# -*- coding: utf-8 -*- # Copyright (C) 2007-2013 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 # # Modules Python # Modules Eficas import os, subprocess from MGCleanerPlugDialog import Ui_MGCleanerPlugDialog from MGCleanerMonViewText import MGCleanerMonViewText from PyQt4.QtGui import * from PyQt4.QtCore import * class MGCleanerMonPlugDialog(Ui_MGCleanerPlugDialog,QWidget): """ """ def __init__(self): QWidget.__init__(self) self.setupUi(self) self.connecterSignaux() self.fichierIn="" self.fichierOut="" self.MeshIn="" self.commande="" self.num=1 self.__selectedMesh=None # complex whith QResources: not used # The icon are supposed to be located in the $SMESH_ROOT_DIR/share/salome/resources/smesh folder, # other solution could be in the same folder than this python module file: # iconfolder=os.path.dirname(os.path.abspath(__file__)) self.iconfolder=os.environ["SMESH_ROOT_DIR"]+"/share/salome/resources/smesh" #print "MGCleanerMonPlugDialog iconfolder",iconfolder icon = QIcon() icon.addFile(os.path.join(self.iconfolder,"select1.png")) self.PB_LoadHyp.setIcon(icon) self.PB_LoadHyp.setToolTip("hypothesis from Salome Object Browser") self.PB_SaveHyp.setIcon(icon) self.PB_SaveHyp.setToolTip("hypothesis to Salome Object Browser") self.PB_MeshSmesh.setIcon(icon) self.PB_MeshSmesh.setToolTip("source mesh from Salome Object Browser") icon = QIcon() icon.addFile(os.path.join(self.iconfolder,"open.png")) self.PB_ParamsFileExplorer.setIcon(icon) self.PB_Load.setIcon(icon) self.PB_Load.setToolTip("hypothesis from file") self.PB_Save.setIcon(icon) self.PB_Save.setToolTip("hypothesis to file") self.PB_MeshFile.setIcon(icon) self.PB_MeshFile.setToolTip("source mesh from a file in disk") #Ces parametres ne sont pas remis à rien par le clean self.paramsFile= os.path.abspath(os.path.join(os.environ["HOME"],".MGCleaner.dat")) self.LE_ParamsFile.setText(self.paramsFile) self.LE_MeshFile.setText("") self.LE_MeshSmesh.setText("") v1=QDoubleValidator(self) v1.setBottom(0.) #v1.setTop(10000.) v1.setDecimals(4) self.SP_MinHoleSize.setValidator(v1) v2=QDoubleValidator(self) v2.setBottom(0.) #v2.setTop(10000.) v2.setDecimals(4) self.SP_ToleranceDisplacement.setValidator(v2) v3=QDoubleValidator(self) v3.setBottom(0.) #v3.setTop(10000.) v3.setDecimals(4) self.SP_ResolutionLength.setValidator(v3) v4=QDoubleValidator(self) v4.setBottom(0.) #v4.setTop(10000.) v4.setDecimals(4) self.SP_OverlapDistance.setValidator(v4) self.resize(800, 500) self.clean() def connecterSignaux(self) : self.connect(self.PB_Cancel,SIGNAL("clicked()"),self.PBCancelPressed) self.connect(self.PB_Default,SIGNAL("clicked()"),self.clean) self.connect(self.PB_Help,SIGNAL("clicked()"),self.PBHelpPressed) self.connect(self.PB_OK,SIGNAL("clicked()"),self.PBOKPressed) self.connect(self.PB_Load,SIGNAL("clicked()"),self.PBLoadPressed) self.connect(self.PB_Save,SIGNAL("clicked()"),self.PBSavePressed) self.connect(self.PB_LoadHyp,SIGNAL("clicked()"),self.PBLoadHypPressed) self.connect(self.PB_SaveHyp,SIGNAL("clicked()"),self.PBSaveHypPressed) self.connect(self.PB_MeshFile,SIGNAL("clicked()"),self.PBMeshFilePressed) self.connect(self.PB_MeshSmesh,SIGNAL("clicked()"),self.PBMeshSmeshPressed) self.connect(self.LE_MeshSmesh,SIGNAL("returnPressed()"),self.meshSmeshNameChanged) self.connect(self.PB_ParamsFileExplorer,SIGNAL("clicked()"),self.setParamsFileName) self.connect(self.LE_MeshFile,SIGNAL("returnPressed()"),self.meshFileNameChanged) self.connect(self.LE_ParamsFile,SIGNAL("returnPressed()"),self.paramsFileNameChanged) #QtCore.QObject.connect(self.checkBox, QtCore.SIGNAL("stateChanged(int)"), self.change) self.connect(self.CB_FillHoles,SIGNAL("stateChanged(int)"),self.SP_MinHoleSize.setEnabled) self.connect(self.CB_ComputedToleranceDisplacement,SIGNAL("stateChanged(int)"),self.SP_ToleranceDisplacement.setDisabled) self.connect(self.CB_ComputedResolutionLength,SIGNAL("stateChanged(int)"),self.SP_ResolutionLength.setDisabled) self.connect(self.CB_ComputedOverlapDistance,SIGNAL("stateChanged(int)"),self.SP_OverlapDistance.setDisabled) def PBHelpPressed(self): try: mydir=os.environ["SMESH_ROOT_DIR"] except Exception: QMessageBox.warning( self, "Help", "Help unavailable $SMESH_ROOT_DIR not found") return maDoc=mydir+"/share/doc/salome/gui/SMESH/MGCleaner/_downloads/mg-cleaner_user_manual.pdf" command="xdg-open "+maDoc+";" subprocess.call(command, shell=True) def PBOKPressed(self): if not(self.PrepareLigneCommande()): #warning done yet #QMessageBox.warning(self, "Compute", "Command not found") return maFenetre=MGCleanerMonViewText(self, self.commande) def enregistreResultat(self): import salome import SMESH from salome.kernel import studyedit from salome.smesh import smeshBuilder smesh = smeshBuilder.New(salome.myStudy) if not os.path.isfile(self.fichierOut): QMessageBox.warning(self, "Compute", "Result file "+self.fichierOut+" not found") maStudy=studyedit.getActiveStudy() smesh.SetCurrentStudy(maStudy) (outputMesh, status) = smesh.CreateMeshesFromGMF(self.fichierOut) name=str(self.LE_MeshSmesh.text()) initialMeshFile=None initialMeshObject=None if name=="": a=str(self.fichierIn) name=os.path.basename(os.path.splitext(a)[0]) initialMeshFile=a else: initialMeshObject=maStudy.FindObjectByName(name ,"SMESH")[0] meshname = name+"_MGC_"+str(self.num) smesh.SetName(outputMesh.GetMesh(), meshname) outputMesh.Compute() #no algorithms message for "Mesh_x" has been computed with warnings: - global 1D algorithm is missing self.editor = studyedit.getStudyEditor() moduleEntry=self.editor.findOrCreateComponent("SMESH","SMESH") HypReMeshEntry = self.editor.findOrCreateItem( moduleEntry, name = "Plugins Hypotheses", icon="mesh_tree_hypo.png") #, comment = "HypoForRemeshing" ) monStudyBuilder=maStudy.NewBuilder() monStudyBuilder.NewCommand() newStudyIter=monStudyBuilder.NewObject(HypReMeshEntry) self.editor.setAttributeValue(newStudyIter, "AttributeName", "MGCleaner Parameters_"+str(self.num)) self.editor.setAttributeValue(newStudyIter, "AttributeComment", self.getResumeData(separator=" ; ")) SOMesh=maStudy.FindObjectByName(meshname ,"SMESH")[0] if initialMeshFile!=None: newStudyFileName=monStudyBuilder.NewObject(SOMesh) self.editor.setAttributeValue(newStudyFileName, "AttributeName", "meshFile") self.editor.setAttributeValue(newStudyFileName, "AttributeExternalFileDef", initialMeshFile) self.editor.setAttributeValue(newStudyFileName, "AttributeComment", initialMeshFile) if initialMeshObject!