Macro Unroll Ruled Surface/cs

Deskriptivní
Toto makro umožňuje rozvinout svinuté povrchy a nakreslit je na stránku.



Instalace
Zkopíruj kód makra do souboru v adresáři : Přidej šablony : A3_Landscape_Empty.svg A3_Landscape.svg  A4_Landscape_Empty.svg  A4_Landscape.svg
 * Linux & Mac  : $home/.Freecad/Mod/UnrollRuledSurface.
 * Windows : C:\Program Files\FreeCAD0.13

Cf Makro pro rozvinutí svinutých povrchů

See also: Macro for unrolling ruled surfaces.

Volby

 * Počet tvořicích přímek
 * Ruční nebo automatické měřítko
 * Formát stránky: a3/a4, cartridge (cf FreeCAD šablony)
 * Je-li možné, seskup výkresy na jednu stránku.



Použití

 * 1) Vyber svinuté povrchy
 * 2) Odděl je (cf Draft menu)
 * 3) Vyber povrchy
 * 4) Spusť makro

Python kód
The latest version of the macro is here on the wiki. An earlier version can be found at UnrollRuledSurface.FCMacro, but the easiest way to install this macro is through the Addon manager.

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Macro_unrollRuledSurface.py

__Name__ = 'Unroll Ruled Surface' __Comment__ = 'Unroll of a ruled surface and draw it on a page.' __Author__ = 'Hervé B., heda' __Version__ = '1.1' __Date__ = '2022-07-24' __License__ = 'LGPL-2.0-or-later' __Web__ = 'https://wiki.freecad.org/Macro_Unroll_Ruled_Surface' __Wiki__ = 'https://wiki.freecad.org/Macro_Unroll_Ruled_Surface' __Icon__ = '' __Help__ = ('Select ruled surfaces, Explode them (cf Draft menu), '           'Select the surfaces, Execute the macro') __Status__ = '' __Requires__ = '' __Communication__ = '' __Files__ = ''
 * 1) -*- coding: utf-8 -*-
 * 2) *  Copyright (c) 2013 - DoNovae/Herve BAILLY          *
 * 3) *  Copyright (c) 2022 - heda                              *
 * 4) *  This program is free software; you can redistribute it and/or modify  *
 * 5) *  it under the terms of the GNU Lesser General Public License (LGPL)    *
 * 6) *  as published by the Free Software Foundation; either version 2 of     *
 * 7) *  the License, or (at your option) any later version.                   *
 * 8) *  for detail see the LICENCE text file.                                 *
 * 9) *  This program is distributed in the hope that it will be useful,       *
 * 10) *  but WITHOUT ANY WARRANTY; without even the implied warranty of        *
 * 11) *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the         *
 * 12) *  GNU Library General Public License for more details.                  *
 * 13) *  You should have received a copy of the GNU Library General Public     *
 * 14) *  License along with this program; if not, write to the Free Software   *
 * 15) *  Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  *
 * 16) *  USA                                                                   *
 * 1) *  You should have received a copy of the GNU Library General Public     *
 * 2) *  License along with this program; if not, write to the Free Software   *
 * 3) *  Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  *
 * 4) *  USA                                                                   *
 * 1) *  USA                                                                   *

__doc__ = """ select a face, or several and run the macro. a shell/solid needs to be draft/downgraded to get the faces as separate objects

the macro is intended to unroll lofted faces, function beyond that is (in current version) a bonus

settings are not context aware, all settings not applicable are ignored. as example, using autoscaling ignores the scale-value in the form

v1.1  (2022-07-24) py3/qt5 compat, cosmetic code changes, minor code tweaks, used gridlayout for form, added option to skip drawing, made new layout engine with techdraw, the drawing wb layout engine is now called "legacy" v1.0.1 (2019-02-01) - on git v1.0  (2013-09-14) - on wiki

note: - unfolding sometimes works and sometimes not - not all surfaces are theoretically possible to unroll

"""

import os from PySide import QtGui, QtCore import FreeCAD, FreeCADGui import Part, Draft

Vector = FreeCAD.Base.Vector PrintMessage = FreeCAD.Console.PrintMessage PrintError = FreeCAD.Console.PrintError

settings = dict unroll_l = [] dwgtpllegacy = 'Mod/Drawing/Templates' dwgtpl = 'Mod/TechDraw/Templates'


