if len(ss) > 1:
ss += ","
ss += "FreeCAD.ActiveDocument."+o.Name
ss += "]"
FreeCADGui.doCommand("import Arch")
FreeCADGui.doCommand("Arch.addComponents("+ss+",FreeCAD.ActiveDocument."+host.Name+")")
FreeCAD.ActiveDocument.commitTransaction()
FreeCAD.ActiveDocument.recompute()
class _CommandRemove:
"the Arch Add command definition"
def GetResources(self):
return {'Pixmap' : 'Arch_Remove',
'MenuText': QtCore.QT_TRANSLATE_NOOP("Arch_Remove","Remove component"),
'ToolTip': QtCore.QT_TRANSLATE_NOOP("Arch_Remove","Remove the selected components from their parents, or create a hole in a component")}
def IsActive(self):
if FreeCADGui.Selection.getSelection():
return True
else:
return False
def Activated(self):
sel = FreeCADGui.Selection.getSelection()
if Draft.getType(sel[-1]) == "Space":
FreeCAD.ActiveDocument.openTransaction(str(translate("Arch","Remove space boundary")))
FreeCADGui.doCommand("import Arch")
FreeCADGui.doCommand("Arch.removeSpaceBoundaries( FreeCAD.ActiveDocument."+sel[-1].Name+", FreeCADGui.Selection.getSelection() )")
else:
FreeCAD.ActiveDocument.openTransaction(str(translate("Arch","Ungrouping")))
if (Draft.getType(sel[-1]) in ["Wall","Structure"]) and (len(sel) > 1):
host = sel.pop()
ss = "["
for o in sel:
if len(ss) > 1:
ss += ","
ss += "FreeCAD.ActiveDocument."+o.Name
ss += "]"
FreeCADGui.doCommand("import Arch")
FreeCADGui.doCommand("Arch.removeComponents("+ss+",FreeCAD.ActiveDocument."+host.Name+")")
else:
FreeCADGui.doCommand("import Arch")
FreeCADGui.doCommand("Arch.removeComponents(Arch.ActiveDocument."+sel[-1].Name+")")
FreeCAD.ActiveDocument.commitTransaction()
FreeCAD.ActiveDocument.recompute()
class _CommandSplitMesh:
"the Arch SplitMesh command definition"
def GetResources(self):
return {'Pixmap' : 'Arch_SplitMesh',
'MenuText': QtCore.QT_TRANSLATE_NOOP("Arch_SplitMesh","Split Mesh"),
'ToolTip': QtCore.QT_TRANSLATE_NOOP("Arch_SplitMesh","Splits selected meshes into independent components")}
def IsActive(self):
if len(FreeCADGui.Selection.getSelection()):
return True
else:
return False
def Activated(self):
if FreeCADGui.Selection.getSelection():
sel = FreeCADGui.Selection.getSelection()
FreeCAD.ActiveDocument.openTransaction(str(translate("Arch","Split Mesh")))
for obj in sel:
n = obj.Name
nobjs = splitMesh(obj)
if len(nobjs) > 1:
g = FreeCAD.ActiveDocument.addObject("App::DocumentObjectGroup",n)
for o in nobjs:
g.addObject(o)
FreeCAD.ActiveDocument.commitTransaction()
FreeCAD.ActiveDocument.recompute()
class _CommandMeshToShape:
"the Arch MeshToShape command definition"
def GetResources(self):
return {'Pixmap' : 'Arch_MeshToShape',
'MenuText': QtCore.QT_TRANSLATE_NOOP("Arch_MeshToShape","Mesh to Shape"),
'ToolTip': QtCore.QT_TRANSLATE_NOOP("Arch_MeshToShape","Turns selected meshes into Part Shape objects")}
def IsActive(self):
if FreeCADGui.Selection.getSelection():
return True
else:
return False
def Activated(self):
if FreeCADGui.Selection.getSelection():
f = FreeCADGui.Selection.getSelection()[0]
g = None
if f.isDerivedFrom("App::DocumentObjectGroup"):
g = f
FreeCADGui.Selection.clearSelection()
for o in f.OutList:
FreeCADGui.Selection.addSelection(o)
else:
if f.InList:
if f.InList[0].isDerivedFrom("App::DocumentObjectGroup"):
g = f.InList[0]
p = FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Mod/Arch")
fast = p.GetBool("ConversionFast",True)
tol = p.GetFloat("ConversionTolerance",0.001)
flat = p.GetBool("ConversionFlat",False)
cut = p.GetBool("ConversionCut",False)
FreeCAD.ActiveDocument.openTransaction(str(translate("Arch","Mesh to Shape")))
for obj in FreeCADGui.Selection.getSelection():
newobj = meshToShape(obj,True,fast,tol,flat,cut)
if g and newobj:
g.addObject(newobj)
FreeCAD.ActiveDocument.commitTransaction()
class _CommandSelectNonSolidMeshes:
"the Arch SelectNonSolidMeshes command definition"
def GetResources(self):
return {'Pixmap': 'Arch_SelectNonManifold.svg',
'MenuText': QtCore.QT_TRANSLATE_NOOP("Arch_SelectNonSolidMeshes","Select non-manifold meshes"),
'ToolTip': QtCore.QT_TRANSLATE_NOOP("Arch_SelectNonSolidMeshes","Selects all non-manifold meshes from the document or from the selected groups")}
