Macro FCInfo/it

Descrizione
Fornisce una ampia serie di informazioni sulla forma selezionata quali lunghezza, angoli, superficie, volume e peso secondo la densità della forma selezionata, sia nelle unità del Sistema Internazionale che in quelle del Sistema Anglosassone.



Utilizzo
Selezionare un oggetto e avviare l'applicazione o viceversa. Viene visualizzata la tabella delle informazioni. I calcoli sono basati sull'unità di FreeCAD, che è il mm. Ogni nuova selezione ripristina il mm per l'unità di lunghezza e i gradi sessadecimali (°) per gli angoli.

Una volta lanciata la macro, essa rimane attiva e la finestra rimane visibile. Per chiudere la macro si deve usare il pulsante. Se si esce tramite la piccola croce, la macro rimane in memoria ed i dati vengono visualizzati nel report di FreeCAD.

Lunghezza :
km, hm, dam, m, dm, cm, mm, inch, link, foot, yard, perch, chain, furlong, mile, league, nautique.

Angoli :

 * 1) gradi decimali, ex: 174.831872611°
 * 2) gradi minuti seconde, ex: 174° 49' 54.741401''
 * 3) radianti, ex: 3.05139181449 rad
 * 4) grado, ex: 194.257636235 gon

Peso :
tonne, quintal, kg, hg, dag, grammo, dg, cg, mg, gr (grain), dr (drachm), oz (once), oz t (once troy),

lb t (livre troy), lb (livre av), st (stone), qtr (quarter), cwt (hundredweight)

Il valore della massa volumica è preimpostato su 7,5 kg/dm3, che è la densità media dell'acciaio. Per impostare un valore predefinito diverso, modificare il valore della densità nella riga 162:

global densite      ; densite       = 7.5  # (acier = 7.5 kg par dm3)

Tramite il pulsante è possibile archiviare i dati ottenuti in un file di tipo csv e utilizzarli in una tabella.

Script
Copiare il contenuto della macro in un file chiamato "FCInfo.FCMacro" posto nella directory "C:\Program Files\FreeCAD0.13" per Windows e in "/usr/lib/freecad" con i privilegi di amministratore per Ubuntu.

Oppure copiare la macro direttamente nell'interfaccia di FreeCAD.

L'icona deve essere posizionata nella stessa directory della macro.

Per scaricare l'icona posizionarsi su questa immagine:   poi fare clic con il tasto destro del mouse e scegliere l'opzione "Salva immagine con nome" (non modificare il nome).

FCInfo.FCMacro

""" """
 * 1) -*- coding: utf-8 -*-
 * Copyright (c) 2013                 *
 * This file is a supplement to the FreeCAD CAx development system.     *
 * 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 software 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 macro; if not, write to the Free Software    *
 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307  *
 * USA                                                                  *
 * WARNING! All changes in this file will be lost and           *
 * may cause malfunction of the program                  *
 * License along with this macro; if not, write to the Free Software    *
 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307  *
 * USA                                                                  *
 * WARNING! All changes in this file will be lost and           *
 * may cause malfunction of the program                  *
 * may cause malfunction of the program                  *
 * 1) FCInfo.FCMacro
 * 2)       https://fr.wikipedia.org/wiki/Kilogramme
 * 3) donne des informations sur l'objet sélectionné
 * 4) les calculs son basés sur l'unité de FreeCAD, le mm
 * 5) Sélectionnez un objet et lancer l'application
 * 6) reviens toujours sur mm
 * 7) toujours quitter par le bouton "Quitter" si l'on quitte le programme sans passer par le bouton 'Quitter" le programme reste en mémoire
 * 8) il faut alors quitter FreeCAD pour l'éffacer de la mémoire
 * 9) seul les 200 objets premiers sont visibles dans le tableau s'il y en a plus un signal sera affiché par (!+ 200),
 * 10) la liste complète des données est visible dans le fichier sauvé
 * 11) 03_11 11/10
 * 12) FreeCAD Ver 0.13 1828
 * 13) python 2.6, Windows Vista

__title__  = "FCInfo" __author__ = "Mario52" __url__    = "http://www.freecadweb.org/index-fr.html" __version__ = "01.07" __date__   = "11/10/2013"

import Draft, Part, FreeCAD, math, PartGui, FreeCADGui, PyQt4 import Part from math import sqrt, pi, sin, cos, asin, degrees, radians from FreeCAD import Base from PyQt4 import QtGui ,QtCore from PyQt4.QtGui import QComboBox from PyQt4.QtGui import QMessageBox from PyQt4.QtGui import QTableWidget, QApplication

from PyQt4.QtGui import * from PyQt4.QtCore import *

import csv

try: _fromUtf8 = QtCore.QString.fromUtf8 except AttributeError: def _fromUtf8(s): return s

try: _encoding = QtGui.QApplication.UnicodeUTF8 def _translate(context, text, disambig): return QtGui.QApplication.translate(context, text, disambig, _encoding) except AttributeError: def _translate(context, text, disambig): return QtGui.QApplication.translate(context, text, disambig)

from math import sqrt, pi, sin, cos, asin, acos, atan, atan2, degrees

def errorDialog(msg): diag = QtGui.QMessageBox(QtGui.QMessageBox.Critical,u"Error Message",msg ) diag.setWindowFlags(PyQt4.QtCore.Qt.WindowStaysOnTopHint) # cette fonction met la fenêtre en avant diag.exec_
 * 1)    diag.setWindowModality(QtCore.Qt.ApplicationModal)       # la fonction a été désactivée pour favoriser "WindowStaysOnTopHint"

def iso8859(encoder): return unicode(encoder).encode('iso-8859-1')

def utf8(unio): return unicode(unio).encode('UTF8')

def heure: return QtCore.QTime.currentTime.toString('hh:mm:ss') def dateEu: return QtCore.QDate.currentDate.toString('dd/MM/yyyy')      # forme euro def dateUs: return QtCore.QDate.currentDate.toString('MM/dd/yyyy')      # forme us def dateComp: return QtCore.QDate.currentDate.toString('dddd d MMMM yyyy') # Retourne "dimanche 20 Juillet 2013"

def degMinSec(angle0): # donner l'angle en degré global uniteAs try: deg = int(angle0) min = int((angle0 - deg)*60) sec = round (((((angle0 - deg)*60)-min)*60),6) angle = str(deg)+u"° "+str(min)+u"' "+str(sec)+u"''" uniteAs = "" return angle except: return 0

def angleGrade(angle0): # donner l'angle en degré global uniteAs try: angle = float(angle0) angle = (200 * angle) / 180 uniteAs = " gon" return angle except: return 0

def angle2(vecteur_x1,vecteur_y1,vecteur_x2,vecteur_y2,mode): global uniteAs try: deltaX = vecteur_x2 - vecteur_x1 deltaY = vecteur_y2 - vecteur_y1 if mode ==1: angle = degrees(atan2(float(deltaY),float(deltaX))) # degrès uniteAs = u"°" else: angle = atan2(float(deltaY),float(deltaX))         # radian uniteAs = " rad" return angle except: return 0 global ui           ; ui            = "" global sel          ; sel           = "" global document_    ; document_     = "FCInfo" global object_      ; object_       = "" global typeObject   ; typeObject    = "" global element_     ; element_      = "" global position0    ; position0     = 0.0 global position1    ; position1     = 0.0 global position2    ; position2     = 0.0 global longueurObjet ; longueurObjet = 0.0 global perimetre    ; perimetre     = 0.0
 * 1) calcul de l'inclinaison d'une ligne à partir de deux Vecteurs
 * 2) si "mode" = 1 alors affichage en degrès sinon en radian

global Plan_xy      ; Plan_xy       = 0.0 global Plan_xy_V    ; Plan_xy_V     = "" global Plan_yz      ; Plan_yz       = 0.0 global Plan_yz_V    ; Plan_yz_V     = "" global Plan_zx      ; Plan_zx       = 0.0 global Plan_zx_V    ; Plan_zx_V     = ""

global surface      ; surface       = 0.0 global surfaceFace  ; surfaceFace   = 0.0 global volume_      ; volume_       = 0.0 global densite      ; densite       = 7.5  # (acier = 7.5 kg par dm3) global poids        ; poids         = 0.0 global uniteM       ; uniteM        = 1.0  # unité de mesure longueur global uniteMs      ; uniteMs       =  "mm" global uniteS       ; uniteS        = 1.0  # unité de mesure surface global uniteSs      ; uniteSs       = u"mm²" global uniteV       ; uniteV        = 1.0  # unité de mesure volume global uniteVs      ; uniteVs       = u"mm³" global uniteP       ; uniteP        = 1.0  # unité de mesure poids global unitePs      ; unitePs       = "g" global uniteAs      ; uniteAs       = u"°"

global boundBoxCenterX ; boundBoxCenterX = 0.0 global boundBoxCenterY ; boundBoxCenterY = 0.0 global boundBoxCenterZ ; boundBoxCenterZ = 0.0

global boundBoxCenter; boundBoxCenter= 0.0

global CenterOfMassX ; CenterOfMassX = 0.0 global CenterOfMassY ; CenterOfMassY = 0.0 global CenterOfMassZ ; CenterOfMassZ = 0.0

global boundBox_    ; boundBox_     = 0.0 global boundBoxLX   ; boundBoxLX    = 0.0 global boundBoxLY   ; boundBoxLy    = 0.0 global boundBoxLZ   ; boundBoxLZ    = 0.0 global boundBox_S   ; boundBox_S    = "" global MatrixX1     ; MatrixX1      = 0.0 global MatrixY1     ; MatrixY1      = 0.0 global MatrixZ1     ; MatrixZ1      = 0.0 global Matrix_1     ; Matrix_1      = 0.0 global MatrixX2     ; MatrixX2      = 0.0 global MatrixY2     ; MatrixY2      = 0.0 global MatrixZ2     ; MatrixZ2      = 0.0 global Matrix_2     ; Matrix_2      = 0.0 global MatrixX3     ; MatrixX3      = 0.0 global MatrixY3     ; MatrixY3      = 0.0 global MatrixZ3     ; MatrixZ3      = 0.0 global Matrix_3     ; Matrix_3      = 0.0 global Matrix12     ; Matrix12      = 0.0 global Matrix13     ; Matrix13      = 0.0 global Matrix14     ; Matrix14      = 0.0 global Matrix15     ; Matrix15      = 0.0

global Vertx        ; Vertx         = "" global Edges        ; Edges         = "" global ReperEdge    ; ReperEdge     = 0 global EdgesLong    ; EdgesLong     = 0.0 global Faces        ; Faces         = "" global FacesSurf    ; FacesSurf     = 0.0 global FacesCoor    ; FacesCoor     = 0.0 global compt_E      ; compt_E       = 0 global compt_F      ; compt_F       = 0 global compt_VF     ; compt_VF      = 0

global placement_   ; placement_    = "" global RowCount     ; RowCount      = 200 global RowCountTest ; RowCountTest  = 0 global path         ; path          = "" global SaveName     ; SaveName      = ""

path = FreeCAD.ConfigGet("AppHomePath")

def tableau: global ui   global sel global element_ global perimetre global Vertx global Edges global ReperEdge global EdgesLong global Faces global FacesSurf global FacesCoor global compt_E global compt_F global compt_VF global RowCount global RowCountTest global pas # tableau # Vertexes

if len(sel) != 0: Vertx=[] Edges=[] Faces=[] compt_E  = 0 compt_F  = 0 compt_VF = 0 pas      = 0 perimetre = 0.0 EdgesLong = [] for j in enumerate(sel[0].Shape.Edges): compt_E+=1 Edges.append("Edge%d" % (j[0]+1)) EdgesLong.append(str(sel[0].Shape.Edges[compt_E-1].Length)) perimetre += (sel[0].Shape.Edges[compt_E-1].Length) a = sel[0].Shape.Edges[compt_E-1].Vertexes[0] Vertx.append("X1: "+str(a.Point.x)) Vertx.append("Y1: "+str(a.Point.y)) Vertx.append("Z1: "+str(a.Point.z)) if element_ == "Edge%d" % (j[0]+1): ReperEdge = compt_E try: a = sel[0].Shape.Edges[compt_E-1].Vertexes[1] Vertx.append("X2: "+str(a.Point.x)) Vertx.append("Y2: "+str(a.Point.y)) Vertx.append("Z2: "+str(a.Point.z)) except: Vertx.append("-") Vertx.append("-") Vertx.append("-") FacesSurf = [] FacesCoor = [] for j in enumerate(sel[0].Shape.Faces):                        # Faces du Shape compt_F+=1 Faces.append("Face%d" % (j[0]+1)) FacesSurf.append(str(sel[0].Shape.Faces[compt_F-1].Area))  # Surface de la Face fco = 0 for f0 in sel[0].Shape.Faces[compt_F-1].Vertexes:          # Vertexes de la face fco += 1 FacesCoor.append("X"+str(fco)+": "+str(f0.Point.x)) FacesCoor.append("Y"+str(fco)+": "+str(f0.Point.y)) FacesCoor.append("Z"+str(fco)+": "+str(f0.Point.z)) compt_VF += 1 FacesCoor += ("T",)