 * 1)   Functions
 * 1)   Functions

def errorDialog(msg): diag = QtGui.QMessageBox(QtGui.QMessageBox.Critical, "Error Message", msg) diag.setWindowFlags(QtCore.Qt.WindowStaysOnTopHint) diag.exec_

def ending: PrintMessage("UnrollRuledSurface: end.\n") PrintMessage("===========================================\n") FreeCAD.ActiveDocument.recompute

def proceed: QtGui.QApplication.setOverrideCursor(QtCore.Qt.WaitCursor)

PrintMessage("===========================================\n") PrintMessage("UnrollRuledSurface: start.\n") try: sts = lambda s: settings.get(s)

file_name = sts("fname").text pts_nbr = float(sts("dpts").text) makedwg = sts("mkdwg").isChecked leglay = sts("legacylayout").isChecked scale = float(sts("scale").text) # ignored if autoscale is set scale_auto = sts("autoscale").isChecked edge0 = sts("edge").checkedId == -2 a3 = sts("papersize").checkedId == -3 cartridge = sts("cartridge").isChecked onedrawing = sts("groupdwg").isChecked

PrintMessage("UnrollRuledSurface.file_name: {}\n".format(file_name)) PrintMessage("UnrollRuledSurface.pts_nbr: {}\n".format(pts_nbr)) PrintMessage("UnrollRuledSurface.edge0: {}\n".format(edge0)) PrintMessage("UnrollRuledSurface.makedwg: {}\n".format(makedwg)) PrintMessage("UnrollRuledSurface.leglay: {}\n".format(leglay)) PrintMessage("UnrollRuledSurface.scale_check: {}\n".format(scale_auto)) PrintMessage("UnrollRuledSurface.scale: {}\n".format(scale)) PrintMessage("UnrollRuledSurface.a3_check: {}\n".format(a3)) PrintMessage("UnrollRuledSurface.cartridge: {}\n".format(cartridge)) PrintMessage("UnrollRuledSurface.onedrawing: {}\n".format(onedrawing)) except: msg = "UnrollRuledSurface: wrong inputs...\n" PrintError(msg) errorDialog(msg) QtGui.QApplication.restoreOverrideCursor DialogBox.hide ending return

QtGui.QApplication.restoreOverrideCursor DialogBox.hide unrollRS = unrollRuledSurface(file_name, pts_nbr, edge0)

## Get selection sel = FreeCADGui.Selection.getSelection if not sel: PrintMessage("UnrollRuledSurface: no selection...\n") ending return

faceid = 0 objnames_l, objnames0_l = [], [] grp = FreeCAD.ActiveDocument.addObject("App::DocumentObjectGroup",                                          "{}_objs".format(file_name))

for objid, obji in enumerate(sel): shape = obji.Shape faces = shape.Faces for idx in range(len(faces)): msg = "UnrollRuledSurface.proceed: ObjId = {}, faceId = {}\n" PrintMessage(msg.format(objid, faceid)) name = obji.Name if len(faces) > 1: name = "{}.face_{}".format(name, idx) obj = unrollRS.unroll(faces[idx], name) obj.ViewObject.Visibility = not makedwg grp.addObject(obj)

objnames_l.append([obj, name]) objnames0_l.append([obji, name]) faceid += 1

if not makedwg: ending return

if leglay: idx = 0 while len(objnames_l) > 0: draw = Drawing2dLegacy(scale, scale_auto, a3,                                  cartridge, onedrawing,                                   "{}_page{:02}".format(file_name, idx)) objnames_l = draw.all2d(objnames_l) idx += 1 msg = "UnrollRuledSurface: obj_l = {}\n" PrintMessage(msg.format(len(objnames_l)))

else: draw = Drawing2d(scale, scale_auto, a3, cartridge) n = 4 if onedrawing else 1 chunks = [objnames_l[i:i + n] for i in range(0, len(objnames_l), n)] for i, chunk in enumerate(chunks, start=1): draw.drawpage(chunk, "{}_page{:02}".format(file_name, i))

