# -*- coding: utf-8 -*- # Copyright (C) 2006-2015 EDF R&D # # This library is free software; you can redistribute it and/or # modify it under the terms of the GNU Lesser General Public # License as published by the Free Software Foundation; either # version 2.1 of the License. # # This library 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 # Lesser General Public License for more details. # # You should have received a copy of the GNU Lesser General Public # License along with this library; if not, write to the Free Software # Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA # # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com # # if you already have plugins defined in a salome_plugins.py file, add this file at the end. # if not, copy this file as ${HOME}/Plugins/smesh_plugins.py or ${APPLI}/Plugins/smesh_plugins.py import sys, traceback import math from blocFissure import gmu from blocFissure.gmu import initLog #initLog.setDebug() initLog.setVerbose() from blocFissure.gmu import geomsmesh from blocFissure.gmu.casStandard import casStandard from blocFissure.ihm.fissureCoude_ihm import fissureCoude_ihm def fissureCoudeDlg(context): # get context study, studyId, salomeGui study = context.study studyId = context.studyId sg = context.sg import os #import subprocess #import tempfile from PyQt4 import QtCore from PyQt4 import QtGui from PyQt4.QtGui import QFileDialog from PyQt4.QtGui import QMessageBox from PyQt4.QtGui import QPalette from PyQt4.QtGui import QColor from fissureCoude_ui import Ui_Dialog class fissureCoudeDialog(QtGui.QDialog): def __init__(self): QtGui.QDialog.__init__(self) # Set up the user interface from Designer. self.ui = Ui_Dialog() self.ui.setupUi(self) self.blackPalette = self.ui.dsb_angle.palette() self.redPalette = QPalette() self.redPalette.setColor(QPalette.Text, QColor(255,0,0)) self.NOK = False self.initDefaut() self.initDialog(self.defaut) self.ui.dsb_angle.setSpecialValueText("saisie_obligatoire") self.ui.dsb_rCintr.setSpecialValueText("saisie_obligatoire") self.ui.dsb_lTubeP1.setSpecialValueText("saisie_obligatoire") self.ui.dsb_lTubeP2.setSpecialValueText("saisie_obligatoire") self.ui.dsb_epais.setSpecialValueText("saisie_obligatoire") self.ui.dsb_dext.setSpecialValueText("saisie_obligatoire") self.ui.dsb_profondeur.setSpecialValueText("saisie_obligatoire") self.ui.dsb_longueur.setSpecialValueText("saisie_obligatoire") self.ui.dsb_azimut.setSpecialValueText("saisie_obligatoire") self.ui.dsb_orientation.setSpecialValueText("saisie_obligatoire") self.ui.dsb_posiAngul.setSpecialValueText("saisie_obligatoire") self.ui.dsb_absCurv.setSpecialValueText("saisie_obligatoire") self.ui.sb_nbTranches.setSpecialValueText("saisie_obligatoire") self.ui.sb_nbCouronne.setSpecialValueText("saisie_obligatoire") self.ui.sb_nbSecteur.setSpecialValueText("saisie_obligatoire") self.ui.dsb_aretesFaceFissure.setSpecialValueText("automatique") self.ui.dsb_influence.setSpecialValueText("automatique") self.ui.lb_calcul.hide() # Connect up the