RowCountTest = compt_E + compt_F + compt_VF def affect: global ui       global sel global document_ global object_ global typeObject global element_ global position0 global position1 global position2 global longueurObjet

global ReperEdge global Plan_xy global Plan_xy_V global Plan_yz global Plan_yz_V global Plan_zx global Plan_zx_V

global surface global surfaceFace global volume_ global densite global poids global uniteM global uniteMs global uniteS global uniteSs global uniteV global uniteVs global uniteP global unitePs global uniteAs

global boundBoxCenterX global boundBoxCenterY global boundBoxCenterZ

global boundBoxCenter

global CenterOfMassX global CenterOfMassY global CenterOfMassZ

global boundBox_ global boundBoxLX global boundBoxLY global boundBoxLZ global boundBox_S global MatrixX1 global MatrixY1 global MatrixZ1 global Matrix_1 global MatrixX2 global MatrixY2 global MatrixZ2 global Matrix_2 global MatrixX3 global MatrixY3 global MatrixZ3 global Matrix_3 global Matrix12 global Matrix13 global Matrix14 global Matrix15

global placement_ global SaveName

global FacesSurf global EdgesLong global FacesCoor

try: atest = sel[0].Shape.Vertexes except: print "Sélection invalide" errorDialog(u"Sélection invalide") sel = "" else: sel = FreeCADGui.Selection.getSelection mydoc = FreeCAD.activeDocument.Name document_ = mydoc

try: object_ = sel[0].Label except: object_ = ""

try: SubElement = FreeCADGui.Selection.getSelectionEx element_ = SubElement[0].SubElementNames[0] except: element_ = ""

# longueur Objet try: longueurObjet = Gui.Selection.getSelectionEx[0].SubObjects[0].Length except: longueurObjet = 0.0

# tableau tableau

# surface try: surface = sel[0].Shape.Area except: surface = 0.0

try: surfaceFace = Gui.Selection.getSelectionEx[0].SubObjects[0].Area except: surfaceFace = 0.0

# volume try: volume_ = sel[0].Shape.Volume except: volume_ = 0.0

# densité poids = ((volume_ * densite) * uniteP) / 1000  # mm3   (mm base  FreeCAD)

# boundinbox (dimensions hors tout) try: boundBox_ = sel[0].Shape.BoundBox boundBoxLX = boundBox_.XLength boundBoxLY = boundBox_.YLength boundBoxLZ = boundBox_.ZLength boundBox_S = "[X: "+str(boundBoxLX * uniteM)+" "+uniteMs+"] x [Y: "+str(boundBoxLY * uniteM)+" "+uniteMs+"] x [Z:"+str(boundBoxLZ * uniteM)+" "+uniteMs+"]" except: boundBox_ = 0.0 boundBoxLX = 0.0 boundBoxLY = 0.0 boundBoxLZ = 0.0 boundBox_S = ""

# centre de la forme try: boundBoxCenterX = boundBox_.Center[0] boundBoxCenterY = boundBox_.Center[1] boundBoxCenterZ = boundBox_.Center[2] except: boundBoxCenterX = 0.0 boundBoxCenterY = 0.0 boundBoxCenterZ = 0.0

# Inclinaison mode = 1 try: Plan_xy  = angle2(sel[0].Shape.Vertexes[ReperEdge-1].Point[0],sel[0].Shape.Vertexes[ReperEdge-1].Point[1],sel[0].Shape.Vertexes[ReperEdge].Point[0],sel[0].Shape.Vertexes[ReperEdge].Point[1],mode) Plan_xy_V = "["+str(sel[0].Shape.Vertexes[ReperEdge-1].Point[0])+" "+str(sel[0].Shape.Vertexes[ReperEdge-1].Point[1])+"], ["+str(sel[0].Shape.Vertexes[ReperEdge].Point[0])+" "+str(sel[0].Shape.Vertexes[ReperEdge].Point[1])+"]" except: Plan_xy = 0.0 Plan_xy_V = "" try: Plan_yz  = angle2(sel[0].Shape.Vertexes[ReperEdge-1].Point[1],sel[0].Shape.Vertexes[ReperEdge-1].Point[2],sel[0].Shape.Vertexes[ReperEdge].Point[1],sel[0].Shape.Vertexes[ReperEdge].Point[2],mode) Plan_yz_V = "["+str(sel[0].Shape.Vertexes[ReperEdge-1].Point[1])+" "+str(sel[0].Shape.Vertexes[ReperEdge-1].Point[2])+"], ["+str(sel[0].Shape.Vertexes[ReperEdge].Point[1])+" "+str(sel[0].Shape.Vertexes[ReperEdge].Point[2])+"]" except: Plan_yz  = 0.0 Plan_yz_V  = "" try: Plan_zx  = angle2(sel[0].Shape.Vertexes[ReperEdge-1].Point[2],sel[0].Shape.Vertexes[ReperEdge-1].Point[0],sel[0].Shape.Vertexes[ReperEdge].Point[2],sel[0].Shape.Vertexes[ReperEdge].Point[0],mode) Plan_zx_V = "["+str(sel[0].Shape.Vertexes[ReperEdge-1].Point[2])+" "+str(sel[0].Shape.Vertexes[ReperEdge-1].Point[0])+"], ["+str(sel[0].Shape.Vertexes[ReperEdge].Point[2])+" "+str(sel[0].Shape.Vertexes[ReperEdge].Point[0])+"]" except: Plan_zx  = 0.0 Plan_zx_V = ""

#        # Placement #       placement_ = sel[0].Shape.Placement #       print placement_

try: typeObject = sel[0].Shape.ShapeType except: print "Erreur type Objet" typeObject = ""

selEx = FreeCADGui.Selection.getSelectionEx objs = [selobj.Object for selobj in selEx] s = objs[0].Shape

# centre de la masse try: c = s.Solids[0].CenterOfMass CenterOfMassX = c.x               CenterOfMassY = c.y                CenterOfMassZ = c.z            except: CenterOfMassX = 0.0 CenterOfMassY = 0.0 CenterOfMassZ = 0.0

# inertie try: m = s.Solids[0].MatrixOfInertia MatrixX1 = (m.A[0]) MatrixY1 = (m.A[1]) MatrixZ1 = (m.A[2]) Matrix_1 = (m.A[3])

MatrixX2 = (m.A[4]) MatrixY2 = (m.A[5]) MatrixZ2 = (m.A[6]) Matrix_2 = (m.A[7])

MatrixX3 = (m.A[8]) MatrixY3 = (m.A[9]) MatrixZ3 = (m.A[10]) Matrix_3 = (m.A[11])

Matrix12 = (m.A[12]) Matrix13 = (m.A[13]) Matrix14 = (m.A[14]) Matrix15 = (m.A[15]) except: MatrixX1 = 0.0 MatrixY1 = 0.0 MatrixZ1 = 0.0 Matrix_1 = 0.0

MatrixX2 = 0.0 MatrixY2 = 0.0 MatrixZ2 = 0.0 Matrix_2 = 0.0

MatrixX3 = 0.0 MatrixY3 = 0.0 MatrixZ3 = 0.0 Matrix_3 = 0.0

Matrix12 = 0.0 Matrix13 = 0.0 Matrix14 = 0.0 Matrix15 = 0.0

print "Debut_______________________________________________________________________" print "Nom du document         : "+document_ print "Nom de l'objet          : "+object_ print "Type d'objet            : "+typeObject print "Nom de l'élément        : "+str(element_) print "Coordonnées de la souris : X: "+str(position0)+",  Y: "+str(position1)+",  Z: "+str(position2) print "Longueur de l'objet     : "+str(longueurObjet * uniteM)+", "+uniteMs print "Périmetre de la forme   : "+str(perimetre * uniteM)+", "+uniteMs+"\n" print "Vertexes et détails     : ("+ str(compt_E) +") ("+ str(compt_F)+") ("+ str(compt_VF)+") ("+str(RowCountTest)+")\n" co = 0 aa = 0 for j in enumerate(Edges): print str(j[1])," = ",str(float(EdgesLong[co]) * float(uniteM))," ",uniteMs try: for a in range(aa,aa+6): print Vertx[a] except: None co += 1 aa += 6 print co=0 cco=0 for j in enumerate(Faces): print str(j[1])," = ",str(float(FacesSurf[co]) * float(uniteM))," ",uniteSs for jj in range(cco,len(FacesCoor)): cco+=1 if FacesCoor[jj] == "T": break else: print FacesCoor[jj] print co += 1 cco=0 print "Plan                    : XY: " + str(Plan_xy)+uniteAs+u" coordonnées: " + str(Plan_xy_V) print "Plan                    : YZ: " + str(Plan_yz)+uniteAs+u" coordonnées: " + str(Plan_yz_V) print "Plan                    : ZX: " + str(Plan_zx)+uniteAs+u" coordonnées: " + str(Plan_zx_V)+"\n" print "Surface de la forme     : "+str(surface * uniteS)+"  "+uniteSs print "Surface de la face      : "+str(surfaceFace * uniteS)+"  "+uniteSs+"\n" print "Volume de la forme      : "+str(volume_ * uniteV)+"  "+uniteVs print "Poids                   : "+str(poids)+" "+unitePs+" Densité : ",str(densite)+"\n" print "Centre de la forme      : X: "+str(boundBoxCenterX)+"  Y: "+str(boundBoxCenterY)+"  Z: "+str(boundBoxCenterZ) print "Centre de la masse      : X: "+str(CenterOfMassX)  +"  Y: "+str(CenterOfMassY)  +"  Z: "+str(CenterOfMassZ) print "Dimensions hors tout    : "+boundBox_S+"\n" print "Matrix of inertia       : X: "+str(MatrixX1)+"  Y: "+str(MatrixY1)+"  Z: "+str(MatrixZ1)+"  : "+str(Matrix_1) print "                        : X: "+str(MatrixX2)+"  Y: "+str(MatrixY2)+"  Z: "+str(MatrixZ2)+"  : "+str(Matrix_2) print "                        : X: "+str(MatrixX3)+"  Y: "+str(MatrixY3)+"  Z: "+str(MatrixZ3)+"  : "+str(Matrix_3) print "                        : X: "+str(Matrix12)+"  Y: "+str(Matrix13)+"  Z: "+str(Matrix14)+"  : "+str(Matrix15) print "Fin_________________________________________________________________________" class Ui_MainWindow(object):      # fenêtre début

def __init__(self, MainWindow): global ui       global sel global document_ global object_ global typeObject global element_ global position0 global position1 global position2 global longueurObjet global perimetre global Plan_xy global Plan_xy_V global Plan_yz global Plan_yz_V global Plan_zx global Plan_zx_V global surface global surfaceFace global volume_ global densite global poids global uniteM global uniteMs global uniteS global uniteSs global uniteV global uniteVs global uniteP global unitePs global uniteAs global boundBoxCenterX global boundBoxCenterY global boundBoxCenterZ global boundBoxCenter global CenterOfMassX global CenterOfMassY global CenterOfMassZ global boundBox_ global boundBoxLX global boundBoxLY global boundBoxLZ global boundBox_S