ending

def close: DialogBox.hide

def getType(obj): return type(obj).__name__

class unrollRuledSurface: """   unroll ruled surfaces    :file_name: ouput file    :pts_nbr: nbr point of discretization    """ def __init__(self, file_name, pts_nbr, edge0): self.doc = FreeCAD.ActiveDocument self.file_name = file_name self.pts_nbr = int(pts_nbr) self.edge0 = edge0 msg = "UnrollRuledSurface.unroll - file_name: {}, pts_nbr: {}\n" PrintMessage(msg.format(file_name, pts_nbr))

def discretize(self, curve): """discretize a curve""" if getType(curve) in ('GeomLineSegment', 'GeomCircle'): sd = curve.discretize(self.pts_nbr) elif getType(curve) == 'GeomBSplineCurve': nodes = curve.getPoles spline = Part.BSplineCurve spline.buildFromPoles(nodes) sd = spline.discretize(self.pts_nbr) else: sd = curve.discretize(self.pts_nbr) return sd

def nbpoles(self, curve): """find number of poles for a curve""" if getType(curve) == 'GeomLineSegment': nbpol=1 elif getType(curve) == 'GeomBSplineCurve': nbpol=curve.NbPoles elif getType(curve) == 'GeomCircle': nbpol=2 elif getType(curve) == 'GeomBezierCurve': nbpol=4 else: nbpol=0

msg = "UnrollRulrdSurface.nbpole {:s} = {:d}\n" PrintMessage(msg.format(getType(curve), nbpol)) return nbpol

def unroll(self, face, name): """unrolls a face composed of 2 to 4 edges""" nbredges = len(face.Edges) msg = "UnrollRuledSurface.unroll: Edge Nbr = {}\n" PrintMessage(msg.format(nbredges))

if nbredges == 2: e1, e2 = face.Edges sd1 = e1.Curve.discretize(self.pts_nbr) sd2 = e2.Curve.discretize(self.pts_nbr)

elif nbredges == 3: e1, _, e2 = face.Edges sd1 = e1.Curve.discretize(self.pts_nbr) sd2 = e2.Curve.discretize(self.pts_nbr)

else: E0, E1, E2, E3, *_ = face.Edges ## Choose more complexe curve as edge nbpol0 = self.nbpoles(E0.Curve) nbpol1 = self.nbpoles(E1.Curve) nbpol2 = self.nbpoles(E2.Curve) nbpol3 = self.nbpoles(E3.Curve) msg = ("UnrollRuledSurface.unroll: nbpol0= {:d}, nbpol1= {:d},"                  " nbpol2= {:d}, nbpol3= {:d}\n") PrintMessage(msg.format(nbpol0, nbpol1, nbpol2, nbpol3))

if self.edge0: e1, e2 = E0, E2               v = self.discretize(E1) v0, v1 = v[0], v[self.pts_nbr-1] else: e1, e2 = E1, E3               v = self.discretize(E2) v0, v1 = v[0], v[self.pts_nbr-1]

sd1 = self.discretize(e1) sd2 = self.discretize(e2) ## Reverse if curves cross over if not (sd2[0].__eq__(v0) or not sd2[0].__eq__(v1)): sd2.reverse

## Create a polygon object and set its nodes devlxy_l = self.devlxyz(sd1, sd2) msg = "UnrollRuledSurface.unroll: size devlxy_l: {}\n" PrintMessage(msg.format(len(devlxy_l))) p = self.doc.addObject("Part::Polygon", name) p.Nodes = devlxy_l self.doc.recompute FreeCADGui.ActiveDocument.ActiveView.fitAll return p

def vect_copy(self, vect): """returns copy of vector""" return vect.add(Vector)

def vect_cos(self, vect1, vect2): """returns cosine angle between 2 vectors""" return vect1.dot(vect2) / vect1.Length / vect2.Length

def vect_sin(self, vect1, vect2): """returns absolute sinus angle between 2 vectors""" v = Vector v.x = vect1.y * vect2.z - vect1.z * vect2.y       v.y = vect1.z * vect2.x - vect1.x * vect2.z        v.z = vect1.x * vect2.y - vect1.y * vect2.x        return v.Length / vect1.Length / vect2.Length