buttons. self.connect(self.ui.pb_valPrec, QtCore.SIGNAL("clicked()"), self.readValPrec) self.connect(self.ui.pb_reset, QtCore.SIGNAL("clicked()"), self.resetVal) self.connect(self.ui.pb_recharger, QtCore.SIGNAL("clicked()"), self.recharger) self.connect(self.ui.pb_sauver, QtCore.SIGNAL("clicked()"), self.sauver) self.disconnect(self.ui.buttonBox, QtCore.SIGNAL("accepted()"), self.accept) self.connect(self.ui.buttonBox, QtCore.SIGNAL("accepted()"), self.execute) def initDefaut(self): self.defaut = dict( angle = -181.0, rCintr = 0.0, lTubeP1 = 0.0, lTubeP2 = 0.0, epais = 0.0, dext = 0.0, profondeur = 0.0, longueur = 0.0, azimut = -181.0, orientation = -1.0, posiAngul = -181.0, absCurv = 0.0, nbTranches = 7, nbCouronnes = 1, nbSecteurs = 3, cbOptDiscrSain = False, cbOptDiscrFiss = False, rbPosiAngul = True, rbFissExt = True, cbForceEllipse = False, nbAxeTubeP1 = 15, nbAxeTubeP2 = 15, nbAxeCoude = 10, nbCirconf = 20, nbEpaisseur = 3, rayonTore = 2.0, aretesFaceFissure = 0.0, influence = 0.0, ) def initDialog(self, dico): self.ui.dsb_angle.setValue(dico['angle']) self.ui.dsb_rCintr.setValue(dico['rCintr']) self.ui.dsb_lTubeP1.setValue(dico['lTubeP1']) self.ui.dsb_lTubeP2.setValue(dico['lTubeP2']) self.ui.dsb_epais.setValue(dico['epais']) self.ui.dsb_dext.setValue(dico['dext']) self.ui.dsb_profondeur.setValue(dico['profondeur']) self.ui.dsb_longueur.setValue(dico['longueur']) self.ui.dsb_azimut.setValue(dico['azimut']) self.ui.dsb_orientation.setValue(dico['orientation']) self.ui.dsb_posiAngul.setValue(dico['posiAngul']) self.ui.dsb_absCurv.setValue(dico['absCurv']) self.ui.sb_nbTranches.setValue(dico['nbTranches']) self.ui.sb_nbCouronne.setValue(dico['nbCouronnes']) self.ui.sb_nbSecteur.setValue(dico['nbSecteurs']) self.ui.dsb_aretesFaceFissure.setValue(dico['aretesFaceFissure']) self.ui.dsb_influence.setValue(dico['influence']) self.ui.sb_nbAxeTubeP1.setValue(dico['nbAxeTubeP1']) self.ui.sb_nbAxeTubeP2.setValue(dico['nbAxeTubeP2']) self.ui.sb_nbAxeCoude.setValue(dico['nbAxeCoude']) self.ui.sb_nbCirconf.setValue(dico['nbCirconf']) self.ui.sb_nbEpaisseur.setValue(dico['nbEpaisseur']) self.ui.dsb_rayonTore.setValue(dico['rayonTore']) #self.ui.cb_optDiscrSain.setChecked(False) #self.ui.gb_discrSain.setShown(False) self.ui.cb_optDiscrSain.setChecked(not(dico['cbOptDiscrSain'])) self.ui.cb_optDiscrSain.click() self.ui.cb_optDiscrFiss.setChecked(not(dico['cbOptDiscrFiss'])) self.ui.cb_optDiscrFiss.click() if dico['rbPosiAngul']: self.ui.dsb_absCurv.setEnabled(False) self.ui.dsb_posiAngul.setEnabled(True) self.ui.rb_posiAngul.setChecked(True) #self.ui.rb_posiAngul.click() else: self.ui.dsb_absCurv.setEnabled(True) self.ui.dsb_posiAngul.setEnabled(False) self.ui.rb_absCurv.setChecked(True) #self.ui.rb_absCurv.click() self.ui.rb_fissExt.setChecked(dico['rbFissExt']) self.ui.cb_forceEllipse.setChecked(dico['cbForceEllipse']) incomplet = self.testval(dico) pass def testval(self, dico): incomplet = False if dico['angle'] < -180.0: self.ui.dsb_angle.setPalette(self.redPalette) incomplet = True else: self.ui.dsb_angle.setPalette(self.blackPalette) if dico['rCintr'] == 0.0: self.ui.dsb_rCintr.setPalette(self.redPalette) incomplet = True else: self.ui.dsb_rCintr.setPalette(self.blackPalette) if