=None: newLink=monStudyBuilder.NewObject(SOMesh) monStudyBuilder.Addreference(newLink, initialMeshObject) newLink=monStudyBuilder.NewObject(SOMesh) monStudyBuilder.Addreference(newLink, newStudyIter) if salome.sg.hasDesktop(): salome.sg.updateObjBrowser(0) self.num+=1 return True def PBSavePressed(self): from datetime import datetime if not(self.PrepareLigneCommande()): return text = "# MGCleaner hypothesis parameters\n" text += "# Params for mesh : " + self.LE_MeshSmesh.text() +"\n" text += datetime.now().strftime("# Date : %d/%m/%y %H:%M:%S\n") text += "# Command : "+self.commande+"\n" text += self.getResumeData(separator="\n") text += "\n\n" try: f=open(self.paramsFile,"a") except: QMessageBox.warning(self, "File", "Unable to open "+self.paramsFile) return try: f.write(text) except: QMessageBox.warning(self, "File", "Unable to write "+self.paramsFile) return f.close() def PBSaveHypPressed(self): """save hypothesis in Object Browser""" import salome import SMESH from salome.kernel import studyedit from salome.smesh import smeshBuilder smesh = smeshBuilder.New(salome.myStudy) maStudy=studyedit.getActiveStudy() smesh.SetCurrentStudy(maStudy) self.editor = studyedit.getStudyEditor() moduleEntry=self.editor.findOrCreateComponent("SMESH","SMESH") HypReMeshEntry = self.editor.findOrCreateItem( moduleEntry, name = "Plugins Hypotheses", icon="mesh_tree_hypo.png") #, comment = "HypoForRemeshing" ) monStudyBuilder=maStudy.NewBuilder() monStudyBuilder.NewCommand() newStudyIter=monStudyBuilder.NewObject(HypReMeshEntry) self.editor.setAttributeValue(newStudyIter, "AttributeName", "MGCleaner Parameters_"+str(self.num)) self.editor.setAttributeValue(newStudyIter, "AttributeComment", self.getResumeData(separator=" ; ")) if salome.sg.hasDesktop(): salome.sg.updateObjBrowser(0) self.num+=1 return True """ import salome_pluginsmanager print "salome_pluginsmanager.plugins",salome_pluginsmanager.plugins print "salome_pluginsmanager.current_plugins_manager",salome_pluginsmanager.current_plugins_manager """ def SP_toStr(self, widget): #cr, pos=widget.validator().validate(res, 0) #n.b. "1,3" is acceptable !locale! try: return str(float(widget.text())) except: widget.setProperty("text", "0.0") return "0.0" def getResumeData(self, separator="\n"): text="" if self.RB_Fix1.isChecked(): CheckOrFix="fix1pass" else: if self.RB_Fix2.isChecked(): CheckOrFix="fix2pass" else: CheckOrFix="check" text+="CheckOrFix="+CheckOrFix+separator text+="PreserveTopology="+str(self.CB_PreserveTopology.isChecked())+separator text+="FillHoles="+str(self.CB_FillHoles.isChecked())+separator v=self.SP_toStr(self.SP_MinHoleSize) text+="MinHoleSize="+v+separator text+="ComputedToleranceDisplacement="+str(self.CB_ComputedToleranceDisplacement.isChecked())+separator v=self.SP_toStr(self.SP_ToleranceDisplacement) text+="ToleranceDisplacement="+v+separator text+="ComputedResolutionLength="+str(self.CB_ComputedResolutionLength.isChecked())+separator v=self.SP_toStr(self.SP_ResolutionLength) text+="ResolutionLength="+v+separator text+="FoldingAngle="+str(self.SP_FoldingAngle.value())+separator text+="RemeshPlanes="+str(self.CB_RemeshPlanes.isChecked())+separator text+="ComputedOverlapDistance="+str(self.CB_ComputedOverlapDistance.isChecked())+separator v=self.SP_toStr(self.SP_OverlapDistance) text+="OverlapDistance="+v+separator text+="OverlapAngle="+str(self.SP_OverlapAngle.value())+separator text+="Verbosity="+str(self.SP_Verbosity.value())+separator return str(text) def loadResumeData(self, hypothesis, separator="\n"): text=str(hypothesis) self.clean() for slig in reversed(text.split(separator)): lig=slig.strip() #print "load ResumeData",lig if lig=="": continue #skip blanck lines if lig[0]=="#": break try: tit,value=lig.split("=") if tit=="CheckOrFix": self.RB_Fix1.setChecked(False) self.RB_Fix2.setChecked(False) self.RB_Check.setChecked(False) if value=="fix1pass": self.RB_Fix1.setChecked(True) if value=="fix2pass": self.RB_Fix2.setChecked(True) if value=="check": self.RB_Check.setChecked(True) if tit=="PreserveTopology": self.CB_PreserveTopology.setChecked(value=="True") if tit=="FillHoles": self.CB_FillHoles.setChecked(value=="True") if tit=="MinHoleSize": self.SP_MinHoleSize.setProperty("text", value) if tit=="ComputedToleranceDisplacement": self.CB_ComputedToleranceDisplacement.setChecked(value=="True") if tit=="ToleranceDisplacement": self.SP_ToleranceDisplacement.setProperty("text", value) if tit=="ComputedResolutionLength": self.CB_ComputedResolutionLength.setChecked(value=="True") if tit=="ResolutionLength": self.SP_ResolutionLength.setProperty("text", value) if tit=="FoldingAngle": self.SP_FoldingAngle.setProperty("value", float(value)) if tit=="RemeshPlanes": self.CB_RemeshPlanes.setChecked(value=="True") if tit=="ComputedOverlapDistance": self.CB_ComputedOverlapDistance.setChecked(value=="True") if tit=="OverlapDistance": self.SP_OverlapDistance.setProperty("text", value) if tit=="OverlapAngle": self.SP_OverlapAngle.setProperty("value", float(value)) if tit=="Verbosity": self.SP_Verbosity.setProperty("value", int(float(value))) except: QMessageBox.warning(self, "load MGCleaner Hypothesis", "Problem on '"+lig+"'") def PBLoadPressed(self): """load last hypothesis saved in tail of file""" try: f=open(self.paramsFile,"r") except : QMessageBox.warning(self, "File", "Unable to open "+self.paramsFile) return try: text=f.read() except : QMessageBox.warning(self, "File", "Unable to read "+self.paramsFile) return f.close() self.loadResumeData(text, separator="\n") def PBLoadHypPressed(self): """load hypothesis saved in Object Browser""" #QMessageBox.warning(self, "load Object Browser MGCleaner hypothesis", "TODO") import salome from salome.kernel import studyedit from salome.smesh.smeshstudytools import SMeshStudyTools from salome.gui import helper as guihelper from omniORB import CORBA mySObject, myEntry = guihelper.getSObjectSelected() if CORBA.is_nil(mySObject) or mySObject==None: QMessageBox.critical(self, "Hypothese", "select an Object Browser MGCleaner hypothesis") return #for i in dir(mySObject): print "dir mySObject",i #print "GetAllAttributes",mySObject.GetAllAttributes() #print "GetComment",mySObject.GetComment() #print "GetName",mySObject.GetName() #could be renamed... #if mySObject.GetFather().GetName()!="MGCleaner Hypotheses": # QMessageBox.critical(self, "Hypothese", "not a child of MGCleaner Hypotheses") # return text=mySObject.GetComment() #a verification if "CheckOrFix=" not in text: QMessageBox.critical(self, "Load Hypothese", "Object Browser selection not a MGCleaner Hypothesis") return self.loadResumeData(text, separator=" ; ") return def PBCancelPressed(self): self.close() def PBMeshFilePressed(self): fd = QFileDialog(self, "select an existing Mesh file", self.LE_MeshFile.text(), "Mesh-Files (*.mesh);;All Files (*)") if fd.exec_(): infile = fd.selectedFiles()[0] self.LE_MeshFile.setText(infile) self.fichierIn=infile.toLatin1() self.MeshIn="" self.LE_MeshSmesh.setText("") def setParamsFileName(self): fd = QFileDialog(self, "select a file", self.LE_ParamsFile.text(), "dat Files (*.dat);;All Files (*)") if fd.exec_(): infile = fd.selectedFiles()[0] self.LE_ParamsFile.setText(infile) self.paramsFile=infile.toLatin1() def meshFileNameChanged(self): self.fichierIn=str(self.LE_MeshFile.text()) #print "meshFileNameChanged", self.fichierIn if os.path.exists(self.fichierIn): self.