global MatrixX1 global MatrixY1 global MatrixZ1 global Matrix_1

global MatrixX2 global MatrixY2 global MatrixZ2 global Matrix_2

global MatrixX3 global MatrixY3 global MatrixZ3 global Matrix_3

global Matrix12 global Matrix13 global Matrix14 global Matrix15 global Vertx global Edges global EdgesLong global Faces global FacesSurf global FacesCoor global compt_E global compt_F global compt_VF global placement_ global RowCount global RowCountTest

self.window = MainWindow MainWindow.setObjectName(_fromUtf8("MainWindow")) MainWindow.resize(339, 969) self.centralWidget = QtGui.QWidget(MainWindow) self.centralWidget.setObjectName(_fromUtf8("centralWidget")) MainWindow.setWindowModality(QtCore.Qt.NonModal) MainWindow.setFocusPolicy(QtCore.Qt.NoFocus) MainWindow.setIconSize(QtCore.QSize(30, 30)) MainWindow.setToolButtonStyle(QtCore.Qt.ToolButtonIconOnly) MainWindow.setDocumentMode(True) MainWindow.setTabShape(QtGui.QTabWidget.Triangular) MainWindow.setDockOptions(QtGui.QMainWindow.AllowTabbedDocks|QtGui.QMainWindow.AnimatedDocks|QtGui.QMainWindow.VerticalTabs)
 * 1)        MainWindow.setMaximumSize(QtCore.QSize(339, 969))
 * 1)        MainWindow.verticalScrollBar

sel = FreeCADGui.Selection.getSelection if len(sel)==0: print "Sélectionnez un objet" errorDialog(u"Sélectionnez un objet") else: affect self.lineEdit_1 = QtGui.QLineEdit(self.centralWidget) self.lineEdit_1.setGeometry(QtCore.QRect(120, 10, 211, 22)) self.lineEdit_1.setObjectName(_fromUtf8("lineEdit_1")) self.lineEdit_1.setText(document_) self.lineEdit_1.setToolTip(_translate("MainWindow", "Nom du document actif.", None))
 * 1)         # Placement
 * 2)        placement_ = sel[0].Shape.Placement
 * 3)        print placement_
 * 1)        print placement_

self.lineEdit_2 = QtGui.QLineEdit(self.centralWidget) self.lineEdit_2.setGeometry(QtCore.QRect(120, 40, 101, 22)) self.lineEdit_2.setObjectName(_fromUtf8("lineEdit_2")) self.lineEdit_2.setText(object_) self.lineEdit_2.setToolTip(_translate("MainWindow",u"Nom de l'objet séléctionné.", None))

self.lineEdit_2a = QtGui.QLineEdit(self.centralWidget) self.lineEdit_2a.setGeometry(QtCore.QRect(230, 40, 101, 22)) self.lineEdit_2a.setObjectName(_fromUtf8("lineEdit_2a")) self.lineEdit_2a.setText(typeObject) self.lineEdit_2a.setToolTip(_translate("MainWindow","Type de forme de l'objet.", None))

self.lineEdit_3 = QtGui.QLineEdit(self.centralWidget) self.lineEdit_3.setGeometry(QtCore.QRect(120, 70, 211, 22)) self.lineEdit_3.setObjectName(_fromUtf8("lineEdit_3")) self.lineEdit_3.setText(str(element_)) self.lineEdit_3.setToolTip(_translate("MainWindow",u"Nom de l'élément sélectionné.", None))

self.lineEdit_4x = QtGui.QLineEdit(self.centralWidget) self.lineEdit_4x.setGeometry(QtCore.QRect(10, 140, 101, 22)) self.lineEdit_4x.setObjectName(_fromUtf8("lineEdit_4x")) self.lineEdit_4x.setText(str(position0)) self.lineEdit_4x.setToolTip(_translate("MainWindow",u"Coordonnée X du clic de la souris.", None))

self.lineEdit_4y = QtGui.QLineEdit(self.centralWidget) self.lineEdit_4y.setGeometry(QtCore.QRect(120, 140, 101, 22)) self.lineEdit_4y.setObjectName(_fromUtf8("lineEdit_4y")) self.lineEdit_4y.setText(str(position1)) self.lineEdit_4y.setToolTip(_translate("MainWindow",u"Coordonnée Y du clic de la souris.", None))

self.lineEdit_4z = QtGui.QLineEdit(self.centralWidget) self.lineEdit_4z.setGeometry(QtCore.QRect(230, 140, 101, 22)) self.lineEdit_4z.setObjectName(_fromUtf8("lineEdit_4z")) self.lineEdit_4z.setText(str(position2)) self.lineEdit_4z.setToolTip(_translate("MainWindow",u"Coordonnée Z du clic de la souris.", None))

self.lineEdit_5 = QtGui.QLineEdit(self.centralWidget) self.lineEdit_5.setGeometry(QtCore.QRect(120, 170, 211, 22)) self.lineEdit_5.setObjectName(_fromUtf8("lineEdit_5")) self.lineEdit_5.setText(str(longueurObjet)) self.lineEdit_5.setToolTip(_translate("MainWindow",u"Longueur de l'objet.\nSi une face est sélectionnée le périmètre de la face sera affiché.", None))

self.lineEdit_6 = QtGui.QLineEdit(self.centralWidget) self.lineEdit_6.setGeometry(QtCore.QRect(120, 200, 211, 22)) self.lineEdit_6.setObjectName(_fromUtf8("lineEdit_6")) self.lineEdit_6.setText(str(perimetre)) self.lineEdit_6.setToolTip(_translate("MainWindow",u"Périmètre total de la forme.", None))

self.tableWidget = QtGui.QTableWidget(self.centralWidget) self.tableWidget.setGeometry(QtCore.QRect(10, 250, 320, 70)) self.tableWidget.setIconSize(QtCore.QSize(15, 15)) self.tableWidget.setRowCount(RowCount) self.tableWidget.setColumnCount(8)                                # nombre de colonnes self.tableWidget.setObjectName(_fromUtf8("tableWidget")) self.tableWidget.horizontalHeader.setVisible(False) self.tableWidget.horizontalHeader.setDefaultSectionSize(100) self.tableWidget.horizontalHeader.setMinimumSectionSize(15) self.tableWidget.verticalHeader.setVisible(True) self.tableWidget.verticalHeader.setCascadingSectionResizes(False) self.tableWidget.verticalHeader.setDefaultSectionSize(20) self.tableWidget.verticalHeader.setMinimumSectionSize(20) self.tableWidget.setToolTip(_translate("MainWindow",u"Tableau d'affichage du détail de la forme.\nSeul les 200 premiers détails de la forme sont affichés.\nTous les éléments seront visibles dans le fichier après l'avoir sauvé.", None))

self.pushButton_Ra = QtGui.QPushButton(self.centralWidget) self.pushButton_Ra.setGeometry(QtCore.QRect(35, 338, 91, 20)) self.pushButton_Ra.setObjectName(_fromUtf8("pushButton_Ra")) self.pushButton_Ra.clicked.connect(self.on_pushButton_Ra_clicked) #connection pushButton_Ra "Radian" self.pushButton_Ra.setToolTip(_translate("MainWindow",u"Bascule entre Degrés décimal, Degrés minutes secondes\nRadian, Grade.", None))

self.lineEdit_8xy = QtGui.QLineEdit(self.centralWidget) self.lineEdit_8xy.setGeometry(QtCore.QRect(35, 360, 91, 22)) self.lineEdit_8xy.setObjectName(_fromUtf8("lineEdit_8xy")) self.lineEdit_8xy.setText(str(Plan_xy)+uniteAs) self.lineEdit_8xy.setToolTip(_translate("MainWindow",u"Angle dans le plan XY.", None))

self.lineEdit_8xya = QtGui.QLineEdit(self.centralWidget) self.lineEdit_8xya.setGeometry(QtCore.QRect(130, 360, 201, 22)) self.lineEdit_8xya.setObjectName(_fromUtf8("lineEdit_8xya")) self.lineEdit_8xya.setText(str(Plan_xy_V))

self.lineEdit_8yz = QtGui.QLineEdit(self.centralWidget) self.lineEdit_8yz.setGeometry(QtCore.QRect(35, 390, 91, 22)) self.lineEdit_8yz.setObjectName(_fromUtf8("lineEdit_8yz")) self.lineEdit_8yz.setText(str(Plan_yz)+uniteAs) self.lineEdit_8yz.setToolTip(_translate("MainWindow",u"Angle dans le plan YZ.", None))

self.lineEdit_8yza = QtGui.QLineEdit(self.centralWidget) self.lineEdit_8yza.setGeometry(QtCore.QRect(130, 390, 201, 22)) self.lineEdit_8yza.setObjectName(_fromUtf8("lineEdit_8yza")) self.lineEdit_8yza.setText(str(Plan_yz_V))

self.lineEdit_8zx = QtGui.QLineEdit(self.centralWidget) self.lineEdit_8zx.setGeometry(QtCore.QRect(35, 420, 91, 22)) self.lineEdit_8zx.setObjectName(_fromUtf8("lineEdit_8zx")) self.lineEdit_8zx.setText(str(Plan_zx)+uniteAs) self.lineEdit_8zx.setToolTip(_translate("MainWindow",u"Angle dans le plan ZX.", None))

self.lineEdit_8zxa = QtGui.QLineEdit(self.centralWidget) self.lineEdit_8zxa.setGeometry(QtCore.QRect(130, 420, 201, 22)) self.lineEdit_8zxa.setObjectName(_fromUtf8("lineEdit_8zxa")) self.lineEdit_8zxa.setText(str(Plan_zx_V))

self.lineEdit_9a = QtGui.QLineEdit(self.centralWidget) self.lineEdit_9a.setGeometry(QtCore.QRect(130, 450, 201, 22)) self.lineEdit_9a.setObjectName(_fromUtf8("lineEdit_9a")) self.lineEdit_9a.setText(str(surface)) self.lineEdit_9a.setToolTip(_translate("MainWindow",u"Surface totale de la forme.", None))

self.lineEdit_10a = QtGui.QLineEdit(self.centralWidget) self.lineEdit_10a.setGeometry(QtCore.QRect(130, 480, 201, 22)) self.lineEdit_10a.setObjectName(_fromUtf8("lineEdit_10a")) self.lineEdit_10a.setText(str(surfaceFace)) self.lineEdit_10a.setToolTip(_translate("MainWindow",u"Surface de la face.", None))

self.lineEdit_11a = QtGui.QLineEdit(self.centralWidget) self.lineEdit_11a.setGeometry(QtCore.QRect(130, 510, 201, 22)) self.lineEdit_11a.setObjectName(_fromUtf8("lineEdit_11a")) self.lineEdit_11a.setText(str(volume_)) self.lineEdit_11a.setToolTip(_translate("MainWindow",u"Volume total de la forme.", None))

self.lineEdit_12a = QtGui.QLineEdit(self.centralWidget) self.lineEdit_12a.setGeometry(QtCore.QRect(130, 540, 131, 22)) self.lineEdit_12a.setObjectName(_fromUtf8("lineEdit_12a")) self.lineEdit_12a.setText(str(poids)+" "+unitePs) self.lineEdit_12a.setToolTip(_translate("MainWindow",u"Poids de la forme dans l'unité sélectionnée.", None))

self.lineEdit_13x = QtGui.QLineEdit(self.centralWidget) self.lineEdit_13x.setGeometry(QtCore.QRect(10, 610, 101, 22)) self.lineEdit_13x.setObjectName(_fromUtf8("lineEdit_13x")) self.lineEdit_13x.setText(str(boundBoxCenterX)) self.lineEdit_13x.setToolTip(_translate("MainWindow",u"Coordonnée X du centre de la forme.", None))

self.lineEdit_13y = QtGui.QLineEdit(self.centralWidget) self.lineEdit_13y.setGeometry(QtCore.QRect(120, 610, 101, 22)) self.lineEdit_13y.setObjectName(_fromUtf8("lineEdit_13y")) self.lineEdit_13y.setText(str(boundBoxCenterY)) self.lineEdit_13y.setToolTip(_translate("MainWindow",u"Coordonnée Y du centre de la forme.", None))

