#*************************************************************************** #* Copyright (c) 2011 Yorik van Havre * #* * #* 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 math import FreeCAD import ArchCommands import Draft import Part from FreeCAD import Vector from draftutils import params if FreeCAD.GuiUp: import FreeCADGui, re from PySide import QtCore, QtGui from draftutils.translate import translate from pivy import coin from PySide.QtCore import QT_TRANSLATE_NOOP else: # \cond def translate(ctxt,txt): return txt def QT_TRANSLATE_NOOP(ctxt,txt): return txt # \endcond __title__ = "FreeCAD Axis System" __author__ = "Yorik van Havre" __url__ = "https://www.freecad.org" ## @package ArchAxis # \ingroup ARCH # \brief Axis for the Arch workbench # # This module provides tools to build axis # An axis is a collection of planar axes with a number/tag class _Axis: "The Axis object" def __init__(self,obj): obj.Proxy = self self.setProperties(obj) def setProperties(self,obj): pl = obj.PropertiesList if not "Distances" in pl: obj.addProperty("App::PropertyFloatList","Distances","Axis", QT_TRANSLATE_NOOP("App::Property","The intervals between axes")) if not "Angles" in pl: obj.addProperty("App::PropertyFloatList","Angles","Axis", QT_TRANSLATE_NOOP("App::Property","The angles of each axis")) if not "Labels" in pl: obj.addProperty("App::PropertyStringList","Labels","Axis", QT_TRANSLATE_NOOP("App::Property","The label of each axis")) if not "CustomNumber" in pl: obj.addProperty("App::PropertyString","CustomNumber","Axis", QT_TRANSLATE_NOOP("App::Property","An optional custom bubble number")) if not "Length" in pl: obj.addProperty("App::PropertyLength","Length","Axis", QT_TRANSLATE_NOOP("App::Property","The length of the axes")) obj.Length=3000 if not "Placement" in pl: obj.addProperty("App::PropertyPlacement","Placement","Base","") if not "Shape" in pl: obj.addProperty("Part::PropertyPartShape","Shape","Base","") if not "Limit" in pl: obj.addProperty("App::PropertyLength","Limit","Axis", QT_TRANSLATE_NOOP("App::Property","If not zero, the axes are not represented as one full line but as two lines of the given length")) obj.Limit=0 self.Type = "Axis" def onDocumentRestored(self,obj): self.setProperties(obj) def execute(self,obj): pl = obj.Placement geoms = [] dist = 0 distances = [0] angles = [0] if hasattr(obj, "Distances"): distances = obj.Distances if hasattr(obj, "Angles"): angles = obj.Angles if distances and obj.Length.Value: if angles and len(distances) == len(angles): for i in range(len(distances)): dist += distances[i] ang = math.radians(angles[i]) ln = obj.Length.Value ln = 100 * ln if abs(math.cos(ang)) < 0.01 else ln / math.cos(ang) unitvec = Vector(math.sin(ang), math.cos(ang), 0) p1 = Vector(dist, 0, 0) p2 = p1 + unitvec * ln if hasattr(obj,"Limit") and obj.Limit.Value: p3 = unitvec * obj.Limit.Value p4 = unitvec * -obj.Limit.Value geoms.append(Part.LineSegment(p1, p1 + p3).toShape()) geoms.append(Part.LineSegment(p2, p2 + p4).toShape()) else: geoms.append(Part.LineSegment(p1, p2).toShape()) if geoms: sh = Part.Compound(geoms) obj.Shape = sh obj.Placement = pl def onChanged(self,obj,prop): if prop in ["Angles","Distances","Placement"]: obj.touch() def dumps(self): return None def loads(self,state): return None def getPoints(self,obj): "returns the gridpoints of linked axes" pts = [] for e in obj.Shape.Edges: pts.append(e.Vertexes[0].Point) return pts def