# -*- coding: utf-8 -*-
-# Copyright (C) 2007-2012 EDF R&D
+# Copyright (C) 2007-2021 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.
+# version 2.1 of the License, or (at your option) any later version.
#
# This library is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
#
# See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
#
+
# Modules Python
# Modules Eficas
-import os
-from YamsPlugDialog import Ui_YamsPlugDialog
+import os, subprocess
+import tempfile
+from YamsPlugDialog_ui import Ui_YamsPlugDialog
from monViewText import MonViewText
-from PyQt4.QtGui import *
-from PyQt4.QtCore import *
+from qtsalome import *
+verbose = True
class MonYamsPlugDialog(Ui_YamsPlugDialog,QWidget):
"""
"""
def __init__(self):
- QWidget.__init__(self)
- self.setupUi(self)
- self.connecterSignaux()
- self.fichierIn=""
- self.fichierOut=""
- self.MeshIn=""
- self.num=1
-
-# Ces parametres ne sont pas remis à rien par le clean
- self.paramsFile= os.path.abspath(os.path.join(os.environ['HOME'],'.yams.dat'))
- self.LE_ParamsFile.setText(self.paramsFile)
- self.LE_MeshFile.setText("")
- self.LE_MeshSmesh.setText("")
+ QWidget.__init__(self)
+ self.setupUi(self)
+ self.connecterSignaux()
+ self.fichierIn=""
+ self.fichierOut=""
+ self.MeshIn=""
+ self.commande=""
+ self.num=1
+ self.__selectedMesh=None
+
+ # complex with 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 "MGSurfOptPlugDialog 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 a rien par le clean
+ self.paramsFile= os.path.abspath(os.path.join(os.path.expanduser("~"),".MGSurfOpt.dat"))
+ self.LE_ParamsFile.setText(self.paramsFile)
+ self.LE_MeshFile.setText("")
+ self.LE_MeshSmesh.setText("")
+
+ v1=QDoubleValidator(self)
+ v1.setBottom(0.)
+ #v1.setTop(1000.) #per thousand... only if relative
+ v1.setDecimals(3)
+ self.SP_Tolerance.setValidator(v1)
+ self.SP_Tolerance.titleForWarning="Chordal Tolerance"
+
+ self.SP_MinSize.setDecimals(5)
+
+ self.resize(800, 600)
+ 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_Load,SIGNAL("clicked()"),self.PBLoadPressed)
- self.connect(self.PB_OK,SIGNAL("clicked()"),self.PBOKPressed)
- self.connect(self.PB_Save,SIGNAL("clicked()"),self.PBSavePressed)
- self.connect(self.PB_MeshFile,SIGNAL("clicked()"),self.PBMeshFilePressed)
- self.connect(self.PB_MeshSmesh,SIGNAL("clicked()"),self.PBMeshSmeshPressed)
- 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)
-
+ self.PB_Cancel.clicked.connect(self.PBCancelPressed)
+ self.PB_Default.clicked.connect(self.clean)
+ self.PB_Help.clicked.connect(self.PBHelpPressed)
+ self.PB_OK.clicked.connect(self.PBOKPressed)
+
+ self.PB_Load.clicked.connect(self.PBLoadPressed)
+ self.PB_Save.clicked.connect(self.PBSavePressed)
+ self.PB_LoadHyp.clicked.connect(self.PBLoadHypPressed)
+ self.PB_SaveHyp.clicked.connect(self.PBSaveHypPressed)
+
+ self.PB_MeshFile.clicked.connect(self.PBMeshFilePressed)
+ self.PB_MeshSmesh.clicked.connect(self.PBMeshSmeshPressed)
+ self.LE_MeshSmesh.returnPressed.connect(self.meshSmeshNameChanged)
+ self.PB_ParamsFileExplorer.clicked.connect(self.setParamsFileName)
+ self.LE_MeshFile.returnPressed.connect(self.meshFileNameChanged)
+ self.LE_ParamsFile.returnPressed.connect(self.paramsFileNameChanged)
def PBHelpPressed(self):
- try :
- maDoc=os.environ['DISTENE_YAMS_DOC_PDF']
- except Exception:
- QMessageBox.warning( self, "Help unavailable", str(maDoc) + " not found")
- old_ld=os.getenv("LD_LIBRARY_PATH")