def devlxyz(self, vect1, vect2): """       unrolls a face composed of 4 edges        args: vect1, vect2 --> 2 edges of the shape        returns: dvlxy        """ lenv1, lenv2 = len(vect1), len(vect2) if lenv1 != lenv2 or lenv1 != self.pts_nbr or lenv2 != self.pts_nbr: msg = ("UnrollRuledSurface.devlxyz: incompatility of sizes vect1,"                  " vect2, pts_nbr: ({}, {}, {})\n") PrintError(msg.format(lenv1, lenv2, self.pts_nbr)) errorDialog(msg)

devlxy_l, devl1xy_l, devl2xy_l = [], [], [] errormax = 0.0 ## Init unroll ## AB       a1b1 = vect2[0].sub(vect1[0]) oa1 = Vector(0, 0, 0) devl1xy_l.append(oa1) #A1 ob1 = Vector(a1b1.Length, 0, 0) devl2xy_l.append(ob1) #B1 #self.draw_line(devl1xy_l[0], devl2xy_l[0]) #self.draw_line(vect1[0], vect2[0]) for j in range(1, self.pts_nbr):

## AB           ab = vect2[j-1].sub(vect1[j-1]) #self.draw_line(vect1[j-1], vect2[j-1])

## AC           ac = vect1[j].sub(vect1[j-1])

## BD           bd = vect2[j].sub(vect2[j-1])

## CD           cd = vect2[j].sub(vect1[j])

## A1B1 in unroll plan a1b1 = devl2xy_l[j-1].sub(devl1xy_l[j-1]) a1b1n = self.vect_copy(a1b1) a1b1n.normalize a1b1on = Vector(-a1b1n.y, a1b1n.x, 0)

## A1C1 cosalp = self.vect_cos(ab, ac) sinalp = self.vect_sin(ab, ac) a1c1 = self.vect_copy(a1b1n) a1c1.multiply(cosalp * ac.Length) v = self.vect_copy(a1b1on) v.multiply(sinalp * ac.Length) a1c1 = a1c1.add(v) oa1 = self.vect_copy(devl1xy_l[j-1]) oc1 = oa1.add(a1c1) devl1xy_l.append(oc1)

## B1D1 cosalp = self.vect_cos(ab, bd) sinalp = self.vect_sin(ab, bd) b1d1 = self.vect_copy(a1b1n) b1d1.multiply(cosalp * bd.Length) v = self.vect_copy(a1b1on) v.multiply(sinalp * bd.Length) b1d1 = b1d1.add(v) ob1 = self.vect_copy(devl2xy_l[j-1]) od1 = ob1.add(b1d1) devl2xy_l.append(od1)

## Draw generatrice #self.draw_line(devl1xy_l[j], devl2xy_l[j]) c1d1 = devl2xy_l[j].sub(devl1xy_l[j]) if ab.Length != 0: abl = ab.Length errormax = max(errormax, abs(abl - c1d1.Length) / abl)

msg = "UnrollRuledSurface Error cd,c1d1: {:.1f} %\n" PrintMessage(msg.format(errormax*100))

## Close polygone devlxy_l = devl1xy_l devl2xy_l.reverse devlxy_l.extend(devl2xy_l) v = Vector devlxy_l.append(v)

return devlxy_l

def draw_line(self, vect0, vect1): """draws a Part.Line between vect0 & vect1""" l = Part.LineSegment l.StartPoint = vect0 l.EndPoint = vect1 self.doc.addObject("Part::Feature", "Line").Shape = l.toShape

class Scale: """keeps autoscaling to integers""" def __init__(self, scale): self.scale = scale if scale >= 1 else 1 / scale self.scale = int(self.scale) self.inverted = scale >= 1

def get(self): if self.inverted: return self.scale, '{}:1'.format(self.scale) else: return 1/self.scale, '1:{}'.format(self.scale)

class Drawing2d: """   TechDraw wb layout engine, diffeent logic compared to drawing wb layout.    serves basic purpose...    """ def __init__(self, scale, scale_auto, a3, cartridge):

self.a3 = a3       self.scale = scale self.scale_auto = scale_auto self.cartridge = cartridge if a3: self.WH = 420, 297 else: self.WH = 297, 210 self.doc = FreeCAD.ActiveDocument