getAxisData(self,obj): data = [] num = 0 for e in obj.Shape.Edges: axdata = [] axdata.append(e.Vertexes[0].Point) axdata.append(e.Vertexes[-1].Point) if obj.ViewObject: axdata.append(obj.ViewObject.Proxy.getNumber(obj.ViewObject,num)) else: axdata.append(str(num)) data.append(axdata) num += 1 return data class _ViewProviderAxis: "A View Provider for the Axis object" def __init__(self,vobj): vobj.Proxy = self self.setProperties(vobj) def setProperties(self,vobj): ts = params.get_param("textheight") * params.get_param("DefaultAnnoScaleMultiplier") pl = vobj.PropertiesList if not "BubbleSize" in pl: vobj.addProperty("App::PropertyLength","BubbleSize","Axis", QT_TRANSLATE_NOOP("App::Property","The size of the axis bubbles")) vobj.BubbleSize = ts * 1.42 if not "NumberingStyle" in pl: vobj.addProperty("App::PropertyEnumeration","NumberingStyle","Axis", QT_TRANSLATE_NOOP("App::Property","The numbering style")) vobj.NumberingStyle = ["1,2,3","01,02,03","001,002,003","A,B,C","a,b,c","I,II,III","L0,L1,L2"] vobj.NumberingStyle = "1,2,3" if not "DrawStyle" in pl: vobj.addProperty("App::PropertyEnumeration","DrawStyle","Axis",QT_TRANSLATE_NOOP("App::Property","The type of line to draw this axis")) vobj.DrawStyle = ["Solid","Dashed","Dotted","Dashdot"] vobj.DrawStyle = "Dashdot" if not "BubblePosition" in pl: vobj.addProperty("App::PropertyEnumeration","BubblePosition","Axis",QT_TRANSLATE_NOOP("App::Property","Where to add bubbles to this axis: Start, end, both or none")) vobj.BubblePosition = ["Start","End","Both","None","Arrow left","Arrow right","Bar left","Bar right"] if not "LineWidth" in pl: vobj.addProperty("App::PropertyFloat","LineWidth","Axis",QT_TRANSLATE_NOOP("App::Property","The line width to draw this axis")) vobj.LineWidth = 1 if not "LineColor" in pl: vobj.addProperty("App::PropertyColor","LineColor","Axis",QT_TRANSLATE_NOOP("App::Property","The color of this axis")) vobj.LineColor = ArchCommands.getDefaultColor("Helpers") if not "StartNumber" in pl: vobj.addProperty("App::PropertyInteger","StartNumber","Axis",QT_TRANSLATE_NOOP("App::Property","The number of the first axis")) vobj.StartNumber = 1 if not "FontName" in pl: vobj.addProperty("App::PropertyFont","FontName","Axis",QT_TRANSLATE_NOOP("App::Property","The font to use for texts")) vobj.FontName = params.get_param("textfont") if not "FontSize" in pl: vobj.addProperty("App::PropertyLength","FontSize","Axis",QT_TRANSLATE_NOOP("App::Property","The font size")) vobj.FontSize = ts if not "ShowLabel" in pl: vobj.addProperty("App::PropertyBool","ShowLabel","Axis",QT_TRANSLATE_NOOP("App::Property","If true, show the labels")) if not "LabelOffset" in pl: vobj.addProperty("App::PropertyPlacement","LabelOffset","Axis",QT_TRANSLATE_NOOP("App::Property","A transformation to apply to each label")) def onDocumentRestored(self,vobj): self.setProperties(vobj) def getIcon(self): import Arch_rc return ":/icons/Arch_Axis_Tree.svg" def claimChildren(self): return [] def attach(self, vobj): self.Object = vobj.Object self.bubbles = None self.bubbletexts = [] self.bubbledata = [] sep = coin.SoSeparator() self.mat = coin.SoMaterial() self.linestyle = coin.SoDrawStyle() self.linecoords = coin.SoCoordinate3() self.lineset = coin.SoType.fromName("SoBrepEdgeSet").createInstance() self.bubbleset = coin.SoSeparator() self.labelset = coin.SoSeparator() sep.addChild(self.mat) sep.addChild(self.linestyle) sep.addChild(self.linecoords) sep.addChild(self.lineset) sep.addChild(self.bubbleset) sep.addChild(self.labelset) vobj.addDisplayMode(sep,"Default") self.onChanged(vobj,"BubbleSize") self.onChanged(vobj,"ShowLabel") self.onChanged(vobj,"LineColor") self.onChanged(vobj,"LineWidth") self.onChanged(vobj,"DrawStyle") def getDisplayModes(self,vobj): return ["Default"] def getDefaultDisplayMode(self): return "Default" def setDisplayMode(self,mode): return mode def updateData(self,obj,prop): if prop == "Shape": if obj.Shape: if obj.Shape.Edges: verts = [] vset = [] i = 0 for e in obj.Shape.Edges: for v in e.Vertexes: verts.append(tuple(obj.Placement.inverse().multVec(v.Point))) vset.append(i) i += 1 vset.append(-1) self.linecoords.point.setValues(verts) self.lineset.coordIndex.setValues(0,len(vset),vset) self.lineset.coordIndex.setNum(len(vset)) self.onChanged(obj.ViewObject,"BubbleSize") self.onChanged(obj.ViewObject,"ShowLabel") def onChanged(self, vobj, prop): if prop == "LineColor": if hasattr(vobj,"LineColor"): l = vobj.LineColor self.mat.diffuseColor.setValue([l[0],l[1],l[2]]) elif prop == "DrawStyle": if hasattr(vobj,"DrawStyle"): if vobj.DrawStyle == "Solid": self.linestyle.linePattern = 0xffff elif vobj.DrawStyle == "Dashed": self.linestyle.linePattern = 0xf00f elif vobj.DrawStyle == "Dotted": self.linestyle.linePattern = 0x0f0f else: self.linestyle.linePattern = 0xff88 elif prop == "LineWidth": if hasattr(vobj,"LineWidth"): self.linestyle.lineWidth = vobj.LineWidth elif prop in ["BubbleSize","BubblePosition","FontName","FontSize"]: if hasattr(self,"bubbleset"): if self.bubbles: self.bubbleset.removeChild(self.bubbles) self.bubbles = None if vobj.Object.Shape: if vobj.Object.Shape.Edges: self.bubbles = coin.SoSeparator() self.bubblestyle = coin.SoDrawStyle() self.bubblestyle.linePattern = 0xffff self.bubbles.addChild(self.bubblestyle) self.bubbletexts = [] self.bubbledata = [] pos = ["Start"] if hasattr(vobj,"BubblePosition"): if vobj.BubblePosition in ["Both","Arrow left","Arrow right","Bar left","Bar right"]: pos = ["Start","End"] elif vobj.BubblePosition == "None": pos = [] else: pos = [vobj.BubblePosition] e = len(vobj.Object.Shape.Edges) if getattr(vobj.Object,"Limit",0): e //= 2 n = len(getattr(vobj.Object,"Distances",[])) for i in range(min(e,n)): for p in pos: if getattr(vobj.Object,"Limit",0): verts = [vobj.Object.Placement.inverse().multVec(vobj.Object.Shape.Edges[i*2].Vertexes[0].Point), vobj.Object.Placement.inverse().multVec(vobj.Object.Shape.Edges[i*2+1].Vertexes[0].Point)] else: verts = [vobj.Object.Placement.inverse().multVec(v.Point) for v in vobj.Object.Shape.Edges[i].Vertexes] arrow = None if p == "Start": p1 = verts[0] p2 = verts[1] if vobj.BubblePosition.endswith("left"): arrow = True elif vobj.BubblePosition.endswith("right"): arrow = False else: p1 = verts[1] p2 = verts[0] if vobj.BubblePosition.endswith("left"): arrow = False elif vobj.BubblePosition.endswith("right"): arrow = True dv = p2.sub(p1) dv.normalize() if hasattr(vobj.BubbleSize,"Value"): rad = vobj.BubbleSize.Value/2 else: rad = vobj.BubbleSize/2 center = p2.add(Vector(dv).multiply(rad)) normal = vobj.Object.Placement.Rotation.multVec(Vector(0,0,1)) chord = dv.cross(normal) if arrow: p3 = p2.add(Vector(chord).multiply(rad/2).negative()) if vobj.BubblePosition.startswith("Arrow"): p4 = p3.add(Vector(dv).multiply(rad*2).negative()) p5 = p2.add(Vector(dv).multiply(rad).negative()).add(Vector(chord).multiply(rad*1.5).negative()) pts = [tuple(p3),tuple(p5),tuple(p4),tuple(p3)] center = p5.add(Vector(chord).multiply(rad*2.5)) else: p4 = p3.add(Vector(dv).multiply(rad/2).negative()) p5 = p4.add(Vector(chord).multiply(rad*1.5).negative()) p6 = p5.add(Vector(dv).multiply(rad/2)) pts = [tuple(p3),tuple(p6),tuple(p5),tuple(p4),tuple(p3)] center = p5.add(Vector(chord).multiply(rad*3)) coords = coin.SoCoordinate3() coords.point.setValues(0,len(pts),pts) line = coin.SoFaceSet() line.numVertices.setValue(-1) cir = Part.makePolygon(pts) cir.Placement = vobj.Object.Placement self.bubbledata.append(cir) elif arrow == False: p3 = p2.add(Vector(chord).multiply(rad/2)) if vobj.BubblePosition.startswith("Arrow"): p4 = p3.add(Vector(dv).multiply(rad*2).negative()) p5 = p2.add(Vector(dv).multiply(rad).negative()).add(Vector(chord).multiply(rad*1.5)) pts = [tuple(p3),tuple(p4),tuple(p5),tuple(p3)] center = p5.add(Vector(chord).multiply(rad*2.5).negative()) else: p4 = p3.add(Vector(dv).multiply(rad/2).negative()) p5 = p4.add(Vector(chord).multiply(rad*1.5)) p6 = p5.add(Vector(dv).multiply(rad/2)) pts = [tuple(p3),tuple(p4),tuple(p5),tuple(p6),tuple(p3)] center = p5.add(Vector(chord).multiply(rad*3).negative()) coords = coin.SoCoordinate3() coords.point.setValues(0,len(pts),pts) line = coin.SoFaceSet() line.numVertices.setValue(-1) cir = Part.makePolygon(pts) cir.Placement = vobj.Object.Placement self.bubbledata.append(cir) else: cir = Part.makeCircle(rad,center) buf = cir.writeInventor() try: cin = coin.SoInput() cin.setBuffer(buf) cob = coin.SoDB.readAll(cin) except Exception: # workaround for pivy SoInput.setBuffer() bug buf = buf.replace("\n","") pts = re.findall(r"point \[(.*?)\]",buf)[0] pts = pts.split(",") pc = [] for point in pts: v = point.strip().split() pc.append([float(v[0]),float(v[1]),float(v[2])]) coords = coin.SoCoordinate3() coords.point.setValues(0,len(pc),pc) line = coin.SoLineSet() line.numVertices.setValue(-1) else: coords = cob.getChild(1).getChild(0).getChild(2) line = cob.getChild(1).getChild(0).getChild(3) cir.Placement = vobj.Object.Placement self.bubbledata.append(cir) self.bubbles.addChild(coords) self.bubbles.addChild(line) st = coin.SoSeparator() tr = coin.SoTransform() fs = rad*1.5 if hasattr(vobj,"FontSize"): fs = vobj.FontSize.Value txpos = FreeCAD.Vector(center.x,center.y-fs/2.5,center.z) tr.translation.setValue(tuple(txpos)) fo = coin.SoFont() fn = params.get_param("textfont") if hasattr(vobj,"FontName"): if vobj.FontName: try: fn = str(vobj.FontName) except Exception: pass fo.name = fn fo.size = fs tx = coin.SoAsciiText() tx.justification = coin.SoText2.CENTER self.bubbletexts.append((tx,vobj.Object.Placement.multVec(center))) st.addChild(tr) st.addChild(fo) st.addChild(tx) self.bubbles.addChild(st) self.bubbleset.addChild(self.bubbles) self.onChanged(vobj,"NumberingStyle") if prop in ["FontName","FontSize"]: self.onChanged(vobj,"ShowLabel") elif prop in ["NumberingStyle","StartNumber"]: if hasattr(self,"bubbletexts"): num = 0 if hasattr(vobj,"StartNumber"): if vobj.StartNumber > 1: num = vobj.StartNumber-1 alt = False for t in self.bubbletexts: t[0].string = self.getNumber(vobj,num) num += 1 if hasattr(vobj,"BubblePosition"): if vobj.BubblePosition in ["Both","Arrow left","Arrow right","Bar left","Bar right"]: if not alt: num -= 1 alt = not alt elif prop in ["ShowLabel", "LabelOffset"]: if hasattr(self,"labels"): if self.labels: self.labelset.removeChild(self.labels) self.labels = None if