- command="unset LD_LIBRARY_PATH;"
- command+="xdg-open "+maDoc+";"
- command+="export LD_LIBRARY_PATH=%s"%old_ld
- os.system(command)
-
+ import SalomePyQt
+ sgPyQt = SalomePyQt.SalomePyQt()
+ 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/yams/index.html"
+ sgPyQt.helpContext(maDoc,"")
+
+ #maDoc=mydir+"/share/doc/salome/gui/SMESH/yams/_downloads/mg-surfopt_user_manual.pdf"
+ #command="xdg-open "+maDoc+";"
+ #subprocess.call(command, shell=True)
def PBOKPressed(self):
- if not(self.PrepareLigneCommande()) : return
- self.PBSavePressed(NomHypo=True)
- maFenetre=MonViewText(self,self.commande)
- if os.path.isfile(self.fichierOut) :self.enregistreResultat()
+ if not(self.PrepareLigneCommande()):
+ #warning done yet
+ #QMessageBox.warning(self, "Compute", "Command not found")
+ return
+ maFenetre=MonViewText(self,self.commande)
def enregistreResultat(self):
- import smesh
- import SMESH
- import salome
- from salome.kernel import studyedit
-
- maStudy=studyedit.getActiveStudy()
- smesh.SetCurrentStudy(maStudy)
- (outputMesh, status) = smesh.CreateMeshesFromGMF(self.fichierOut)
- meshname = 'yams'+str(self.num)
- smesh.SetName(outputMesh.GetMesh(), meshname)
- outputMesh.Compute()
-
-
- self.editor = studyedit.getStudyEditor() #
- moduleEntry=self.editor.findOrCreateComponent("SMESH","SMESH")
- HypReMeshEntry = self.editor.findOrCreateItem( moduleEntry, name = 'HypoForRemesh',
- comment = 'HypoForRemshing')
- monStudyBuilder=maStudy.NewBuilder();
- monStudyBuilder.NewCommand();
- newStudyIter=monStudyBuilder.NewObject(HypReMeshEntry)
- aNameAttrib=monStudyBuilder.FindOrCreateAttribute(newStudyIter,"AttributeName")
- hypoName = 'monHypo_Yams_'+str(self.num)
- aNameAttrib.SetValue(hypoName)
- aCommentAttrib=monStudyBuilder.FindOrCreateAttribute(newStudyIter,"AttributeComment")
- aCommentAttrib.SetValue(str(self.commande))
-
- SOMesh=maStudy.FindObjectByName(meshname ,"SMESH")[0]
- newLink=monStudyBuilder.NewObject(SOMesh)
- monStudyBuilder.Addreference(newLink, newStudyIter);
- if salome.sg.hasDesktop(): salome.sg.updateObjBrowser(0)
- self.num+=1
- return True
-
- def PBSavePressed(self,NomHypo=False):
- if NomHypo : text = '# Params for Hypothese : monHypo_Yams_'+str(self.num - 1)+"\n"
- else : text = '# Save intermediate params \n'
- text += "# Params for mesh : " + self.LE_MeshSmesh.text() +'\n'
- for RB in self.GBOptim.findChildren(QRadioButton,):
- if RB.isChecked()==True:
- text+="Optimisation ='"+RB.text()+"'\n"
- break
- for RB in self.GBUnit.findChildren(QRadioButton,):
- if RB.isChecked()==True:
- text+="Units ='"+RB.text()+"'\n"
- text+='Chordal_Tolerance_Deviation='+str(self.SP_Tolerance.value())+'\n'
-
- text+='Ridge_Detection=' + str(self.CB_Ridge.isChecked())+'\n'
- text+='Split_Edge=' + str(self.CB_SplitEdge.isChecked())+'\n'
- text+='Point_Smoothing=' + str(self.CB_Point.isChecked())+'\n'
- text+='Geometrical_Approximation='+ str(self.SP_Geomapp.value()) +'\n'
- text+='Ridge_Angle=' + str(self.SP_Ridge.value()) +'\n'
- text+='Maximum_Size=' + str(self.SP_MaxSize.value()) +'\n'
- text+='Minimum_Size=' + str(self.SP_MaxSize.value()) +'\n'
- text+='Mesh_Gradation=' + str(self.SP_Gradation.value())+'\n'
-
- text+='Verbosity=' + str(self.SP_Verbosity.value())+'\n'
- text+='Memory=' + str(self.SP_Memory.value())+'\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()
+ import salome
+ import SMESH
+ from salome.kernel import studyedit