def _mkquadrants(self, nbr): """centers of quadrants w/o margin""" w, h = self.WH       w2, h2 = w/2, h/2 w4, h4 = w/4, h/4

q = {1: w, h], [[w2, h2],            2: w2, h], [[w2 - w4, h2], [w2 + w4, h2],             3: w2, h2], [[w2 - w4, h2 + h4], [w2 + w4, h2 + h4],                            [w2 - w4, h2 - h4],             4: w2, h2], [[w2 - w4, h2 + h4], [w2 + w4, h2 + h4],                            [w2 - w4, h2 - h4], [w2 + w4, h2 - h4]}        return q.get(nbr)

def newPage(self, doc, page_name): freecad_dir = os.path.join(FreeCAD.getResourceDir, dwgtpl) page = doc.addObject('TechDraw::DrawPage', page_name) template = self.doc.addObject('TechDraw::DrawSVGTemplate', 'Template') size = 'A3' if self.a3 else 'A4' frame = 'TD' if self.cartridge else '_blank' template.Template = freecad_dir + '/{}_Landscape{}.svg'.format(size, frame) page.Template = template return page

def drawpage(self, faces, page_name): """max 4 per page, simple layout with halfs or quadrants""" page = self.newPage(self.doc, page_name) [W, H], ll = self._mkquadrants(len(faces)) for [face, name], [x0, y0] in zip(faces, ll): bb = face.Shape.BoundBox xr, yr = W / bb.XLength, H / bb.YLength adjust = 0.7 if self.cartridge else 0.85 scale = min(xr, yr) * adjust if self.scale_auto else self.scale scale, scr = Scale(scale).get bb.scale(scale, scale, 1) # unrolled faces in xy-plane

TopView = self.doc.addObject('TechDraw::DrawViewPart', name + ' view') page.addView(TopView) TopView.Source = face TopView.Direction = (0, 0, 1) TopView.XDirection = (1, 0, 0) TopView.Scale = scale TopView.X = x0           TopView.Y = y0

Text = self.doc.addObject('TechDraw::DrawViewAnnotation', name + ' txt') page.addView(Text) Text.Text = '{} [{}]'.format(name, scr) Text.recompute # for size Text.X = x0           yt = y0 - bb.YLength / 2 - Text.TextSize.Value * 1.5 Text.Y = max(1, yt)

self.doc.recompute page.ViewObject.doubleClicked FreeCADGui.runCommand('TechDraw_ToggleFrame', 0)

class Drawing2dLegacy: """   makes 2d drawing with Drawing wb (original layout engine, now legacy)    - obj_l: list of objects    """ ## untouched logic in v1.1 def __init__(self, scale, scale_auto, a3, cartridge, onedrawing, page_str): self.TopX_H = self.TopY_H = 0 self.TopX_V = self.TopY_V = 0 self.TopX_Hmax = self.TopY_Hmax = 0 self.TopX_Vmax = self.TopY_Vmax = 0 self.a3 = a3       self.scale = scale self.scale_auto = scale_auto self.cartridge = cartridge self.onedrawing = onedrawing self.marge = 6 if self.a3: self.L, self.H = 420, 297 else: self.L, self.H = 297, 210 self.name = page_str

def newPage(self): freecad_dir = os.path.join(FreeCAD.getResourceDir, dwgtpllegacy) doc = FreeCAD.ActiveDocument page = doc.addObject('Drawing::FeaturePage', self.name) size = 'A3' if self.a3 else 'A4' frame = '' if self.cartridge else '_plain' page.Template = freecad_dir + '/{}_Landscape{}.svg'.format(size, frame) return page

def all2d(self, objname_l): obj1_l = [] for objid in range(len(objname_l)): if objid == 0 or not self.onedrawing: page = self.newPage obj1_l.extend(self.done(objid, objname_l[objid])) return obj1_l

def done(self, idx, objname): obj_l = [] obj, objname = objname marge = self.marge bb = obj.Shape.BoundBox xmax = bb.XMax - bb.XMin ymax = bb.YMax - bb.YMin