__selectedMesh=None self.MeshIn="" self.LE_MeshSmesh.setText("") return QMessageBox.warning(self, "Mesh file", "File doesn't exist") def meshSmeshNameChanged(self): """only change by GUI mouse selection, otherwise clear""" #self.MeshIn=str(self.LE_MeshSmesh.text()) #print "meshSmeshNameChanged", self.MeshIn self.__selectedMesh = None self.MeshIn="" self.LE_MeshSmesh.setText("") self.fichierIn="" return def paramsFileNameChanged(self): self.paramsFile=self.LE_ParamsFile.text() def PBMeshSmeshPressed(self): from omniORB import CORBA import salome from salome.kernel import studyedit from salome.smesh.smeshstudytools import SMeshStudyTools from salome.gui import helper as guihelper from salome.smesh import smeshBuilder smesh = smeshBuilder.New(salome.myStudy) mySObject, myEntry = guihelper.getSObjectSelected() if CORBA.is_nil(mySObject) or mySObject==None: QMessageBox.critical(self, "Mesh", "select an input mesh") return self.smeshStudyTool = SMeshStudyTools() try: self.__selectedMesh = self.smeshStudyTool.getMeshObjectFromSObject(mySObject) except: QMessageBox.critical(self, "Mesh", "select an input mesh") return if CORBA.is_nil(self.__selectedMesh): QMessageBox.critical(self, "Mesh", "select an input mesh") return myName = mySObject.GetName() #print "MeshSmeshNameChanged", myName self.MeshIn=myName self.LE_MeshSmesh.setText(myName) self.LE_MeshFile.setText("") self.fichierIn="" def prepareFichier(self): self.fichierIn="/tmp/ForMGCleaner_"+str(self.num)+".mesh" self.__selectedMesh.ExportGMF(self.__selectedMesh, self.fichierIn, True) def PrepareLigneCommande(self): """ #use doc examples of mg-cleaner: ls -al /data/tmplgls/salome/prerequis/install/COMMON_64/MeshGems-1.0/bin source /data/tmplgls/salome/prerequis/install/LICENSE/dlim8.var.sh export PATH=/data/tmplgls/salome/prerequis/install/COMMON_64/MeshGems-1.0/bin/Linux_64:$PATH cp -r /data/tmplgls/salome/prerequis/install/COMMON_64/MeshGems-1.0/examples . cd examples mg-cleaner.exe --help mg-cleaner.exe --in case7.mesh --out case7-test.mesh --check mg-cleaner.exe case7.mesh case7-fix.mesh --fix mg-cleaner.exe --in Porsche.mesh --out Porsche-test.mesh --check mg-cleaner.exe --in Porsche.mesh --out Porschefix.mesh --fix mg-cleaner.exe --in Porsche.mesh --out PorscheNewfix.mesh --fix --resolution_length 0.03 """ #self.commande="mg-cleaner.exe --in " + self.fichierIn + " --out " + self.fichierOut + " --fix2pass" #return True #print "PrepareLigneCommande '"+self.fichierIn+"' '"+self.MeshIn+"'",self.__selectedMesh if self.fichierIn=="" and self.MeshIn=="": QMessageBox.critical(self, "Mesh", "select an input mesh") return False if self.__selectedMesh!