hasattr(vobj,"ShowLabel") and hasattr(vobj.Object,"Labels"): if vobj.ShowLabel: self.labels = coin.SoSeparator() if hasattr(vobj.Object,"Limit") and vobj.Object.Limit.Value: n = len(vobj.Object.Shape.Edges)/2 else: n = len(vobj.Object.Shape.Edges) for i in range(n): if len(vobj.Object.Labels) > i: if vobj.Object.Labels[i]: vert = vobj.Object.Shape.Edges[i].Vertexes[0].Point if hasattr(vobj,"LabelOffset"): pl = FreeCAD.Placement(vobj.LabelOffset) pl.Base = vert.add(pl.Base) st = coin.SoSeparator() tr = coin.SoTransform() fo = coin.SoFont() tx = coin.SoAsciiText() tx.justification = coin.SoText2.LEFT t = vobj.Object.Labels[i] tx.string.setValue(t) if hasattr(vobj,"FontSize"): fs = vobj.FontSize.Value elif hasattr(vobj.BubbleSize,"Value"): fs = vobj.BubbleSize.Value*0.75 else: fs = vobj.BubbleSize*0.75 tr.translation.setValue(tuple(pl.Base)) tr.rotation.setValue(pl.Rotation.Q) fn = params.get_param("textfont") if hasattr(vobj,"FontName"): if vobj.FontName: try: fn = str(vobj.FontName) except Exception: pass fo.name = fn fo.size = fs st.addChild(tr) st.addChild(fo) st.addChild(tx) self.labels.addChild(st) self.labelset.addChild(self.labels) def getNumber(self,vobj,num): chars = "abcdefghijklmnopqrstuvwxyz" roman=(('M',1000),('CM',900),('D',500),('CD',400), ('C',100),('XC',90),('L',50),('XL',40), ('X',10),('IX',9),('V',5),('IV',4),('I',1)) if hasattr(vobj.Object,"CustomNumber") and vobj.Object.CustomNumber: return vobj.Object.CustomNumber elif hasattr(vobj,"NumberingStyle"): if vobj.NumberingStyle == "1,2,3": return str(num+1) elif vobj.NumberingStyle == "01,02,03": return str(num+1).zfill(2) elif vobj.NumberingStyle == "001,002,003": return str(num+1).zfill(3) elif vobj.NumberingStyle == "A,B,C": result = "" base = num//26 if base: result += chars[base].upper() remainder = num % 26 result += chars[remainder].upper() return result elif vobj.NumberingStyle == "a,b,c": result = "" base = num//26 if base: result += chars[base] remainder = num % 26 result += chars[remainder] return result elif vobj.NumberingStyle == "I,II,III": result = "" n = num n += 1 for numeral, integer in roman: while n >= integer: result += numeral n -= integer return result elif vobj.NumberingStyle == "L0,L1,L2": return "L"+str(num) else: return str(num+1) def getTextData(self): return [(t[0].string.getValues()[0],t[1]) for t in self.bubbletexts] def getShapeData(self): return self.bubbledata def setEdit(self, vobj, mode): if mode == 1 or mode == 2: return None taskd = _AxisTaskPanel() taskd.obj = vobj.Object taskd.update() FreeCADGui.Control.showDialog(taskd) return True def unsetEdit(self, vobj, mode): if mode == 1 or mode == 2: return None FreeCADGui.Control.closeDialog() return True def setupContextMenu(self, vobj, menu): actionEdit = QtGui.QAction(translate("Arch", "Edit"), menu) QtCore.QObject.connect(actionEdit, QtCore.SIGNAL("triggered()"), self.edit) menu.addAction(actionEdit) # The default Part::FeaturePython context menu contains a `Set colors` # option. This option makes no sense for Axis objects. We therefore # override this menu and have to add our own `Transform` item. # To override the default menu this function must return `True`. action_transform = QtGui.QAction(FreeCADGui.getIcon("Std_TransformManip.svg"), translate("Command", "Transform"), # Context `Command` instead of `Arch`. menu) QtCore.QObject.connect(action_transform, QtCore.SIGNAL("triggered()"), self.transform) menu.addAction(action_transform) return True def edit(self): FreeCADGui.ActiveDocument.setEdit(self.Object, 0) def transform(self): FreeCADGui.ActiveDocument.setEdit(self.Object, 1) def dumps(self): return None def loads(self,state): return None class _AxisTaskPanel: '''The editmode TaskPanel for Axis objects''' def __init__(self): # the panel has a tree widget that contains categories # for the subcomponents, such as additions, subtractions. # the categories are shown only if they are not empty. 