if ymax > xmax: Draft.rotate(obj, 90) Draft.move(obj, Vector(-bb.XMin, -bb.YMin, 0)) xmax = bb.XMax - bb.XMin ymax = bb.YMax - bb.YMin

scale = min((self.L-4 * marge) / xmax, (self.H-4 * marge) / ymax)

if (not self.scale_auto) or self.onedrawing: scale = self.scale

PrintMessage("UnrollRuledSurface.drawing: scale= {:.2f}\n".format(scale))

if idx == 0 or not self.onedrawing: PrintMessage("Drawing2d: init\n") TopX = self.TopX_H = marge * 2 TopY = self.TopY_H = marge * 2 self.TopX_H = self.TopX_H + xmax * scale + marge self.TopY_H = self.TopY_H self.TopX_Hmax = max(self.TopX_Hmax, self.TopX_H) self.TopY_Hmax = max(self.TopY_Hmax,                                self.TopY_H + ymax * scale + marge) self.TopX_Vmax = max(self.TopX_Vmax, self.TopX_Hmax) self.TopX_V = max(self.TopX_Vmax, self.TopX_V) self.TopY_V = marge * 2

elif self.onedrawing: if self.TopX_H + xmax * scale < self.L:               if self.TopY_H + ymax * scale + marge * 2 < self.H:                    ## H Add at right on same horizontal line PrintMessage("Drawing2d: horizontal\n") TopX, TopY = self.TopX_H, self.TopY_H self.TopX_H = self.TopX_H + xmax * scale + marge self.TopX_Hmax = max(self.TopX_Hmax, self.TopX_H) self.TopY_Hmax = max(self.TopY_Hmax,                                        self.TopY_H + ymax * scale + marge) self.TopX_Vmax = max(self.TopX_Hmax, self.TopX_Vmax) self.TopX_Vmax = max(self.TopX_Vmax, self.TopX_Hmax) self.TopX_V = max(self.TopX_Vmax, self.TopX_V)

else: ## V Add at right on same horizontal line PrintMessage("Drawing2d: vertival\n") if (self.TopX_V + ymax * scale + 2 * marge < self.L                       and self.TopY_V + xmax * scale + 2 * marge < self.H): Draft.rotate(obj, 90) Draft.move(obj, Vector(-bb.XMin, -bb.YMin, 0)) x0 = xmax; xmax = ymax; ymax = x0                       self.TopX_V = max(self.TopX_Vmax, self.TopX_V) TopX, TopY = self.TopX_V, self.TopY_V self.TopX_V = self.TopX_V + xmax * scale + marge self.TopY_Vmax = max(self.TopY_Vmax,                                            self.TopY_V + ymax * scale + marge)

else: obj_l.append([obj, self.name]) return obj_l

else: ## H Carriage return if self.TopY_Hmax + ymax * scale + self.marge*2 < self.H:                   msg = "Drawing2d: carriage return: {} > {}\n" PrintMessage(msg.format(self.TopY_H + ymax * scale, self.H)) TopX = self.marge * 2 TopY = self.TopY_Hmax self.TopX_H = TopX + xmax * scale + self.marge self.TopY_H = TopY self.TopX_Hmax = max(self.TopX_Hmax, self.TopX_H) self.TopY_Hmax = self.TopY_Hmax + ymax * scale + self.marge self.TopX_Vmax = max(self.TopX_Vmax, self.TopX_Hmax) self.TopX_V = max(self.TopX_Vmax, self.TopX_V) else: ## V Add at right on same horizontal line msg = "Drawing2d: vertival: {}, {}\n" PrintMessage(msg.format(self.TopX_V, self.TopX_Vmax)) if (self.TopX_V + ymax * scale + 2 * marge < self.L                       and self.TopY_V + xmax * scale + 2 * marge < self.H): Draft.rotate(obj, 90) Draft.move(obj, Vector(-bb.XMin, -bb.YMin, 0)) x0 = xmax; xmax = ymax; ymax = x0                       TopX, TopY = self.TopX_V, self.TopY_V self.TopX_V = self.TopX_V + xmax * scale + marge self.TopY_Vmax = max(self.TopY_Vmax,                                            self.TopY_V + ymax * scale + marge) else: obj_l.append([obj, objname]) return obj_l

doc = FreeCAD.ActiveDocument page = doc.getObject(self.name)