+ from salome.smesh import smeshBuilder
+ smesh = smeshBuilder.New()
+
+ if not os.path.isfile(self.fichierOut):
+ QMessageBox.warning(self, "Compute", "Result file "+self.fichierOut+" not found")
+
+ maStudy=salome.myStudy
+ smesh.UpdateStudy()
+ (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+"_MGSO_"+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", "MGSurfOpt 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()
+ self.num+=1
+ return True
+
+ def PBSavePressed(self):
+ from datetime import datetime
+ if not(self.PrepareLigneCommande()): return
+ text = "# MGSurfOpt 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_risky(self):
+ """
+ save hypothesis in Object Browser outside GEOM ou MESH
+ WARNING: at root of Object Browser is not politically correct
+ """
+ import salome
+
+ if verbose: print("save hypothesis in Object Browser")
+
+ name = "MGSurfOpt"
+ #how ??? icon = "mesh_tree_hypo.png"
+ namei = "MGSurfOpt Parameters_%i" % self.num
+ datai = self.getResumeData(separator=" ; ")
+
+ myStudy = salome.myStudy
+ myBuilder = myStudy.NewBuilder()
+ #myStudy.IsStudyLocked()
+ myComponent = myStudy.FindComponent(name)
+ if myComponent == None:
+ print("myComponent not found, create")
+ myComponent = myBuilder.NewComponent(name)
+ AName = myBuilder.FindOrCreateAttribute(myComponent, "AttributeName")
+ AName.SetValue(name)
+ ACmt = myBuilder.FindOrCreateAttribute(myComponent, "AttributeComment")
+ ACmt.SetValue(name)
+
+ myObject = myBuilder.NewObject(myComponent)
+ AName = myBuilder.FindOrCreateAttribute(myObject, "AttributeName")
+ AName.SetValue(namei)
+ ACmt = myBuilder.FindOrCreateAttribute(myObject, "AttributeComment")
+ ACmt.SetValue(datai)
+
+ if salome.sg.hasDesktop(): salome.sg.updateObjBrowser()
+ self.num += 1
+ if verbose: print(("save %s in Object Browser done: %s\n%s" % (name, myObject.GetID(), datai)))
+ return True
+
+ def PBSaveHypPressed(self):
+ """
+ save hypothesis in Object Browser
+ bug: affichage ne marche pas si inclusion dans dans GEOM ou MESH depuis salome 730
+ """
+ import salome
+ import SMESH
+ from salome.kernel import studyedit
+ from salome.smesh import smeshBuilder
+ #[PAL issue tracker:issue1871] Les nouveaux objets ne s'affichent pas dans SMESH
+ QMessageBox.warning(self, "Save", "waiting for fix: Object Browser will not display hypothesis")
+
+ if verbose: print("save hypothesis in Object Browser")
+ smesh = smeshBuilder.New()
+
+ maStudy=salome.myStudy
+ smesh.UpdateStudy()
+
+ self.editor = studyedit.getStudyEditor()
+ moduleEntry=self.editor.findOrCreateComponent("SMESH","SMESH")
+ HypReMeshEntry = self.editor.findOrCreateItem(
+ moduleEntry, name = "Plugins Hypotheses", icon="mesh_tree_hypo.png")
+ #, comment = "HypothesisForRemeshing" )
+
+ monStudyBuilder=maStudy.NewBuilder()
+ monStudyBuilder.NewCommand()
+ newStudyIter=monStudyBuilder.NewObject(HypReMeshEntry)
+ name = "MGSurfOpt Parameters_%i" % self.num
+ self.editor.setAttributeValue(newStudyIter, "AttributeName", name)
+ data = self.getResumeData(separator=" ; ")
+ self.editor.setAttributeValue(newStudyIter, "AttributeComment", data)
+
+ if salome.sg.hasDesktop(): salome.sg.updateObjBrowser()
+ self.num += 1
+ if verbose: print(("save %s in Object Browser done:\n%s" % (name, data)))
+ return True
+
+ def SP_toStr(self, widget):
+ """only for a QLineEdit widget"""
+ #cr, pos=widget.validator().validate(res, 0) #n.b. "1,3" is acceptable !locale!