self.lineEdit_13z = QtGui.QLineEdit(self.centralWidget) self.lineEdit_13z.setGeometry(QtCore.QRect(230, 610, 101, 22)) self.lineEdit_13z.setObjectName(_fromUtf8("lineEdit_13z")) self.lineEdit_13z.setText(str(boundBoxCenterZ)) self.lineEdit_13z.setToolTip(_translate("MainWindow",u"Coordonnée Z du centre de la forme.", None))

self.lineEdit_14x = QtGui.QLineEdit(self.centralWidget) self.lineEdit_14x.setGeometry(QtCore.QRect(10, 680, 101, 22)) self.lineEdit_14x.setObjectName(_fromUtf8("lineEdit_14x")) self.lineEdit_14x.setText(str(CenterOfMassX)) self.lineEdit_14x.setToolTip(_translate("MainWindow",u"Coordonnée X du centre de la masse", None))

self.lineEdit_14y = QtGui.QLineEdit(self.centralWidget) self.lineEdit_14y.setGeometry(QtCore.QRect(120, 680, 101, 22)) self.lineEdit_14y.setObjectName(_fromUtf8("lineEdit_14y")) self.lineEdit_14y.setText(str(CenterOfMassY)) self.lineEdit_14y.setToolTip(_translate("MainWindow",u"Coordonnée Y du centre de la masse", None))

self.lineEdit_14z = QtGui.QLineEdit(self.centralWidget) self.lineEdit_14z.setGeometry(QtCore.QRect(230, 680, 101, 22)) self.lineEdit_14z.setObjectName(_fromUtf8("lineEdit_14z")) self.lineEdit_14z.setText(str(CenterOfMassZ)) self.lineEdit_14z.setToolTip(_translate("MainWindow",u"Coordonnée Z du centre de la masse", None))

self.lineEdit_15 = QtGui.QLineEdit(self.centralWidget) self.lineEdit_15.setGeometry(QtCore.QRect(120, 710, 211, 22)) self.lineEdit_15.setObjectName(_fromUtf8("lineEdit_15")) self.lineEdit_15.setText(boundBox_S) self.lineEdit_15.setToolTip(_translate("MainWindow",u"Dimensions hors tout de la forme.", None))

self.lineEdit_16_1x = QtGui.QLineEdit(self.centralWidget) self.lineEdit_16_1x.setGeometry(QtCore.QRect(10, 780, 86, 22)) self.lineEdit_16_1x.setObjectName(_fromUtf8("lineEdit_16_1x")) self.lineEdit_16_1x.setText(str(MatrixX1))

self.lineEdit_16_1y = QtGui.QLineEdit(self.centralWidget) self.lineEdit_16_1y.setGeometry(QtCore.QRect(105, 780, 86, 22)) self.lineEdit_16_1y.setObjectName(_fromUtf8("lineEdit_16_1y")) self.lineEdit_16_1y.setText(str(MatrixY1))

self.lineEdit_16_1z = QtGui.QLineEdit(self.centralWidget) self.lineEdit_16_1z.setGeometry(QtCore.QRect(200, 780, 86, 22)) self.lineEdit_16_1z.setObjectName(_fromUtf8("lineEdit_16_1z")) self.lineEdit_16_1z.setText(str(MatrixZ1))

self.lineEdit_16_01 = QtGui.QLineEdit(self.centralWidget) self.lineEdit_16_01.setGeometry(QtCore.QRect(295, 780, 36, 22)) self.lineEdit_16_01.setObjectName(_fromUtf8("lineEdit_16_01")) self.lineEdit_16_01.setText(str(Matrix_1))

self.lineEdit_16_2x = QtGui.QLineEdit(self.centralWidget) self.lineEdit_16_2x.setGeometry(QtCore.QRect(10, 810, 86, 22)) self.lineEdit_16_2x.setObjectName(_fromUtf8("lineEdit_16_2x")) self.lineEdit_16_2x.setText(str(MatrixX2))

self.lineEdit_16_2y = QtGui.QLineEdit(self.centralWidget) self.lineEdit_16_2y.setGeometry(QtCore.QRect(105, 810, 86, 22)) self.lineEdit_16_2y.setObjectName(_fromUtf8("lineEdit_16_2y")) self.lineEdit_16_2y.setText(str(MatrixY2))

self.lineEdit_16_2z = QtGui.QLineEdit(self.centralWidget) self.lineEdit_16_2z.setGeometry(QtCore.QRect(200, 810, 86, 22)) self.lineEdit_16_2z.setObjectName(_fromUtf8("lineEdit_16_2z")) self.lineEdit_16_2z.setText(str(MatrixZ2))

self.lineEdit_16_02 = QtGui.QLineEdit(self.centralWidget) self.lineEdit_16_02.setGeometry(QtCore.QRect(295, 810, 36, 22)) self.lineEdit_16_02.setObjectName(_fromUtf8("lineEdit_16_02")) self.lineEdit_16_02.setText(str(Matrix_2))

self.lineEdit_16_3x = QtGui.QLineEdit(self.centralWidget) self.lineEdit_16_3x.setGeometry(QtCore.QRect(10, 840, 86, 22)) self.lineEdit_16_3x.setObjectName(_fromUtf8("lineEdit_16_3x")) self.lineEdit_16_3x.setText(str(MatrixX3))

self.lineEdit_16_3y = QtGui.QLineEdit(self.centralWidget) self.lineEdit_16_3y.setGeometry(QtCore.QRect(105, 840, 86, 22)) self.lineEdit_16_3y.setObjectName(_fromUtf8("lineEdit_16_3y")) self.lineEdit_16_3y.setText(str(MatrixY3))

self.lineEdit_16_3z = QtGui.QLineEdit(self.centralWidget) self.lineEdit_16_3z.setGeometry(QtCore.QRect(200, 840, 86, 22)) self.lineEdit_16_3z.setObjectName(_fromUtf8("lineEdit_16_3z")) self.lineEdit_16_3z.setText(str(MatrixZ3))

self.lineEdit_16_03 = QtGui.QLineEdit(self.centralWidget) self.lineEdit_16_03.setGeometry(QtCore.QRect(295, 840, 36, 22)) self.lineEdit_16_03.setObjectName(_fromUtf8("lineEdit_16_03")) self.lineEdit_16_03.setText(str(Matrix_3))

self.lineEdit_16_4x = QtGui.QLineEdit(self.centralWidget) self.lineEdit_16_4x.setGeometry(QtCore.QRect(10, 870, 86, 22)) self.lineEdit_16_4x.setObjectName(_fromUtf8("lineEdit_16_4x")) self.lineEdit_16_4x.setText(str(Matrix12))

self.lineEdit_16_4y = QtGui.QLineEdit(self.centralWidget) self.lineEdit_16_4y.setGeometry(QtCore.QRect(105, 870, 86, 22)) self.lineEdit_16_4y.setObjectName(_fromUtf8("lineEdit_16_4y")) self.lineEdit_16_4y.setText(str(Matrix13))

self.lineEdit_16_4z = QtGui.QLineEdit(self.centralWidget) self.lineEdit_16_4z.setGeometry(QtCore.QRect(200, 870, 86, 22)) self.lineEdit_16_4z.setObjectName(_fromUtf8("lineEdit_16_4z")) self.lineEdit_16_4z.setText(str(Matrix14))

self.lineEdit_16_04 = QtGui.QLineEdit(self.centralWidget) self.lineEdit_16_04.setGeometry(QtCore.QRect(295, 870, 36, 22)) self.lineEdit_16_04.setObjectName(_fromUtf8("lineEdit_16_04")) self.lineEdit_16_04.setText(str(Matrix15))


 * 1)        self.pushButton_Raf = QtGui.QPushButton(self.centralWidget)
 * 2)        self.pushButton_Raf.setGeometry(QtCore.QRect(10, 900, 86, 28))
 * 3)        self.pushButton_Raf.setObjectName(_fromUtf8("pushButton_Ra"))
 * 4)        self.pushButton_Raf.clicked.connect(self.on_pushButton_Raf_clicked) #connection pushButton_Raf "Rafraichir"

self.pushButton_Raf = QtGui.QPushButton(self.centralWidget) self.pushButton_Raf.setGeometry(QtCore.QRect(10, 900, 86, 28)) self.pushButton_Raf.setObjectName(_fromUtf8("pushButton_Ra")) self.pushButton_Raf.clicked.connect(self.on_pushButton_Lec_clicked) #connection pushButton_Lec "Lecture"

self.pushButton_En = QtGui.QPushButton(self.centralWidget) self.pushButton_En.setGeometry(QtCore.QRect(105, 900, 86, 28)) self.pushButton_En.setObjectName(_fromUtf8("pushButton_En")) self.pushButton_En.clicked.connect(self.on_pushButton_En_clicked) #connection pushButton_En "Enregistrer"

self.pushButton_Q = QtGui.QPushButton(self.centralWidget) self.pushButton_Q.setGeometry(QtCore.QRect(200, 900, 86, 28)) self.pushButton_Q.setObjectName(_fromUtf8("pushButton_Q")) self.pushButton_Q.clicked.connect(self.on_pushButton02_clicked) #connection pushButton02 "Quitter"

self.label_1 = QtGui.QLabel(self.centralWidget) self.label_1.setGeometry(QtCore.QRect(10, 10, 111, 16)) self.label_1.setObjectName(_fromUtf8("label_1")) self.label_2 = QtGui.QLabel(self.centralWidget) self.label_2.setGeometry(QtCore.QRect(10, 40, 101, 16)) self.label_2.setObjectName(_fromUtf8("label_2")) self.label_3 = QtGui.QLabel(self.centralWidget) self.label_3.setGeometry(QtCore.QRect(10, 70, 111, 16)) self.label_3.setObjectName(_fromUtf8("label_3")) self.label_4 = QtGui.QLabel(self.centralWidget) self.label_4.setGeometry(QtCore.QRect(10, 100, 171, 16)) self.label_4.setObjectName(_fromUtf8("label_4")) self.label_4x = QtGui.QLabel(self.centralWidget) self.label_4x.setGeometry(QtCore.QRect(20, 120, 21, 16)) font = QtGui.QFont font.setBold(True) font.setWeight(75) self.label_4x.setFont(font) self.label_4x.setObjectName(_fromUtf8("label_4x")) self.label_4y = QtGui.QLabel(self.centralWidget) self.label_4y.setGeometry(QtCore.QRect(130, 120, 21, 16)) font = QtGui.QFont font.setBold(True) font.setWeight(75) self.label_4y.setFont(font) self.label_4y.setObjectName(_fromUtf8("label_4y")) self.label_4z = QtGui.QLabel(self.centralWidget) self.label_4z.setGeometry(QtCore.QRect(240, 120, 21, 16)) font = QtGui.QFont font.setBold(True) font.setWeight(75) self.label_4z.setFont(font) self.label_4z.setObjectName(_fromUtf8("label_4z")) self.label_5 = QtGui.QLabel(self.centralWidget) self.label_5.setGeometry(QtCore.QRect(10, 172, 121, 16)) self.label_5.setObjectName(_fromUtf8("label_5"))

self.comboBox = QtGui.QComboBox(self.centralWidget) self.comboBox.setGeometry(QtCore.QRect(30, 170, 81, 22)) self.comboBox.setObjectName(_fromUtf8("comboBox")) self.comboBox.addItem(_fromUtf8("")) self.comboBox.addItem(_fromUtf8("")) self.comboBox.addItem(_fromUtf8("")) self.comboBox.addItem(_fromUtf8("")) self.comboBox.addItem(_fromUtf8("")) self.comboBox.addItem(_fromUtf8("")) self.comboBox.addItem(_fromUtf8("")) self.comboBox.addItem(_fromUtf8("")) self.comboBox.addItem(_fromUtf8("")) self.comboBox.addItem(_fromUtf8("")) self.comboBox.addItem(_fromUtf8("")) self.comboBox.addItem(_fromUtf8("")) self.comboBox.addItem(_fromUtf8("")) self.comboBox.addItem(_fromUtf8("")) self.comboBox.addItem(_fromUtf8("")) self.comboBox.addItem(_fromUtf8("")) self.comboBox.addItem(_fromUtf8("")) self.comboBox.setToolTip(_translate("MainWindow",u"Sélectionne une unité de longueur.", None)) QtCore.QObject.connect(self.comboBox, QtCore.SIGNAL("currentIndexChanged(QString)"), self.SIGNAL_comboBox_Changed) #sans accentué