dico['lTubeP1'] == 0.0: self.ui.dsb_lTubeP1.setPalette(self.redPalette) incomplet = True else: self.ui.dsb_lTubeP1.setPalette(self.blackPalette) if dico['lTubeP2'] == 0.0: self.ui.dsb_lTubeP2.setPalette(self.redPalette) incomplet = True else: self.ui.dsb_lTubeP2.setPalette(self.blackPalette) if dico['epais'] == 0.0: self.ui.dsb_epais.setPalette(self.redPalette) incomplet = True else: self.ui.dsb_epais.setPalette(self.blackPalette) if dico['dext'] == 0.0: self.ui.dsb_dext.setPalette(self.redPalette) incomplet = True else: self.ui.dsb_dext.setPalette(self.blackPalette) if dico['profondeur'] == 0.0: self.ui.dsb_profondeur.setPalette(self.redPalette) incomplet = True else: self.ui.dsb_profondeur.setPalette(self.blackPalette) if dico['longueur'] == 0.0: self.ui.dsb_longueur.setPalette(self.redPalette) incomplet = True else: self.ui.dsb_longueur.setPalette(self.blackPalette) if dico['azimut'] < -180.0: self.ui.dsb_azimut.setPalette(self.redPalette) incomplet = True else: self.ui.dsb_azimut.setPalette(self.blackPalette) if dico['orientation'] < 0.0: self.ui.dsb_orientation.setPalette(self.redPalette) incomplet = True else: self.ui.dsb_orientation.setPalette(self.blackPalette) if dico['posiAngul'] < -180.0 and dico['rbPosiAngul'] == True: self.ui.dsb_posiAngul.setPalette(self.redPalette) incomplet = True else: self.ui.dsb_posiAngul.setPalette(self.blackPalette) if dico['absCurv'] == 0.0 and dico['rbPosiAngul'] == False: self.ui.dsb_absCurv.setPalette(self.redPalette) incomplet = True else: self.ui.dsb_absCurv.setPalette(self.blackPalette) if dico['nbTranches'] == 7: self.ui.sb_nbTranches.setPalette(self.redPalette) incomplet = True else: self.ui.sb_nbTranches.setPalette(self.blackPalette) if dico['nbCouronnes'] == 1: self.ui.sb_nbCouronne.setPalette(self.redPalette) incomplet = True else: self.ui.sb_nbCouronne.setPalette(self.blackPalette) if dico['nbSecteurs'] == 3: self.ui.sb_nbSecteur.setPalette(self.redPalette) incomplet = True else: self.ui.sb_nbSecteur.setPalette(self.blackPalette) print "incomplet: ", incomplet return incomplet def fileDefault(self): filedef = os.path.expanduser("~/.config/salome/dialogFissureCoude.dic") print filedef return filedef def writeDefault(self, dico): filedef = self.fileDefault() f = open(filedef, 'w') f.write(str(dico)) f.close() def readValPrec(self): filedef = self.fileDefault() if os.path.exists(filedef): f = open(filedef, 'r') txt = f.read() dico = eval(txt) print dico self.initDialog(dico) def resetVal(self): #self.initDefaut() self.initDialog(self.defaut) def sauver(self): print "sauver" fileDiag = QFileDialog(self) fileDiag.setFileMode(QFileDialog.AnyFile) fileDiag.setNameFilter("Parametres *.dic (*.dic)") fileDiag.setViewMode(QFileDialog.List) if fileDiag.exec_() : fileNames = fileDiag.selectedFiles() filedef = fileNames[0] dico = self.creeDico() f = open(filedef, 'w') f.write(str(dico)) f.close() def recharger(self): print "recharger" fileDiag = QFileDialog(self) fileDiag.setFileMode(QFileDialog.ExistingFile) fileDiag.setNameFilter("Parametres *.dic (*.dic)") fileDiag.setViewMode(QFileDialog.Detail) if fileDiag.exec_() : fileNames = fileDiag.selectedFiles() filedef = fileNames[0] print filedef if os.path.exists(filedef): f = open(filedef, 'r') txt = f.read() dico = eval(txt) print dico self.initDialog(dico) def creeDico(self): dico = dict( angle = self.ui.dsb_angle.value(), rCintr = self.ui.dsb_rCintr.value(), lTubeP1 = self.ui.dsb_lTubeP1.value(), lTubeP2 = self.ui.dsb_lTubeP2.value(), epais = self.ui.dsb_epais.value(), dext = self.ui.dsb_dext.value(), profondeur = self.ui.dsb_profondeur.value(), longueur = self.ui.dsb_longueur.value(), azimut = self.ui.dsb_azimut.value(), orientation = self.ui.dsb_orientation.value(), posiAngul = self.ui.dsb_posiAngul.value(), absCurv = self.ui.dsb_absCurv.value(), nbTranches = self.ui.sb_nbTranches.value(), nbCouronnes = self.ui.sb_nbCouronne.value(), nbSecteurs = self.ui.sb_nbSecteur.value(), cbOptDiscrSain = self.ui.cb_optDiscrSain.isChecked(), cbOptDiscrFiss = self.ui.cb_optDiscrFiss.isChecked(), rbPosiAngul = self.ui.rb_posiAngul.isChecked(), rbFissExt = self.ui.rb_fissExt.isChecked(), cbForceEllipse = self.ui.cb_forceEllipse.isChecked(), nbAxeTubeP1 = self.ui.sb_nbAxeTubeP1.value(), nbAxeTubeP2 = self.ui.sb_nbAxeTubeP2.value(), nbAxeCoude = self.ui.sb_nbAxeCoude.value(), nbCirconf = self.ui.sb_nbCirconf.value(), nbEpaisseur = self.ui.sb_nbEpaisseur.value(), rayonTore = self.ui.dsb_rayonTore.value(), aretesFaceFissure = self.ui.dsb_aretesFaceFissure.value(), influence = self.ui.dsb_influence.value(), ) print dico return dico def checkValues(self): return self.NOK def execute(self): dico = self.creeDico() NOK = self.testval(dico) if not(NOK): dico['lenSegPipe'] = (dico['longueur'] + math.pi*dico['profondeur'])/dico['nbTranches'] print 'lenSegPipe', dico['lenSegPipe'] areteMinAngle = (dico['rCintr'] -dico['dext']/2.0)*(dico['angle']*math.pi/180.0)/dico['nbAxeCoude'] print'areteMinAngle', areteMinAngle areteMinCirco = dico['dext']*math.pi/(2*dico['nbCirconf']) print'areteMinCirco', areteMinCirco areteMinEpais = dico['epais']/dico['nbEpaisseur'] print'areteMinEpais', areteMinEpais if dico['influence'] == 0: dico['influence'] = max(areteMinAngle, areteMinCirco, areteMinEpais) print 'influence', dico['influence'] if dico['aretesFaceFissure'] == 0: dico['aretesFaceFissure'] = (areteMinAngle + areteMinCirco)/2.0 print 'aretesFaceFissure', dico['aretesFaceFissure'] if dico['rbPosiAngul'] == False: rmoy = (dico['dext'] - dico['epais'])/2.0 eta = 1 if dico['rbFissExt'] == False: eta = -1 dico['posiAngul'] = (180.0/math.pi)*dico['absCurv']/(dico['rCintr']+(rmoy+eta*dico['epais']/2.0)*math.cos(math.pi*dico['azimut']/180.)) print 'posiAngul' , dico['posiAngul'] self.writeDefault(dico) self.ui.lb_calcul.show() probleme = fissureCoude_ihm(0) probleme.setDicoParams(dico) probleme.executeProbleme() self.NOK = NOK self.accept() pass # ---------------------------------------------------------------------------- window = fissureCoudeDialog() # window.ui.dsb_tolerance.setValue(0.01) retry = True while(retry): retry = False window.exec_() result = window.result() if result: # dialog accepted print "dialog accepted, check" retry = window.checkValues() else: print "dialog rejected, exit" pass