def Activated(self):
msel = []
if FreeCADGui.Selection.getSelection():
for o in FreeCADGui.Selection.getSelection():
if o.isDerivedFrom("App::DocumentObjectGroup"):
msel.extend(o.OutList)
if not msel:
msel = FreeCAD.ActiveDocument.Objects
sel = []
for o in msel:
if o.isDerivedFrom("Mesh::Feature"):
if (not o.Mesh.isSolid()) or o.Mesh.hasNonManifolds():
sel.append(o)
if sel:
FreeCADGui.Selection.clearSelection()
for o in sel:
FreeCADGui.Selection.addSelection(o)
class _CommandRemoveShape:
"the Arch RemoveShape command definition"
def GetResources(self):
return {'Pixmap' : 'Arch_RemoveShape',
'MenuText': QtCore.QT_TRANSLATE_NOOP("Arch_RemoveShape","Remove Shape from Arch"),
'ToolTip': QtCore.QT_TRANSLATE_NOOP("Arch_RemoveShape","Removes cubic shapes from Arch components")}
def IsActive(self):
if FreeCADGui.Selection.getSelection():
return True
else:
return False
def Activated(self):
sel = FreeCADGui.Selection.getSelection()
removeShape(sel)
class _CommandCloseHoles:
"the Arch CloseHoles command definition"
def GetResources(self):
return {'Pixmap' : 'Arch_CloseHoles',
'MenuText': QtCore.QT_TRANSLATE_NOOP("Arch_CloseHoles","Close holes"),
'ToolTip': QtCore.QT_TRANSLATE_NOOP("Arch_CloseHoles","Closes holes in open shapes, turning them solids")}
def IsActive(self):
if FreeCADGui.Selection.getSelection():
return True
else:
return False
def Activated(self):
for o in FreeCADGui.Selection.getSelection():
s = closeHole(o.Shape)
if s:
o.Shape = s
class _CommandCheck:
"the Arch Check command definition"
def GetResources(self):
return {'Pixmap' : 'Arch_Check',
'MenuText': QtCore.QT_TRANSLATE_NOOP("Arch_Check","Check"),
'ToolTip': QtCore.QT_TRANSLATE_NOOP("Arch_Check","Checks the selected objects for problems")}
def IsActive(self):
if FreeCADGui.Selection.getSelection():
return True
else:
return False
def Activated(self):
result = check(FreeCADGui.Selection.getSelection())
if not result:
FreeCAD.Console.PrintMessage(str(translate("Arch","All good! no problems found")))
else:
FreeCADGui.Selection.clearSelection()
for i in result:
FreeCAD.Console.PrintWarning("Object "+i[0].Name+" ("+i[0].Label+") "+i[1])
FreeCADGui.Selection.addSelection(i[0])
class _CommandIfcExplorer:
"the Arch Ifc Explorer command definition"
def GetResources(self):
return {'Pixmap' : 'IFC',
'MenuText': QtCore.QT_TRANSLATE_NOOP("Arch_IfcExplorer","Ifc Explorer"),
'ToolTip': QtCore.QT_TRANSLATE_NOOP("Arch_Check","Explore the contents of an Ifc file")}
def Activated(self):
if hasattr(self,"dialog"):
del self.dialog
import importIFC
self.dialog = importIFC.explore()
class _CommandFixture:
# OBSOLETE - To be removed
"the Arch Fixture command definition"
def GetResources(self):
return {'Pixmap' : 'Arch_Fixture',
'MenuText': QtCore.QT_TRANSLATE_NOOP("Arch_Fixture","Add fixture"),
'ToolTip': QtCore.QT_TRANSLATE_NOOP("Arch_Fixture","Adds the selected components as fixtures to the active object")}
def IsActive(self):
if len(FreeCADGui.Selection.getSelection()) > 1:
return True
else:
return False
def Activated(self):
sel = FreeCADGui.Selection.getSelection()
FreeCAD.ActiveDocument.openTransaction(str(translate("Arch","Grouping")))
host = sel.pop()
for o in sel:
FreeCADGui.doCommand("import Arch")
FreeCADGui.doCommand("Arch.addFixture(FreeCAD.ActiveDocument."+o.Name+",FreeCAD.ActiveDocument."+host.Name+")")
FreeCAD.ActiveDocument.commitTransaction()
FreeCAD.ActiveDocument.recompute()
if FreeCAD.GuiUp:
FreeCADGui.addCommand('Arch_Add',_CommandAdd())
FreeCADGui.addCommand('Arch_Remove',_CommandRemove())
FreeCADGui.addCommand('Arch_SplitMesh',_CommandSplitMesh())
FreeCADGui.addCommand('Arch_MeshToShape',_CommandMeshToShape())
FreeCADGui.addCommand('Arch_SelectNonSolidMeshes',_CommandSelectNonSolidMeshes())
FreeCADGui.addCommand('Arch_RemoveShape',_CommandRemoveShape())
FreeCADGui.addCommand('Arch_CloseHoles',_CommandCloseHoles())
FreeCADGui.addCommand('Arch_Check',_CommandCheck())
FreeCADGui.addCommand('Arch_IfcExplorer',_CommandIfcExplorer())
#FreeCADGui.addCommand('Arch_Fixture',_CommandFixture())