self.label_6 = QtGui.QLabel(self.centralWidget) self.label_6.setGeometry(QtCore.QRect(10, 200, 131, 16)) self.label_6.setObjectName(_fromUtf8("label_6")) self.label_7 = QtGui.QLabel(self.centralWidget) self.label_7.setGeometry(QtCore.QRect(10, 230, 320, 16)) self.label_7.setObjectName(_fromUtf8("label_7")) self.label_8 = QtGui.QLabel(self.centralWidget) self.label_8.setGeometry(QtCore.QRect(10, 320, 71, 16)) self.label_8.setObjectName(_fromUtf8("label_8")) self.label_8a = QtGui.QLabel(self.centralWidget) self.label_8a.setGeometry(QtCore.QRect(10, 340, 31, 16)) self.label_8a.setObjectName(_fromUtf8("label_8a")) self.label_8a_2 = QtGui.QLabel(self.centralWidget) self.label_8a_2.setGeometry(QtCore.QRect(135, 340, 91, 16)) self.label_8a_2.setObjectName(_fromUtf8("label_8a")) self.label_8xy = QtGui.QLabel(self.centralWidget) self.label_8xy.setGeometry(QtCore.QRect(13, 360, 21, 16)) font = QtGui.QFont font.setBold(True) font.setWeight(75) self.label_8xy.setFont(font) self.label_8xy.setObjectName(_fromUtf8("label_8xy")) self.label_8yz = QtGui.QLabel(self.centralWidget) self.label_8yz.setGeometry(QtCore.QRect(13, 390, 16, 16)) font = QtGui.QFont font.setBold(True) font.setWeight(75) self.label_8yz.setFont(font) self.label_8yz.setObjectName(_fromUtf8("label_8yz")) self.label_8zx = QtGui.QLabel(self.centralWidget) self.label_8zx.setGeometry(QtCore.QRect(13, 420, 21, 16)) font = QtGui.QFont font.setBold(True) font.setWeight(75) self.label_8zx.setFont(font) self.label_8zx.setObjectName(_fromUtf8("label_8zx")) self.label_9 = QtGui.QLabel(self.centralWidget) self.label_9.setGeometry(QtCore.QRect(10, 450, 121, 16)) self.label_9.setObjectName(_fromUtf8("label_9")) self.label_10 = QtGui.QLabel(self.centralWidget) self.label_10.setGeometry(QtCore.QRect(10, 480, 121, 16)) self.label_10.setObjectName(_fromUtf8("label_10")) self.label_11 = QtGui.QLabel(self.centralWidget) self.label_11.setGeometry(QtCore.QRect(10, 510, 121, 16)) self.label_11.setObjectName(_fromUtf8("label_11")) self.label_12 = QtGui.QLabel(self.centralWidget) self.label_12.setGeometry(QtCore.QRect(10, 542, 81, 16)) self.label_12.setObjectName(_fromUtf8("label_12"))

self.comboBox2 = QtGui.QComboBox(self.centralWidget) self.comboBox2.setGeometry(QtCore.QRect(10, 540, 115, 22)) self.comboBox2.setObjectName(_fromUtf8("comboPoids")) self.comboBox2.addItem(_fromUtf8("")) self.comboBox2.addItem(_fromUtf8("")) self.comboBox2.addItem(_fromUtf8("")) self.comboBox2.addItem(_fromUtf8("")) self.comboBox2.addItem(_fromUtf8("")) self.comboBox2.addItem(_fromUtf8("")) self.comboBox2.addItem(_fromUtf8("")) self.comboBox2.addItem(_fromUtf8("")) self.comboBox2.addItem(_fromUtf8("")) self.comboBox2.addItem(_fromUtf8("")) self.comboBox2.addItem(_fromUtf8("")) self.comboBox2.addItem(_fromUtf8("")) self.comboBox2.addItem(_fromUtf8("")) self.comboBox2.addItem(_fromUtf8("")) self.comboBox2.addItem(_fromUtf8("")) self.comboBox2.addItem(_fromUtf8("")) self.comboBox2.addItem(_fromUtf8("")) self.comboBox2.addItem(_fromUtf8("")) self.comboBox2.addItem(_fromUtf8("")) self.comboBox2.addItem(_fromUtf8("")) self.comboBox2.setToolTip(_translate("MainWindow",u"Sélectionne une unité de masse.", None)) QtCore.QObject.connect(self.comboBox2, QtCore.SIGNAL("currentIndexChanged(QString)"), self.SIGNAL_comboPoids_Changed) #sans accentué

self.doubleSpinBox = QtGui.QDoubleSpinBox(self.centralWidget) self.doubleSpinBox.setGeometry(QtCore.QRect(270, 540, 61, 22)) self.doubleSpinBox.setSingleStep(0.01) self.doubleSpinBox.setProperty("value", densite) self.doubleSpinBox.setObjectName(_fromUtf8("doubleSpinBox")) self.doubleSpinBox.setToolTip(_translate("MainWindow",u"Sélectionne la densite du volume en Kg par dm3.", None)) self.doubleSpinBox.valueChanged.connect(self.on_doubleSpinBox_valueChanged) #connection doubleSpinBox

self.label_13 = QtGui.QLabel(self.centralWidget) self.label_13.setGeometry(QtCore.QRect(10, 570, 141, 16)) self.label_13.setObjectName(_fromUtf8("label_13")) self.label_13x = QtGui.QLabel(self.centralWidget) self.label_13x.setGeometry(QtCore.QRect(20, 590, 21, 16)) font = QtGui.QFont font.setBold(True) font.setWeight(75) self.label_13x.setFont(font) self.label_13x.setObjectName(_fromUtf8("label_13x")) self.label_13y = QtGui.QLabel(self.centralWidget) self.label_13y.setGeometry(QtCore.QRect(130, 590, 21, 16)) font = QtGui.QFont font.setBold(True) font.setWeight(75) self.label_13y.setFont(font) self.label_13y.setObjectName(_fromUtf8("label_13y")) self.label_13z = QtGui.QLabel(self.centralWidget) self.label_13z.setGeometry(QtCore.QRect(240, 590, 21, 16)) font = QtGui.QFont font.setBold(True) font.setWeight(75) self.label_13z.setFont(font) self.label_13z.setObjectName(_fromUtf8("label_13z")) self.label_14 = QtGui.QLabel(self.centralWidget) self.label_14.setGeometry(QtCore.QRect(10, 640, 141, 16)) self.label_14.setObjectName(_fromUtf8("label_14")) self.label_14x = QtGui.QLabel(self.centralWidget) self.label_14x.setGeometry(QtCore.QRect(20, 660, 21, 16)) font = QtGui.QFont font.setBold(True) font.setWeight(75) self.label_14x.setFont(font) self.label_14x.setObjectName(_fromUtf8("label_14x")) self.label_14y = QtGui.QLabel(self.centralWidget) self.label_14y.setGeometry(QtCore.QRect(130, 660, 16, 16)) font = QtGui.QFont font.setBold(True) font.setWeight(75) self.label_14y.setFont(font) self.label_14y.setObjectName(_fromUtf8("label_14y")) self.label_14z = QtGui.QLabel(self.centralWidget) self.label_14z.setGeometry(QtCore.QRect(240, 660, 21, 16)) font = QtGui.QFont font.setBold(True) font.setWeight(75) self.label_14z.setFont(font) self.label_14z.setObjectName(_fromUtf8("label_14z"))

self.label_15 = QtGui.QLabel(self.centralWidget) self.label_15.setGeometry(QtCore.QRect(10, 710, 131, 16)) self.label_15.setObjectName(_fromUtf8("label_15"))

self.label_16 = QtGui.QLabel(self.centralWidget) self.label_16.setGeometry(QtCore.QRect(10, 740, 101, 16)) self.label_16.setObjectName(_fromUtf8("label_16"))

self.label_16x = QtGui.QLabel(self.centralWidget) self.label_16x.setGeometry(QtCore.QRect(20, 760, 31, 16)) font = QtGui.QFont font.setBold(True) font.setWeight(75) self.label_16x.setFont(font) self.label_16x.setObjectName(_fromUtf8("label_16x"))

self.label_16y = QtGui.QLabel(self.centralWidget) self.label_16y.setGeometry(QtCore.QRect(110, 760, 21, 16)) font = QtGui.QFont font.setBold(True) font.setWeight(75) self.label_16y.setFont(font) self.label_16y.setObjectName(_fromUtf8("label_16y"))

self.label_16z = QtGui.QLabel(self.centralWidget) self.label_16z.setGeometry(QtCore.QRect(210, 760, 21, 16)) font = QtGui.QFont font.setBold(True) font.setWeight(75) self.label_16z.setFont(font) self.label_16z.setObjectName(_fromUtf8("label_16z"))

MainWindow.setCentralWidget(self.centralWidget) self.menuBar = QtGui.QMenuBar(MainWindow) self.menuBar.setGeometry(QtCore.QRect(0, 0, 410, 26)) self.menuBar.setObjectName(_fromUtf8("menuBar")) MainWindow.setMenuBar(self.menuBar) self.statusBar = QtGui.QStatusBar(MainWindow) self.statusBar.setObjectName(_fromUtf8("statusBar")) MainWindow.setStatusBar(self.statusBar)

self.retranslateUi(MainWindow) self.comboBox.setCurrentIndex(6) QtCore.QMetaObject.connectSlotsByName(MainWindow)

def retranslateUi(self, MainWindow): MainWindow.setWindowTitle(_translate("MainWindow", "FCInfo", None)) MainWindow.setWindowFlags(PyQt4.QtCore.Qt.WindowStaysOnTopHint) # cette fonction met la fenêtre en avant MainWindow.setWindowIcon(QtGui.QIcon(path+'FCInfo.png'))        # change l'icône de la fenêtre principale self.label_1.setText(_translate("MainWindow", "Nom du document", None)) self.label_2.setText(_translate("MainWindow", "Nom / Type", None)) self.label_3.setText(_translate("MainWindow", "Nom du sub. objet", None)) self.label_4.setText(_translate("MainWindow", "Coordonnées au clic de souris", None)) self.label_4x.setText(_translate("MainWindow", "X", None)) self.label_4y.setText(_translate("MainWindow", "Y", None)) self.label_4z.setText(_translate("MainWindow", "Z", None)) self.label_5.setText(_translate("MainWindow", "Lg.", None)) #http://fr.wikipedia.org/wiki/Unit%C3%A9s_de_mesure_anglo-saxonnes self.comboBox.setItemText(0, _translate("MainWindow", "km", None))        #km #        = 1000000 self.comboBox.setItemText(1, _translate("MainWindow", "hm", None))        #hm #        = 100000 self.comboBox.setItemText(2, _translate("MainWindow", "dam", None))       #dam#        = 10000 self.comboBox.setItemText(3, _translate("MainWindow", "m", None))         #m  #        = 1000 self.comboBox.setItemText(4, _translate("MainWindow", "dm", None))        #dm #        = 100 self.comboBox.setItemText(5, _translate("MainWindow", "cm", None))        #cm #        = 10 self.comboBox.setItemText(6, _translate("MainWindow", "mm", None))        #mm #        = 1 self.comboBox.setItemText(7, _translate("MainWindow", "inch", None))      #in # inch  pouce    = 25.400 self.comboBox.setItemText(8, _translate("MainWindow", "link", None))      #lk # link  chaînon  = 201.168 self.comboBox.setItemText(9, _translate("MainWindow", "foot", None))      #ft # foot  pied     = 304.800 self.comboBox.setItemText(10, _translate("MainWindow", "yard", None))     #yd # yard  verge    = 914.400 self.comboBox.setItemText(11, _translate("MainWindow", "perch", None))    #rd # rod ou perch   perche   = 5029.200 self.comboBox.setItemText(12, _translate("MainWindow", "chain", None))    #ch # chain chaîne   = 20116.800 self.comboBox.setItemText(13, _translate("MainWindow", "furlong", None))  #fur# furlong        = 201168 self.comboBox.setItemText(14, _translate("MainWindow", "mile", None))     #mi # mile           = 1609344 self.comboBox.setItemText(15, _translate("MainWindow", "league", None))   #lea# league lieue   = 4828032 self.comboBox.setItemText(16, _translate("MainWindow", "nautique", None)) #nmi# mile nautique  = 1852000 self.label_6.setText(_translate("MainWindow", "Périm. de la forme", None)) if RowCountTest > RowCount: self.label_7.setText(_translate("MainWindow", "Détails ("+ str(compt_E) +") ("+ str(compt_F)+") ("+ str(compt_VF)+") (!+ "+str(RowCount)+") "+str(RowCountTest), None)) else: self.label_7.setText(_translate("MainWindow", "Vertexes et détails ("+ str(compt_E) +") ("+ str(compt_F)+") ("+ str(compt_VF)+")", None))#str(RowCount) self.label_8.setText(_translate("MainWindow", "Inclinaisons", None)) self.pushButton_Ra.setText(_translate("MainWindow", "Degré", None)) self.label_8a.setText(_translate("MainWindow", "Plan", None)) self.label_8a_2.setText(_translate("MainWindow", "Coordonnées", None)) self.label_8xy.setText(_translate("MainWindow", "XY", None)) self.label_8yz.setText(_translate("MainWindow", "YZ", None)) self.label_8zx.setText(_translate("MainWindow", "ZX", None)) self.label_9.setText(_translate("MainWindow", "Surface de la forme", None)) self.label_10.setText(_translate("MainWindow", "Surface de la face", None)) self.label_11.setText(_translate("MainWindow", "Volume de la forme", None)) self.label_12.setText(_translate("MainWindow", "Po.", None))
 * 1)        MainWindow.setWindowFlags(PyQt4.QtCore.Qt.FramelessWindowHint)  # cette fonction supprime le cadre et les bouton de la fenêtre
 * 1)        self.label_2a.setText(_translate("MainWindow", "Nom de l\'objet", None))