+ try:
+ val=float(widget.text())
+ except:
+ QMessageBox.warning(self, widget.titleForWarning, "float value is incorrect: '"+widget.text()+"'")
+ res=str(widget.validator().bottom())
+ widget.setProperty("text", res)
+ return res
+ valtest=widget.validator().bottom()
+ if valtest!=None:
+ if val<valtest:
+ QMessageBox.warning(self, widget.titleForWarning, "float value is under minimum: "+str(val)+" < "+str(valtest))
+ res=str(valtest)
+ widget.setProperty("text", res)
+ return res
+ valtest=widget.validator().top()
+ if valtest!=None:
+ if val>valtest:
+ QMessageBox.warning(self, widget.titleForWarning, "float value is over maximum: "+str(val)+" > "+str(valtest))
+ res=str(valtest)
+ widget.setProperty("text", res)
+ return res
+ return str(val)
+
+ def getResumeData(self, separator="\n"):
+ text=""
+ for RB in self.GBOptim.findChildren(QRadioButton,):
+ if RB.isChecked()==True:
+ text+="Optimisation="+RB.text()+separator
+ break
+ if self.RB_Absolute.isChecked():
+ text+="Units=absolute"+separator
+ else:
+ text+="Units=relative"+separator
+ v=self.SP_toStr(self.SP_Tolerance)
+ text+="ChordalToleranceDeviation="+v+separator
+ text+="RidgeDetection="+str(self.CB_Ridge.isChecked())+separator
+ text+="SplitEdge="+str(self.CB_SplitEdge.isChecked())+separator
+ text+="PointSmoothing="+str(self.CB_Point.isChecked())+separator
+ text+="GeometricalApproximation="+str(self.SP_Geomapp.value())+separator
+ text+="RidgeAngle="+str(self.SP_Ridge.value())+separator
+ text+="MaximumSize="+str(self.SP_MaxSize.value())+separator
+ text+="MinimumSize="+str(self.SP_MinSize.value())+separator
+ text+="MeshGradation="+str(self.SP_Gradation.value())+separator
+ text+="Verbosity="+str(self.SP_Verbosity.value())+separator
+ text+="Memory="+str(self.SP_Memory.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 blank lines
+ if lig[0]=="#": break
+ try:
+ tit,value=lig.split("=")
+ if tit=="Optimisation":
+ #no need: exlusives QRadioButton
+ #for RB in self.GBOptim.findChildren(QRadioButton,):
+ # RB.setChecked(False)
+ for RB in self.GBOptim.findChildren(QRadioButton,):
+ if RB.text()==value :
+ RB.setChecked(True)
+ break
+ if tit=="Units":
+ if value=="absolute":
+ self.RB_Absolute.setChecked(True)
+ self.RB_Relative.setChecked(False)
+ else:
+ self.RB_Absolute.setChecked(False)
+ self.RB_Relative.setChecked(True)
+ if tit=="ChordalToleranceDeviation": self.SP_Tolerance.setProperty("text", float(value))
+ if tit=="RidgeDetection": self.CB_Ridge.setChecked(value=="True")
+ if tit=="SplitEdge": self.CB_SplitEdge.setChecked(value=="True")
+ if tit=="PointSmoothing": self.CB_Point.setChecked(value=="True")
+ if tit=="GeometricalApproximation": self.SP_Geomapp.setProperty("value", float(value))
+ if tit=="RidgeAngle": self.SP_Ridge.setProperty("value", float(value))
+ if tit=="MaximumSize": self.SP_MaxSize.setProperty("value", float(value))
+ if tit=="MinimumSize": self.SP_MinSize.setProperty("value", float(value))
+ if tit=="MeshGradation": self.SP_Gradation.setProperty("value", float(value))
+ if tit=="Verbosity": self.SP_Verbosity.setProperty("value", int(float(value)))
+ if tit=="Memory": self.SP_Memory.setProperty("value", float(value))
+ except:
+ QMessageBox.warning(self, "load MGSurfOpt Hypothesis", "Problem on '"+lig+"'")
def PBLoadPressed(self):