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(4) self.tree.header().resizeSection(0,50) self.tree.header().resizeSection(1,80) self.tree.header().resizeSection(2,60) # buttons self.addButton = QtGui.QPushButton(self.form) self.addButton.setObjectName("addButton") self.addButton.setIcon(QtGui.QIcon(":/icons/Arch_Add.svg")) self.grid.addWidget(self.addButton, 3, 0, 1, 1) self.addButton.setEnabled(True) self.delButton = QtGui.QPushButton(self.form) self.delButton.setObjectName("delButton") self.delButton.setIcon(QtGui.QIcon(":/icons/Arch_Remove.svg")) self.grid.addWidget(self.delButton, 3, 1, 1, 1) self.delButton.setEnabled(True) QtCore.QObject.connect(self.addButton, QtCore.SIGNAL("clicked()"), self.addElement) QtCore.QObject.connect(self.delButton, QtCore.SIGNAL("clicked()"), self.removeElement) 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 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.Distances)): item = QtGui.QTreeWidgetItem(self.tree) item.setText(0,str(i+1)) if len(self.obj.Distances) > i: item.setText(1,str(self.obj.Distances[i])) if len(self.obj.Angles) > i: item.setText(2,str(self.obj.Angles[i])) if hasattr(self.obj,"Labels"): if len(self.obj.Labels) > i: item.setText(3,str(self.obj.Labels[i])) item.setFlags(item.flags() | QtCore.Qt.ItemIsEditable) item.setTextAlignment(0,QtCore.Qt.AlignLeft) self.retranslateUi(self.form) self.updating = False def addElement(self): item = QtGui.QTreeWidgetItem(self.tree) item.setText(0,str(self.tree.topLevelItemCount())) item.setText(1,"1.0") item.setText(2,"0.0") item.setFlags(item.flags() | QtCore.Qt.ItemIsEditable) self.resetObject() def removeElement(self): it = self.tree.currentItem() if it: nr = int(it.text(0))-1 self.resetObject(remove=nr) self.update() 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" d = [] a = [] l = [] for i in range(self.tree.topLevelItemCount()): it = self.tree.findItems(str(i+1),QtCore.Qt.MatchExactly,0)[0] if (remove is None) or (remove != i): if it.text(1): d.append(float(it.text(1))) else: d.append(0.0) if it.text(2): a.append(float(it.text(2))) else: a.append(0.0) l.append(it.text(3)) self.obj.Distances = d self.obj.Angles = a self.obj.Labels = l self.obj.touch() FreeCAD.ActiveDocument.recompute() def reject(self): FreeCAD.ActiveDocument.recompute() FreeCADGui.ActiveDocument.resetEdit() return True def retranslateUi(self, TaskPanel): TaskPanel.setWindowTitle(QtGui.QApplication.translate("Arch", "Axes", None)) self.delButton.setText(QtGui.QApplication.translate("Arch", "Remove", None)) self.addButton.setText(QtGui.QApplication.translate("Arch", "Add", None)) self.title.setText(QtGui.QApplication.translate("Arch", "Distances (mm) and angles (deg) between axes", None)) self.tree.setHeaderLabels([QtGui.QApplication.translate("Arch", "Axis", None), QtGui.QApplication.translate("Arch", "Distance", None), QtGui.QApplication.translate("Arch", "Angle", None), QtGui.QApplication.translate("Arch", "Label", None)])