self.comboBox2.setCurrentIndex(5) self.comboBox2.setItemText(0, _translate("MainWindow", "tonne", None))         #t    #   = 1000000 self.comboBox2.setItemText(1, _translate("MainWindow", "quintal", None))       #q    #   = 100000 self.comboBox2.setItemText(2, _translate("MainWindow", "kilo gramme", None))   #kg   #   = 1000 self.comboBox2.setItemText(3, _translate("MainWindow", "hecto gramme", None))  #hg   #   = 100 self.comboBox2.setItemText(4, _translate("MainWindow", "décagramme", None))    #dag  #   = 10 self.comboBox2.setItemText(5, _translate("MainWindow", "gramme", None))        #g    #   = 1 self.comboBox2.setItemText(6, _translate("MainWindow", "décigramme", None))    #dg   #   = 0.1 self.comboBox2.setItemText(7, _translate("MainWindow", "centigramme", None))   #cg   #   = 0.01 self.comboBox2.setItemText(8, _translate("MainWindow", "milligramme", None))   #mg   #   = 0.001 self.comboBox2.setItemText(9, _translate("MainWindow", "grain", None))         #gr   #   = 0.06479891 g        self.comboBox2.setItemText(10, _translate("MainWindow", "drachm", None))        #dr   #   = 1.7718451953125 g        self.comboBox2.setItemText(11, _translate("MainWindow", "once", None))          #oz   #   = 28.3495231250 g        self.comboBox2.setItemText(12, _translate("MainWindow", "once troy", None))     #oz t #   = 31.1034768 g  once troy self.comboBox2.setItemText(13, _translate("MainWindow", "livre troy", None))   #lb t #   = 373.2417216 g  livre de troy self.comboBox2.setItemText(14, _translate("MainWindow", "livre av", None))     #lb   #   = 453.59237 g  livre avoirdupois pound self.comboBox2.setItemText(15, _translate("MainWindow", "stone", None))        #st   #   = 6350.29318 g        self.comboBox2.setItemText(16, _translate("MainWindow", "quarter", None))       #qtr  #   = 12700.58636 g        self.comboBox2.setItemText(17, _translate("MainWindow", "hundredweight", None)) #cwt  #   = 50802.34544 g        self.comboBox2.setItemText(18, _translate("MainWindow", "tonneau fr", None))    #     #   = 0.00000102145045965 g        self.comboBox2.setItemText(19, _translate("MainWindow", "carat", None))         #cd   #   = 0.2 g

self.label_13.setText(_translate("MainWindow", "Centre de la forme", None)) self.label_13x.setText(_translate("MainWindow", "X", None)) self.label_13y.setText(_translate("MainWindow", "Y", None)) self.label_13z.setText(_translate("MainWindow", "Z", None)) self.label_14.setText(_translate("MainWindow", "Centre de la masse", None)) self.label_14x.setText(_translate("MainWindow", "X", None)) self.label_14y.setText(_translate("MainWindow", "Y", None)) self.label_14z.setText(_translate("MainWindow", "Z", None)) self.label_15.setText(_translate("MainWindow", "Dim. hors tout", None)) self.label_16.setText(_translate("MainWindow", "Moment d'inertie", None)) self.label_16x.setText(_translate("MainWindow", "X", None)) self.label_16y.setText(_translate("MainWindow", "Y", None)) self.label_16z.setText(_translate("MainWindow", "Z", None)) self.pushButton_Raf.setText(_translate("MainWindow", "Lecture", None)) self.pushButton_En.setText(_translate("MainWindow", "Enregistrer", None)) self.pushButton_Q.setText(_translate("MainWindow", "Quit", None)) def SIGNAL_comboPoids_Changed(self,text): global sel global document_ global object_ global typeObject global element_ global position0 global position1 global position2 global longueurObjet global perimetre
 * 1)        self.pushButton_Raf.setText(_translate("MainWindow", u"Rafraîchir", None))

global Plan_xy global Plan_xy_V global Plan_yz global Plan_yz_V global Plan_zx global Plan_zx_V

global surface global surfaceFace global volume_ global densite global poids global uniteM global uniteMs global uniteS global uniteSs global uniteV global uniteVs global uniteP global unitePs global uniteAs

global Vertx global Edges global EdgesLong global Faces global FacesSurf global compt_E global compt_F global compt_VF global placement_ global RowCount global RowCountTest global pas text = unicode(text, 'ISO-8859-1').encode('UTF-8') if text == "tonne":         #t  #0.00001        = 1000000 uniteP = 0.000001 unitePs= "t" elif text == "quintal":     #q  #0.00001        = 100000 uniteP = 0.00001 unitePs= "q" elif text == "kilo gramme": #kg # 0.001       = 1000 uniteP = 0.001 unitePs= "kg" elif text == "hecto gramme": #hg # 0.01      = 100 uniteP = 0.01 unitePs= "hg" elif text == "décagramme":  #dag#   0.1     = 10 uniteP = 0.1 unitePs= "dag" elif text == "gramme":      #g  #  1      = 1 uniteP = 1.00 unitePs= "g" elif text == "décigramme":  #dg   # = 0.1 uniteP = 10 unitePs= "dg" elif text == "centigramme": #cg   # = 0.01 uniteP = 100 unitePs= "cg" elif text == "milligramme": #mg   # = 0.001 uniteP = 1000 unitePs= "mg" elif text == "grain":       #gr   # = 0.06479891 uniteP = 0.06479891 unitePs= "gr" elif text == "drachm":      #dr   # = 1.7718451953125 uniteP = 0.56438339189006794681850148894339 unitePs= "dr" elif text == "once":        #oz   # = 28.3495231250 uniteP = 0.035273961949580412915675808215204 unitePs= "oz" elif text == "once troy":   #oz t # = once troy   = 31.1034768 uniteP = 0.032150746568627980522100346029483 unitePs= "oz t"       elif text == "livre troy":   #lb t # = 373.2417216 livre de troy (pound) uniteP = 0.0026792288807189983768416955024569 unitePs= "lb t"       elif text == "livre av":     #lb   # = 453.59237   livre avoirdupois (pound) uniteP = 0.0022046226218487758072297380134503 unitePs= "lb" elif text == "stone":       #st   # = 6350.29318  1 stone     = 14 livres uniteP = 0.00015747304441776970051640985810359 unitePs= "st" elif text == "quarter":     #qtr  # = 12700.58636 uniteP = 0.000078736522208884850258204929051795 unitePs= "qtr" elif text == "hundredweight":#cwt # = 50802.34544 uniteP = 0.000019684130552221212564551232262949 unitePs= "cwt" elif text == "tonneau fr":  #     # tonneau fr = 0.00000102145045965 uniteP = 0.00000102145045965 unitePs= "tonneau fr" elif text == "carat":       #cd   # = 0.2 uniteP = 5 unitePs= "cd" try: poids = ((volume_ * densite) * uniteP) / 1000 self.lineEdit_12a.setText(str(poids)+" "+unitePs) except: self.lineEdit_12a.setText("")

def SIGNAL_comboBox_Changed(self,text): global ui       global sel global document_ global object_ global typeObject global element_ global position0 global position1 global position2 global longueurObjet global perimetre

global Plan_xy global Plan_xy_V global Plan_yz global Plan_yz_V global Plan_zx global Plan_zx_V

global surface global surfaceFace global volume_ global densite global poids global uniteM global uniteMs global uniteS global uniteSs global uniteV global uniteVs global uniteP global unitePs global uniteAs

global boundBoxCenterX global boundBoxCenterY global boundBoxCenterZ

global boundBoxCenter

global CenterOfMassX global CenterOfMassY global CenterOfMassZ

global boundBox_ global boundBoxLX global boundBoxLY global boundBoxLZ global boundBox_S global MatrixX1 global MatrixY1 global MatrixZ1 global Matrix_1 global MatrixX2 global MatrixY2 global MatrixZ2 global Matrix_2 global MatrixX3 global MatrixY3 global MatrixZ3 global Matrix_3 global Matrix12 global Matrix13 global Matrix14 global Matrix15

global Vertx global Edges global EdgesLong global Faces global FacesSurf global FacesCoor global compt_E global compt_F global compt_VF global placement_ global RowCount global RowCountTest global pas text = unicode(text, 'ISO-8859-1').encode('UTF-8') if text == "km":       #        = 1000000 uniteM = 0.000001 uniteMs= "km" uniteS = 0.000000000001 uniteSs= u"km²" uniteV = 0.000000000000000001 uniteVs= u"km³" elif text == "hm":     #        = 100000 uniteM = 0.00001 uniteMs= "hm" uniteS = 0.0000000001 uniteSs= u"hm²" uniteV = 0.000000000000001 uniteVs= u"hm³" elif text == "dam":    #        = 10000 uniteM = 0.0001 uniteMs= "dam" uniteS = 0.00000001 uniteSs= u"dam²" uniteV = 0.000000000001 uniteVs= u"dam³" elif text == "m":      #        = 1000 uniteM = 0.001 uniteMs= "m" uniteS = 0.000001 uniteSs= u"m²" uniteV = 0.000000001 uniteVs= u"m³" elif text == "dm":     #        = 100 uniteM = 0.01 uniteMs= "dm" uniteS = 0.0001 uniteSs= u"dm²" uniteV = 0.000001 uniteVs= u"dm³" elif text == "cm":     #        = 10 uniteM = 0.1 uniteMs= "cm" uniteS = 0.01 uniteSs= u"cm²" uniteV = 0.001 uniteVs= u"cm³" elif text == "mm":     #        = 1 ############################### uniteM = 1.0 uniteMs= "mm" uniteS = 1.0 uniteSs= u"mm²" uniteV = 1.0 uniteVs= u"mm³" elif text == "inch":   # inch   = 25.400 uniteM = 1.0/25.400 uniteMs= "in" uniteS = uniteM**2 uniteSs= "sq in" uniteV = uniteM**3 uniteVs= u"in³" elif text == "link":   # link   = 201.168 uniteM = 1.0/201.168 uniteMs= "lk" uniteS = uniteM**2 uniteSs= "sq lk" uniteV = uniteM**3 uniteVs= u"lk³" elif text == "foot":   # foot   = 304.800 uniteM = 1.0/304.800 uniteMs= "ft" uniteS = uniteM**2 uniteSs= "sq ft" uniteV = uniteM**3 uniteVs= u"ft³" elif text == "yard":   # yard   = 914.400 uniteM = 1.0/914.400 uniteMs= "yd" uniteS = uniteM**2 uniteSs= "sq yd" uniteV = uniteM**3 uniteVs= u"yd³" elif text == "perch":  #rd # rod   perche    = 5029.200 uniteM = 1.0/5029.200 uniteMs= "rd" uniteS = uniteM**2 uniteSs= "sq rd" uniteV = uniteM**3 uniteVs= u"rd³" elif text == "chain":  # chain  = 20116.800 uniteM = 1.0/20116.800 uniteMs= "ch" uniteS = uniteM**2 uniteSs= "sq ch" uniteV = uniteM**3 uniteVs= u"ch³" elif text == "furlong": # furlong= 201168 uniteM = 1.0/201168 uniteMs= "fur" uniteS = uniteM**2 uniteSs= "sq fur" uniteV = uniteM**3 uniteVs= u"fur³" elif text == "mile":    # mile   = 1609344 uniteM = 1.0/1609344 uniteMs= "mi" uniteS = uniteM**2 uniteSs= "sq mi" uniteV = uniteM**3 uniteVs= u"mi³" elif text == "league":  # league = 4828032 uniteM = 1.0/4828032 uniteMs= "lea" uniteS = uniteM**2 uniteSs= "sq lea" uniteV = uniteM**3 uniteVs= u"lea³" elif text == "nautique": # nautique = 1852000 uniteM = 1.0/1852000 uniteMs= "nmi" uniteS = uniteM**2 uniteSs= "sq nmi" uniteV = uniteM**3 uniteVs= u"nmi³"