- 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()
- d={}
- exec text in d
- for RB in self.GBOptim.findChildren(QRadioButton,):
- if d['Optimisation']== RB.text():
- RB.setChecked(True)
- break
- for RB in self.GBUnit.findChildren(QRadioButton,):
- if d['Units']== RB.text():
- RB.setChecked(True)
- break
- self.SP_Tolerance.setValue(d['Chordal_Tolerance_Deviation'])
-
- self.CB_Ridge.setChecked(d['Ridge_Detection'])
- self.CB_Point.setChecked(d['Point_Smoothing'])
- self.CB_SplitEdge.setChecked(d['Split_Edge'])
- self.SP_Geomapp.setValue(d['Geometrical_Approximation'])
- self.SP_Ridge.setValue(d['Ridge_Angle'])
- self.SP_MaxSize.setValue(d['Maximum_Size'])
- self.SP_MinSize.setValue(d['Minimum_Size'])
- self.SP_Gradation.setValue(d['Mesh_Gradation'])
-
- self.SP_Verbosity.setValue(d['Verbosity'])
- self.SP_Memory.setValue(d['Memory'])
-
-
+ """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 MGSurfOpt 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 MGSurfOpt hypothesis")
+ return
+
+ text=mySObject.GetComment()
+
+ #a verification
+ if "Optimisation=" not in text:
+ QMessageBox.critical(self, "Load Hypothese", "Object Browser selection not a MGSurfOptHypothesis")
+ return
+ self.loadResumeData(text, separator=" ; ")
+ return
+
def PBCancelPressed(self):
- self.close()
+ 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()
+ 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=str(infile)
+ self.MeshIn=""
+ self.LE_MeshSmesh.setText("")
+ self.__selectedMesh=None
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()
-
+ 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=str(infile)
def meshFileNameChanged(self):
- self.fichierIn=self.LE_MeshFile.text()
- if os.path.exists(self.fichierIn): return
- QMessageBox.warning( self, "Unknown File", "File doesn't exist")
+ 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.__selectedMesh = None
+ self.MeshIn=""
+ self.LE_MeshSmesh.setText("")
+ self.fichierIn=""
+ return
def paramsFileNameChanged(self):
- self.paramsFile=self.LE_ParamsFile.text()
+ self.paramsFile=self.LE_ParamsFile.text()
def PBMeshSmeshPressed(self):
- import salome
- import smesh
- 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, "Mesh", "select an input mesh")
- return
- self.smeshStudyTool = SMeshStudyTools()
+ 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()
+
+ mySObject, myEntry = guihelper.getSObjectSelected()
+ if CORBA.is_nil(mySObject) or mySObject==None:
+ QMessageBox.critical(self, "Mesh", "select an input mesh")
+ #self.LE_MeshSmesh.setText("")
+ #self.MeshIn=""
+ #self.LE_MeshFile.setText("")
+ #self.fichierIn=""
+ return
+ self.smeshStudyTool = SMeshStudyTools()
+ try:
self.__selectedMesh = self.smeshStudyTool.getMeshObjectFromSObject(mySObject)
- if CORBA.is_nil(self.__selectedMesh):
- QMessageBox.critical(self, "Mesh", "select an input mesh")
- return
- myName = mySObject.GetName()
- self.MeshIn=myName
- self.LE_MeshSmesh.setText(myName)
+ 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/PourYam_"+str(self.num)+".mesh"
- import SMESH
- self.__selectedMesh.ExportGMF(self.__selectedMesh,self.fichierIn, True)
+ self.fichierIn=tempfile.mktemp(suffix=".mesh",prefix="ForSurfOpt_")
+ if os.path.exists(self.fichierIn):
+ os.remove(self.fichierIn)