=None: self.prepareFichier() if not (os.path.isfile(self.fichierIn)): QMessageBox.critical(self, "File", "unable to read GMF Mesh in "+str(self.fichierIn)) return False self.commande="mg-cleaner.exe" verbosity=str(self.SP_Verbosity.value()) self.commande+=" --verbose " + verbosity self.commande+=" --in " + self.fichierIn #print "self.fichierIn",self.fichierIn,type(self.fichierIn) deb=os.path.splitext(str(self.fichierIn)) self.fichierOut=deb[0] + "_fix.mesh" self.commande+=" --out "+self.fichierOut if self.RB_Fix1.isChecked(): self.commande+=" --fix1pass" else: if self.RB_Fix2.isChecked(): self.commande+=" --fix2pass" else: self.commande+=" --check" if self.CB_PreserveTopology.isChecked(): self.commande+=" --topology respect" else: self.commande+=" --topology ignore" if self.CB_FillHoles.isChecked(): #no fill holes default self.commande+=" --min_hole_size " + self.SP_toStr(self.SP_MinHoleSize) if not self.CB_ComputedToleranceDisplacement.isChecked(): #computed default self.commande+=" --tolerance_displacement " + self.SP_toStr(self.SP_ToleranceDisplacement) if not self.CB_ComputedResolutionLength.isChecked(): #computed default self.commande+=" --resolution_length " + self.SP_toStr(self.SP_ResolutionLength) self.commande+=" --folding_angle " + str(self.SP_FoldingAngle.value()) if self.CB_RemeshPlanes.isChecked(): #no remesh default self.commande+=" --remesh_planes" if not self.CB_ComputedOverlapDistance.isChecked(): #computed default self.commande+=" --overlap_distance " + self.SP_toStr(self.SP_OverlapDistance) self.commande+=" --overlap_angle " + str(self.SP_OverlapAngle.value()) return True def clean(self): self.RB_Check.setChecked(False) self.RB_Fix1.setChecked(False) self.RB_Fix2.setChecked(True) self.CB_PreserveTopology.setChecked(False) self.CB_FillHoles.setChecked(False) self.CB_RemeshPlanes.setChecked(False) self.SP_MinHoleSize.setProperty("text", 0) self.SP_ToleranceDisplacement.setProperty("text", 0) self.SP_ResolutionLength.setProperty("text", 0) self.SP_FoldingAngle.setProperty("value", 15) self.SP_OverlapDistance.setProperty("text", 0) self.SP_OverlapAngle.setProperty("value", 15) self.SP_Verbosity.setProperty("value", 3) self.CB_ComputedToleranceDisplacement.setChecked(True) self.CB_ComputedResolutionLength.setChecked(True) self.CB_ComputedOverlapDistance.setChecked(True) __dialog=None def getDialog(): """ This function returns a singleton instance of the plugin dialog. c est obligatoire pour faire un show sans parent... """ global __dialog if __dialog is None: __dialog = MGCleanerMonPlugDialog() #else : # __dialog.clean() return __dialog # # ============================================================================== # For memory # ============================================================================== # def TEST_standalone(): """ works only if a salome is launched yet with a study loaded to launch standalone python do: /export/home/wambeke/2013/V6_main_MGC_CO6.4_64/APPLI/runSession python or (do not works) python /export/home/wambeke/2013/V6_main_MGC_CO6.4_64/INSTALL/SMESH/share/salome/plugins/smesh/MGCleanerMonPlugDialog.py """ import salome import SMESH from salome.kernel import studyedit salome.salome_init() maStudy=studyedit.getActiveStudy() #etc...a mano... # # ============================================================================== # Basic use cases and unit test functions # ============================================================================== # def TEST_MGCleanerMonPlugDialog(): #print "TEST_MGCleanerMonPlugDialog" import sys from PyQt4.QtGui import QApplication from PyQt4.QtCore import QObject, SIGNAL, SLOT app = QApplication(sys.argv) QObject.connect(app, SIGNAL("lastWindowClosed()"), app, SLOT("quit()")) dlg=MGCleanerMonPlugDialog() dlg.show() sys.exit(app.exec_()) if __name__ == "__main__": TEST_MGCleanerMonPlugDialog() #TEST_standalone() pass