try: self.lineEdit_5.setText(str(float(longueurObjet) * float(uniteM))+" "+uniteMs) except: self.lineEdit_5.setText("") try: self.lineEdit_6.setText(str(float(perimetre) * float(uniteM))+" "+uniteMs) except: self.lineEdit_6.setText("") try: self.lineEdit_9a.setText(str(float(surface) * float(uniteS))+" "+uniteSs) except: self.lineEdit_9a.setText("") try: self.lineEdit_10a.setText(str(float(surfaceFace) * float(uniteS))+" "+uniteSs) except: self.lineEdit_10a.setText("") try: self.lineEdit_11a.setText(str(float(volume_) * float(uniteV))+" "+uniteVs) except: self.lineEdit_11a.setText("") try: boundBox_S = "[X: "+str(boundBoxLX * uniteM)+" "+uniteMs+"] x [Y: "+str(boundBoxLY * uniteM)+" "+uniteMs+"] x [Z: "+str(boundBoxLZ * uniteM)+" "+uniteMs+"]" self.lineEdit_15.setText(boundBox_S) except: self.lineEdit_15.setText("") co = 0 li = 0 for li in range(RowCount):      # Zero for co in range(8): newitem = QtGui.QTableWidgetItem("") self.tableWidget.setItem( li,co, newitem) co = 0 li = 0 aa = 0 for j in enumerate(Edges):      # Edges newitem = QtGui.QTableWidgetItem(str(j[1])) self.tableWidget.setItem( li,0, newitem) newitem = QtGui.QTableWidgetItem(str(float(EdgesLong[li]) * float(uniteM))+" "+uniteMs) self.tableWidget.setItem( li,1, newitem) co+=1 try: for a in range(aa,aa+6): # Vertexes co += 1 newitem = QtGui.QTableWidgetItem(str(Vertx[a])) self.tableWidget.setItem( li,co, newitem) except: None aa += 6 co = 0 li+= 1 li += 1 co = 0 cco = 0 co2 = 0 for j in enumerate(Faces): newitem = QtGui.QTableWidgetItem(str(j[1])) self.tableWidget.setItem( li,0, newitem) newitem = QtGui.QTableWidgetItem(str(float(FacesSurf[co]) * float(uniteM))+" "+uniteSs) self.tableWidget.setItem( li,1, newitem) li+= 1 for jj in range(cco,len(FacesCoor)):# Faces coordonnées cco+=1 if FacesCoor[jj] == "T": break else: newitem = QtGui.QTableWidgetItem(FacesCoor[jj]) self.tableWidget.setItem( li,co2, newitem) co2 += 1 if co2 == 3: li += 1 co2 = 0 co += 1 li += 1

# doubleSpinBox_1 poids def on_doubleSpinBox_valueChanged(self,densiteSB):   # SpinBox global volume_ global uniteP global unitePs global densite global poids densite = densiteSB poids = ((volume_ * densite) * uniteP) / 1000 # base FreeCAD = mm       self.lineEdit_12a.setText(str(poids) +" "+ unitePs)

def on_pushButton_Raf_clicked(self): # réinitialisation global sel global document_ global object_ global typeObject global element_ global position0 global position1 global position2 global longueurObjet global perimetre

global Plan_xy global Plan_xy_V global Plan_yz global Plan_yz_V global Plan_zx global Plan_zx_V

global surface global surfaceFace global volume_ global densite global poids global uniteM global uniteMs global uniteS global uniteSs global uniteV global uniteVs global uniteP global unitePs global uniteAs

global boundBoxCenterX global boundBoxCenterY global boundBoxCenterZ

global boundBoxCenter

global CenterOfMassX global CenterOfMassY global CenterOfMassZ

global boundBox_ global boundBoxLX global boundBoxLY global boundBoxLZ global boundBox_S global MatrixX1 global MatrixY1 global MatrixZ1 global Matrix_1 global MatrixX2 global MatrixY2 global MatrixZ2 global Matrix_2 global MatrixX3 global MatrixY3 global MatrixZ3 global Matrix_3 global Matrix12 global Matrix13 global Matrix14 global Matrix15

global Vertx global Edges global EdgesLong global Faces global FacesSurf global FacesCoor global compt_E global compt_F global compt_VF global placement_ global RowCount global RowCountTest global path global SaveName

if len(sel)==0: print "Sélectionnez un objet" errorDialog(u"Sélectionnez un objet") else: affect self.lineEdit_1.setText(document_) self.lineEdit_2.setText(object_) self.lineEdit_2a.setText(typeObject) self.lineEdit_3.setText(str(element_)) self.lineEdit_4x.setText(str(position0)) self.lineEdit_4y.setText(str(position1)) self.lineEdit_4z.setText(str(position2)) self.lineEdit_5.setText(str(longueurObjet * uniteM)+" "+uniteMs) self.comboBox.setCurrentIndex(6) self.lineEdit_6.setText(str(perimetre * uniteM)+" "+uniteMs) self.pushButton_Ra.setText(_translate("MainWindow", u"Degré", None)) if RowCountTest > RowCount: self.label_7.setText(_translate("MainWindow", "Détails ("+ str(compt_E) +") ("+ str(compt_F)+") ("+ str(compt_VF)+") (!+ "+str(RowCount)+") "+str(RowCountTest), None)) else: self.label_7.setText(_translate("MainWindow", "Vertexes et détails ("+ str(compt_E) +") ("+ str(compt_F)+") ("+ str(compt_VF)+")", None))#str(RowCount) co = 0 li = 0 for li in range(RowCount): # Zero for co in range(8): newitem = QtGui.QTableWidgetItem("") self.tableWidget.setItem( li,co, newitem)

co = 0 li = 0 aa = 0 for j in enumerate(Edges):      # Edges newitem = QtGui.QTableWidgetItem(str(j[1])) self.tableWidget.setItem( li,0, newitem) newitem = QtGui.QTableWidgetItem(str(float(EdgesLong[li]) * float(uniteM))+" "+uniteMs) self.tableWidget.setItem( li,1, newitem) co+=1 try: for a in range(aa,aa+6): # Vertexes co += 1 newitem = QtGui.QTableWidgetItem(str(Vertx[a])) self.tableWidget.setItem( li,co, newitem) except: None aa += 6 co = 0 li += 1

li += 1 co = 0 cco = 0 co2 = 0 for j in enumerate(Faces):            # Faces newitem = QtGui.QTableWidgetItem(str(j[1])) self.tableWidget.setItem( li,0, newitem) newitem = QtGui.QTableWidgetItem(str(float(FacesSurf[co]) * float(uniteM))+" "+uniteSs) self.tableWidget.setItem( li,1, newitem) li += 1 for jj in range(cco,len(FacesCoor)):# Faces coordonnées cco+=1 if FacesCoor[jj] == "T": break else: newitem = QtGui.QTableWidgetItem(FacesCoor[jj]) self.tableWidget.setItem( li,co2, newitem) co2 += 1 if co2 == 3: li += 1 co2 = 0 co += 1 li += 1

self.lineEdit_8xy.setText(str(Plan_xy)+uniteAs) self.lineEdit_8xya.setText(str(Plan_xy_V)) self.lineEdit_8yz.setText(str(Plan_yz)+uniteAs) self.lineEdit_8yza.setText(str(Plan_yz_V)) self.lineEdit_8zx.setText(str(Plan_zx)+uniteAs) self.lineEdit_8zxa.setText(str(Plan_zx_V)) self.lineEdit_9a.setText(str(surface * uniteS)+" "+uniteSs) self.lineEdit_10a.setText(str(surfaceFace * uniteS)+" "+uniteSs) self.lineEdit_11a.setText(str(volume_ * uniteV)+" "+uniteVs) self.lineEdit_12a.setText(str(poids)+" "+unitePs) self.lineEdit_13x.setText(str(boundBoxCenterX)) self.lineEdit_13y.setText(str(boundBoxCenterY)) self.lineEdit_13z.setText(str(boundBoxCenterZ)) self.lineEdit_14x.setText(str(CenterOfMassX)) self.lineEdit_14y.setText(str(CenterOfMassY)) self.lineEdit_14z.setText(str(CenterOfMassZ)) self.lineEdit_15.setText(boundBox_S) self.lineEdit_16_1x.setText(str(MatrixX1)) self.lineEdit_16_1y.setText(str(MatrixY1)) self.lineEdit_16_1z.setText(str(MatrixZ1)) self.lineEdit_16_01.setText(str(Matrix_1)) self.lineEdit_16_2x.setText(str(MatrixX2)) self.lineEdit_16_2y.setText(str(MatrixY2)) self.lineEdit_16_2z.setText(str(MatrixZ2)) self.lineEdit_16_02.setText(str(Matrix_2)) self.lineEdit_16_3x.setText(str(MatrixX3)) self.lineEdit_16_3y.setText(str(MatrixY3)) self.lineEdit_16_3z.setText(str(MatrixZ3)) self.lineEdit_16_03.setText(str(Matrix_3)) self.lineEdit_16_4x.setText(str(Matrix12)) self.lineEdit_16_4y.setText(str(Matrix13)) self.lineEdit_16_4z.setText(str(Matrix14)) self.lineEdit_16_04.setText(str(Matrix15)) def on_pushButton_Lec_clicked(self):         # lecture OpenName = "" OpenName = QFileDialog.getOpenFileName(None,QString.fromLocal8Bit("Lire un fichier txt"),path,"*.FCInfo *.txt") try: if OpenName != "": print "Lecture du fichier ",OpenName fileFCInfoW = "" file = open(OpenName, "rb") reader = csv.reader(file) Count0 = 0 ligne  = 0 colonne = 0 try:                        # partie compteur pour le tableau for row in reader: ligne += 1          # compte le nombre de lignes for field in row: Count0 += 1      # compte le nombre de colonnes if Count0 > colonne: colonne = Count0 Count0 = 0 finally: file.close

self.table = QTableWidget( ligne, colonne) self.table.setWindowTitle(_translate("MainWindow", "FCInfo Patience lecture en cours", None)) self.table.resize(700, 500) self.table.setWindowModality(QtCore.Qt.NonModal) self.table.setWindowFlags(PyQt4.QtCore.Qt.WindowStaysOnTopHint)   # cette fonction met la fenêtre en avant self.table.setWindowIcon(QtGui.QIcon(path+'FCInfoSpreadsheet.png'))# change l'icône de la fenêtre principale self.table.show

file = open(OpenName, "rb") reader = csv.reader(file) lignes = ligne colonne = 0 ligne  = 0 try: for row in reader: for field in row: newitem = QtGui.QTableWidgetItem(str(field)) self.table.setItem(ligne, colonne, newitem) colonne += 1 ligne += 1 colonne = 0 self.table.setWindowTitle(_translate("MainWindow", "FCInfo Patience lecture en cours "+str(ligne)+"/"+str(lignes), None)) finally: file.close self.table.setWindowTitle(_translate("MainWindow", "FCInfo Tableau " + OpenName, None)) except: print "Erreur en lecture du fichier ",OpenName errorDialog(u"Erreur en lecture du fichier "+OpenName) def on_pushButton_En_clicked(self,text):     # enregistrement global sel global document_ global object_ global typeObject global element_ global position0 global position1 global position2 global longueurObjet global perimetre

global Plan_xy global Plan_xy_V global Plan_yz global Plan_yz_V global Plan_zx global Plan_zx_V

global surface global surfaceFace global volume_ global densite global poids global uniteM global uniteMs global uniteS global uniteSs global uniteV global uniteVs global uniteP global unitePs global uniteAs

global boundBoxCenterX global boundBoxCenterY global boundBoxCenterZ

global boundBoxCenter

global CenterOfMassX global CenterOfMassY global CenterOfMassZ

global boundBox_ global boundBoxLX global boundBoxLY global boundBoxLZ global boundBox_S global MatrixX1 global MatrixY1 global MatrixZ1 global Matrix_1 global MatrixX2 global MatrixY2 global MatrixZ2 global Matrix_2 global MatrixX3 global MatrixY3 global MatrixZ3 global Matrix_3 global Matrix12 global Matrix13 global Matrix14 global Matrix15

global Vertx global Edges global EdgesLong global Faces global FacesSurf global FacesCoor global compt_E global compt_F global compt_VF global placement_ global RowCount global RowCountTest global path global SaveName