+ self.__selectedMesh.ExportGMF(self.__selectedMesh, self.fichierIn, True)
def PrepareLigneCommande(self):
- self.commande="yams "
- verbosity=str(self.SP_Verbosity.value())
- self.commande+="-v "+verbosity
- for obj in self.mesRB.children():
- try :
- if obj.isChecked():
- self.style=obj.objectName().remove(0,3)
- self.style.replace("_","-")
- break
- except :
- pass
- self.commande+=" -O "+self.style.toLatin1()
- if self.fichierIn=="" and self.MeshIn=="" :
- QMessageBox.critical(self, "Mesh", "select an input mesh")
- return False
- if self.MeshIn!="" : self.prepareFichier()
- if not (os.path.isfile(self.fichierIn)):
- QMessageBox.critical(self, "File", "unable to read GMF Mesh in "+str(self.fichierIn))
- return False
-
- deb=os.path.splitext(self.fichierIn)
- self.fichierOut=deb[0]+'.d.meshb'
-
- if self.RB_Absolute.isChecked()==True :
- self.commande+=' -Dabsolute'
- else :
- self.commande+=' -Drelative'
- self.commande+=',tolerance=%f'%self.SP_Tolerance.value()
- if self.CB_Ridge.isChecked()==False : self.commande+=',nr'
- if self.CB_Point.isChecked()==False : self.commande+=',ns'
- if self.SP_Geomapp.value()!=0.04 : self.commande+=',geomapp=%f'%self.SP_Geomapp.value()
- if self.SP_Ridge.value()!=45.0 : self.commande+=',ridge=%f'%self.SP_Ridge.value()
- if self.SP_MaxSize.value()!=100 : self.commande+=',maxsize=%f'%self.SP_MaxSize.value()
- if self.SP_MinSize.value()!=5 : self.commande+=',minsize=%f'%self.SP_MinSize.value()
- if self.SP_Gradation.value()!=1.3 : self.commande+=',gradation=%f'%self.SP_MaxSize.value()
- if self.CB_SplitEdge.isChecked()==True : self.commande+=',splitedge=1'
-
- if self.SP_Verbosity.value()!=3 : self.commande+=' -v %d'%self.SP_Verbosity.value()
- if self.SP_Memory.value()!=0 : self.commande+=' -m %d'%self.SP_Memory.value()
-
- self.commande+=" "+self.fichierIn
- return True
+ 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-surfopt.exe"
+
+ for obj in self.GBOptim.findChildren(QRadioButton,):
+ try:
+ if obj.isChecked():
+ self.style=obj.objectName().remove(0,3)
+ self.style.replace("_","-")
+ break
+ except:
+ pass
+
+ style = str(self.style)
+ # Translation of old Yams options to new MG-SurfOpt options
+ if style == "0" :
+ self.commande+= " --optimisation only"
+ elif style == "2" :
+ self.commande+= " --Hausdorff_like yes"
+ elif style == "-1":
+ self.commande+= " --enrich no"
+ elif style == "-2":
+ self.commande+= " --Hausdorff_like yes --enrich no"
+ elif style == "U" :
+ self.commande+= " --uniform_flat_subdivision yes"
+ elif style == "S" :
+ self.commande+= " --sand_paper yes"
+ elif style == "G" :
+ self.commande+= " -O G" # This option has not been updated to the new option style yet
+
+ deb=os.path.splitext(self.fichierIn)
+ self.fichierOut=deb[0] + "_output.mesh"
+
+ tolerance=self.SP_toStr(self.SP_Tolerance)
+ if not self.RB_Absolute.isChecked():
+ tolerance+="r"
+ self.commande+=" --chordal_error %s"%tolerance
+
+ if self.CB_Ridge.isChecked() == False : self.commande+=" --compute_ridges no"
+ if self.CB_Point.isChecked() == False : self.commande+=" --optimisation no"
+ if self.CB_SplitEdge.isChecked()== True : self.commande+=" --element_order quadratic"
+ if self.SP_Geomapp.value() != 15.0 : self.commande+=" --geometric_approximation_angle %f"%self.SP_Geomapp.value()