Text = doc.addObject('Drawing::FeatureViewAnnotation', f"{objname}_txt") Text.Text = objname Text.X = TopX + xmax * scale / 2 Text.Y = TopY + ymax * scale / 2 Text.Scale = 2

TopView = doc.addObject('Drawing::FeatureViewPart', objname) TopView.Source = obj TopView.Direction = (0, 0, 1) TopView.Rotation = 0 TopView.X = TopX TopView.Y = TopY TopView.ShowHiddenLines = False TopView.Scale = scale page.addObject(TopView) page.addObject(Text) doc.recompute page.ViewObject.doubleClicked return obj_l


 * 1)   Dialog Box
 * 1)   Dialog Box

DialogBox = QtGui.QDialog DialogBox.setWindowTitle("UnrollRuledSurface") la = QtGui.QGridLayout(DialogBox) la.setSpacing(7) buttonGrpEdge = QtGui.QButtonGroup(DialogBox) buttonGrpFormat = QtGui.QButtonGroup(DialogBox)

cols = 4 la.addWidget(QtGui.QLabel("File Name"), 0, 0, 1, cols) fname = QtGui.QLineEdit("UnrollSurface") la.addWidget(fname, 1, 0, 1, cols)

la.addWidget(QtGui.QLabel("Discretization Points Nbr"), 2, 0, 1, cols) dpts = QtGui.QLineEdit("30") la.addWidget(dpts, 3, 0, 1, 2)

la.addWidget(QtGui.QLabel("Generatrices from edge:"), 4, 0, 1, 2) edgezero = QtGui.QRadioButton("0 to 3") la.addWidget(edgezero, 4, 2) edgeone = QtGui.QRadioButton("1 to 4") la.addWidget(edgeone, 4, 3) buttonGrpEdge.addButton(edgezero); buttonGrpEdge.addButton(edgeone) edgezero.setChecked(True)

mkdwg = QtGui.QCheckBox("Make drawing") mkdwg.setChecked(True) la.addWidget(mkdwg, 5, 0, 1, 2)

legacylayout = QtGui.QCheckBox("Legacy layout") legacylayout.setChecked(False) la.addWidget(legacylayout, 5, 2, 1, 2)

autoscale = QtGui.QCheckBox("Auto scale") autoscale.setChecked(True) la.addWidget(autoscale, 6, 0, 1, 2)

la.addWidget(QtGui.QLabel("Scale"), 6, 2) scale = QtGui.QLineEdit("1") la.addWidget(scale, 6, 3)

la.addWidget(QtGui.QLabel("Paper size:"), 7, 0, 1, 2) rba4 = QtGui.QRadioButton("A4") la.addWidget(rba4, 7, 2) rba3 = QtGui.QRadioButton("A3") la.addWidget(rba3, 7, 3) buttonGrpFormat.addButton(rba4); buttonGrpFormat.addButton(rba3) rba4.setChecked(True)

cartridge = QtGui.QCheckBox("Cartridge") cartridge.setChecked(False) la.addWidget(cartridge, 8, 0, 1, 2)

groupdwg = QtGui.QCheckBox("Group drawings in page") groupdwg.setChecked(True) la.addWidget(groupdwg, 8, 2, 1, 2)

box = QtGui.QDialogButtonBox(DialogBox) box.setOrientation(QtCore.Qt.Horizontal) box.setStandardButtons(QtGui.QDialogButtonBox.Cancel | QtGui.QDialogButtonBox.Ok) la.addWidget(box, 9, 0, 1, cols)

settings.update(dict(fname=fname, dpts=dpts, edge=buttonGrpEdge, mkdwg=mkdwg, legacylayout=legacylayout, autoscale=autoscale, scale=scale, papersize=buttonGrpFormat, cartridge=cartridge, groupdwg=groupdwg))

QtCore.QObject.connect(box, QtCore.SIGNAL("accepted"), proceed) QtCore.QObject.connect(box, QtCore.SIGNAL("rejected"), close) QtCore.QMetaObject.connectSlotsByName(DialogBox) DialogBox.show