SaveName = "" SaveName = QFileDialog.getSaveFileName(None,QString.fromLocal8Bit("Sauver un fichier FCInfo"),path,"*.FCInfo") if SaveName == "": print "Procédure abandonnée" errorDialog(u"Procédure abandonnée") else: print "Enregistrement de ",SaveName try: f = open(SaveName, 'w') # write f.write(iso8859(u"Info sur l'élément\n")) f.write(iso8859(u"__________________\n")) f.write(iso8859(dateComp+", "+heure+"\n\n")) f.write(iso8859(u"Nom du document         :, "+document_+"\n")) f.write(iso8859(u"Nom de l'objet          :, "+object_+"\n")) f.write(iso8859( "Type d'objet            :, "+typeObject+"\n")) f.write(iso8859(u"Nom de l'élément        :, "+str(element_)+"\n")) f.write(iso8859(u"Coordonnées de la souris :, X:, "+str(position0)+",  Y:, "+str(position1)+",  Z:, "+str(position2)+"\n")) f.write(iso8859(u"Longueur de l'objet     :, "+str(longueurObjet * uniteM)+", "+uniteMs+"\n")) f.write(iso8859(u"Périmetre de la forme   :, "+str(perimetre * uniteM)+", "+uniteMs+"\n\n")) f.write(iso8859(u"Vertexes et détails     :, Edges :,"+ str(compt_E) +", Faces :,"+ str(compt_F)+", Vertexes faces :,"+ str(compt_VF)+", Total :,"+str(RowCountTest)+"\n\n")) co = 0 aa = 0 for j in enumerate(Edges): f.write(str(j[1])+", "+iso8859(str(float(EdgesLong[co]) * float(uniteM))+" , "+uniteMs+","))#"\n" co+=1 for a in range(aa,aa+6): try: f.write(str(Vertx[a][0:3])+", "+str(Vertx[a][4:len(Vertx[a])])+" , ") except: None aa += 6 f.write("\n") f.write("\n") co = 0 cco = 0 co2 = 0 for j in enumerate(Faces): f.write(str(j[1])+", "+iso8859(str(float(FacesSurf[co]) * float(uniteM))+" , "+uniteSs+"\n")) co += 1

for jj in range(cco,len(FacesCoor)):# Faces coordonnées cco+=1 if FacesCoor[jj] == "T": f.write("\n") break else: f.write(FacesCoor[jj][0:3]+", "+FacesCoor[jj][4:len(FacesCoor[jj])]+" , ") co2 += 1 if co2 == 3: f.write("\n") co2 = 0

f.write("\n") f.write(iso8859(u"Plan                    :, XY:, " + self.lineEdit_8xy.text + "," + u" coordonnées:, " + str(Plan_xy_V)+"\n")) f.write(iso8859(u"Plan                    :, YZ:, " + self.lineEdit_8yz.text + "," + u" coordonnées:, " + str(Plan_yz_V)+"\n")) f.write(iso8859(u"Plan                    :, ZX:, " + self.lineEdit_8zx.text + "," + u" coordonnées:, " + str(Plan_zx_V)+"\n\n")) f.write("Surface de la forme     :, "+iso8859(str(surface * uniteS)+", "+uniteSs+"\n")) f.write("Surface de la face      :, "+iso8859(str(surfaceFace * uniteS)+", "+uniteSs+"\n\n")) f.write("Volume de la forme      :, "+iso8859(str(volume_ * uniteV)+", "+uniteVs+"\n")) f.write("Poids                   :, "+iso8859(str(poids)+", "+unitePs+ u", Densité:, "+str(densite)+"\n\n")) f.write("Centre de la forme      :, X:, "+iso8859(str(boundBoxCenterX)+", Y:, "+str(boundBoxCenterY)+", Z:, "+str(boundBoxCenterZ)+"\n")) f.write("Centre de la masse      :, X:, "+iso8859(str(CenterOfMassX)  +", Y:, "+str(CenterOfMassY)  +", Z:, "+str(CenterOfMassZ)+"\n")) f.write("Dimensions hors tout    :, X:, "+iso8859(str(boundBoxLX * uniteM)+","+uniteMs+", Y:, "+str(boundBoxLY * uniteM)+","+uniteMs+", Z:, "+str(boundBoxLZ * uniteM)+","+uniteMs+"\n\n")) f.write("Matrix of inertia       :, X:, "+iso8859(str(MatrixX1)+", Y:, "+str(MatrixY1)+", Z:, "+str(MatrixZ1)+", :, "+str(Matrix_1)+"\n")) f.write("                        :, X:, "+iso8859(str(MatrixX2)+", Y:, "+str(MatrixY2)+", Z:, "+str(MatrixZ2)+", :, "+str(Matrix_2)+"\n")) f.write("                        :, X:, "+iso8859(str(MatrixX3)+", Y:, "+str(MatrixY3)+", Z:, "+str(MatrixZ3)+", :, "+str(Matrix_3)+"\n")) f.write("                        :, X:, "+iso8859(str(Matrix12)+", Y:, "+str(Matrix13)+", Z:, "+str(Matrix14)+", :, "+str(Matrix15)+"\n")) f.close except: print "Erreur en écriture du fichier ",SaveName errorDialog(u"Erreur en écriture du fichier "+SaveName)

def on_pushButton_Ra_clicked(self):   # clicked pressed, released Bouton radian/degrés global uniteAs Plan_xy2 = 0.0 Plan_yz2 = 0.0 Plan_zx2 = 0.0 if self.pushButton_Ra.text == u"Degré": uniteAs = "" self.pushButton_Ra.setText(_translate("MainWindow", "DegMinSec", None)) self.lineEdit_8xy.setText(degMinSec(Plan_xy)) self.lineEdit_8yz.setText(degMinSec(Plan_yz)) self.lineEdit_8zx.setText(degMinSec(Plan_zx)) elif self.pushButton_Ra.text == "DegMinSec": uniteAs = " rad" self.pushButton_Ra.setText(_translate("MainWindow", "Radian", None)) Plan_xy2 = radians(Plan_xy) self.lineEdit_8xy.setText(str(Plan_xy2)+uniteAs) Plan_yz2 = radians(Plan_yz) self.lineEdit_8yz.setText(str(Plan_yz2)+uniteAs) Plan_zx2 = radians(Plan_zx) self.lineEdit_8zx.setText(str(Plan_zx2)+uniteAs) elif self.pushButton_Ra.text == "Radian": uniteAs = " gon" self.pushButton_Ra.setText(_translate("MainWindow", "Grade", None)) Plan_xy2 = angleGrade(Plan_xy) self.lineEdit_8xy.setText(str(Plan_xy2)+uniteAs) #angleGrade Plan_yz2 = angleGrade(Plan_yz) self.lineEdit_8yz.setText(str(Plan_yz2)+uniteAs) Plan_zx2 = angleGrade(Plan_zx) self.lineEdit_8zx.setText(str(Plan_zx2)+uniteAs) elif self.pushButton_Ra.text == "Grade": uniteAs = u"°" try: self.pushButton_Ra.setText(_translate("MainWindow", u"Degré", None)) self.lineEdit_8xy.setText(str(Plan_xy)+uniteAs) self.lineEdit_8yz.setText(str(Plan_yz)+uniteAs) self.lineEdit_8zx.setText(str(Plan_zx)+uniteAs) except: None

def on_pushButton02_clicked(self):                  # Bouton Quitter print "Terminé\r\n" FreeCADGui.Selection.removeObserver(s)          # désinstalle la fonction résidente self.window.hide def removeSelection(self,document, object, element): # Effacer l'objet sélectionné print "removeSelection" def setSelection(self,document):                    # Sélection dans ComboView print "setSelection" def clearSelection(self,document):                  # Si clic sur l'écran, éffacer la sélection print "clearSelection"                          # Si clic sur un autre objet, éfface le précédent

class SelObserver: def addSelection(self,document, object, element, position): # Sélection global sel global document_ global object_ global element_ global position0 global position1 global position2 sel = FreeCADGui.Selection.getSelection

document_ = document      # Nom du document object_  = object         # Nom de l'objet element_ = element        # Nom de la partie de l'objet

position0 = position[0] position1 = position[1] position2 = position[2] if len(sel)==0: print "Sélectionnez un objet" errorDialog(u"Sélectionnez un objet") else: ff = ui           ff.on_pushButton_Raf_clicked #####################################################################################

sel = FreeCADGui.Selection.getSelection

s=SelObserver FreeCADGui.Selection.addObserver(s)         # installe la fonction en mode résident

MainWindow = QtGui.QMainWindow ui = Ui_MainWindow(MainWindow) MainWindow.show

Limitazioni
Uscire sempre dalla macro tramite il pulsante altrimenti il programma rimane in memoria e continua a funzionare e si è obbligati a chiudere FreeCAD per disattivarlo.

Nella tabella sono riportati solo i primi 200 elementi dell'oggetto, quando l'oggetto contiene più di 200 elementi viene visualizzato l'avviso (! +200). L'elenco completo dei dati è visibile nel file csv che viene creato e salvato cliccando sul pulsante.

Questo programma è stato fatto con Windows Vista e per il momento "class SelObserver:" non funziona allo stesso modo dentro Linux. Dentro Linux è necessario prima selezionare l'oggetto e dopo lanciare il programma.

Attenzione : Questa versione non è definitiva.

In progetto :

leggere i dati direttamente in una tabella. fatto

mappare degli spigoli ("Edges") e le loro coordinate fatto

associare una sostanza alla sua massa volumica

angoli di inclinazione riferiti all'elemento piuttosto che all'oggetto globale fatto

un pulsante sulla barra degli strumenti

alloggiamento a destra nell'interfaccia di FreeCAD

attualmente :

ver 1.07, 11/10/2013 mappare degli spigoli ("Faces") e le loro coordinate.

ver 1.06, 22/09/2013 mappare degli spigoli ("Edges") e le loro coordinate, angoli di inclinazione riferiti all'elemento piuttosto che all'oggetto globale

ver 1.05, 17/09/2013 aggiunto di un'icona per il foglio di calcolo, conversione in tonneau fr, dà le dimensioni fuori tutto invece di dare le coordinate.

ver 1.04, 11/09/2013: leggere i dati direttamente in una tabella.

ver 1.03, 09/09/2013: visualizzasione più chiara nella "vista report" e sostituzione di "typeObject = sel[0].Shape.ShapeType"

ver 1.02, 7/09/2013 : picole modifi

ver 1.0, 6/09/2013

Si può commentare questa macro nel forum Info Workbench - Help with icons please.