+ if self.SP_Ridge.value() != 45.0 : self.commande+=" --ridge_angle %f"%self.SP_Ridge.value()
+ if self.SP_MaxSize.value() != 100 : self.commande+=" --max_size %f" %self.SP_MaxSize.value()
+ if self.SP_MinSize.value() != 5 : self.commande+=" --min_size %f" %self.SP_MinSize.value()
+ if self.SP_Gradation.value() != 1.3 : self.commande+=" --gradation %f" %self.SP_Gradation.value()
+ if self.SP_Memory.value() != 0 : self.commande+=" --max_memory %d" %self.SP_Memory.value()
+ if self.SP_Verbosity.value() != 3 : self.commande+=" --verbose %d" %self.SP_Verbosity.value()
+
+ self.commande+=' --in "' + self.fichierIn +'"'
+ self.commande+=' --out "' + self.fichierOut +'"'
+
+ print(self.commande)
+ return True
def clean(self):
- self.RB_0.setChecked(True)
- self.RB_G.setChecked(False)
- self.RB_U.setChecked(False)
- self.RB_S.setChecked(False)
- self.RB_2.setChecked(False)
- self.RB_1.setChecked(False)
- self.RB_Absolute.setChecked(False)
- self.RB_Relative.setChecked(True)
- self.SP_Tolerance.setProperty("value", 0.1)
- self.SP_Geomapp.setProperty("value", 0.04)
- self.SP_Ridge.setProperty("value", 45.0)
- self.SP_Gradation.setProperty("value", 1.3)
- self.CB_Ridge.setChecked(True)
- self.CB_Point.setChecked(True)
- self.CB_SplitEdge.setChecked(False)
- self.SP_MaxSize.setProperty("value", -2.0)
- self.SP_MinSize.setProperty("value", -2.0)
- self.SP_Verbosity.setProperty("value", 3)
- self.SP_Memory.setProperty("value", 0)
-
+ self.RB_0.setChecked(True)
+ #no need: exlusives QRadioButton
+ #self.RB_G.setChecked(False)
+ #self.RB_U.setChecked(False)
+ #self.RB_S.setChecked(False)
+ #self.RB_2.setChecked(False)
+ #self.RB_1.setChecked(False)
+ self.RB_Relative.setChecked(True)
+ #no need: exlusives QRadioButton
+ #self.RB_Absolute.setChecked(False)
+ self.SP_Tolerance.setProperty("text", "0.001")
+ self.SP_Geomapp.setProperty("value", 15.0)
+ self.SP_Ridge.setProperty("value", 45.0)
+ self.SP_Gradation.setProperty("value", 1.3)
+ self.CB_Ridge.setChecked(True)
+ self.CB_Point.setChecked(True)
+ self.CB_SplitEdge.setChecked(False)
+ self.SP_MaxSize.setProperty("value", 100)
+ self.SP_MinSize.setProperty("value", 5)
+ self.SP_Verbosity.setProperty("value", 3)
+ self.SP_Memory.setProperty("value", 0)
+ #self.PBMeshSmeshPressed() #do not that! problem if done in load surfopt hypo from object browser
+ self.TWOptions.setCurrentIndex(0) # Reset current active tab to the first tab
__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 = MonYamsPlugDialog()
- #else :
- # __dialog.clean()
- return __dialog
+ """
+ This function returns a singleton instance of the plugin dialog.
+ It is mandatory in order to call show without a parent ...
+ """
+ global __dialog
+ if __dialog is None:
+ __dialog = MonYamsPlugDialog()
+ #else :
+ # __dialog.clean()
+ return __dialog
+#
+# ==============================================================================
+# Basic use cases and unit test functions
+# ==============================================================================
+#
+def TEST_MonYamsPlugDialog():
+ import sys
+ from qtsalome import QApplication
+ app = QApplication(sys.argv)
+ app.lastWindowClosed.connect(app.quit)
+
+ dlg=MonYamsPlugDialog()
+ dlg.show()
+ sys.exit(app.exec_())
+
+if __name__ == "__main__":
+ TEST_MonYamsPlugDialog()
+ pass