import sys, pickle, tempfile, shutil
from os import path, getpid, environ, remove, system
-try:
- from PyQt5.QtCore import *
- from PyQt5.QtGui import *
- from PyQt5.QtWidgets import *
-except:
- from PyQt4.QtCore import *
- from PyQt4.QtGui import *
+from PyQt5.QtCore import *
+from PyQt5.QtGui import *
+from PyQt5.QtWidgets import *
import utilityFunctions as uF
import genereCrack, Zset, output, zcracks_ui
# ---------------------
-uF.removeFromSessionPath('LD_LIBRARY_PATH', 'Meshgems-2111')
-
def stringToFloat(string, typ=float):
if str(string).replace(' ','')=='':
out=[]
self.verbose=1
- #self.connect(self.ui.CBQuad, SIGNAL("toggled(bool)"),self.pressQuad)
- #self.connect(self.ui.btReset, SIGNAL("clicked()"),self.pressReset)
- #self.connect(self.ui.btCancel, SIGNAL("clicked()"),self.pressCancel)
- #self.connect(self.ui.btApply, SIGNAL("clicked()"),self.pressApply)
- #self.connect(self.ui.btApplyClose, SIGNAL("clicked()"),self.pressApplyClose)
- #self.connect(self.ui.btLoad, SIGNAL("clicked()"),self.pressCharger)
- #self.connect(self.ui.btSave, SIGNAL("clicked()"),self.pressSauver)
- #self.connect(self.ui.btLoadCracked, SIGNAL("clicked()"),self.pressLoadCracked)
- #self.connect(self.ui.btLoadSane, SIGNAL("clicked()"),self.pressLoadSane)
-
- #self.connect(self.ui.btGrVol, SIGNAL("clicked()"),self.pressLoadGroupVOL)
- #self.connect(self.ui.btGrFace, SIGNAL("clicked()"),self.pressLoadGroupFACE)
- #self.connect(self.ui.btGrEdge, SIGNAL("clicked()"),self.pressLoadGroupEDGE)
- #self.connect(self.ui.btGrNode, SIGNAL("clicked()"),self.pressLoadGroupNODE)
- #self.connect(self.ui.btGrAll, SIGNAL("clicked()"),self.pressLoadGroupALL)
- #self.connect(self.ui.btVisu, SIGNAL("clicked()"),self.pressVisu)
-
- #self.connect(self.ui.CBAdvanced, SIGNAL("toggled(bool)"),self.pressAdvanced)
-
self.ui.CBQuad.toggled.connect(self.pressQuad)
self.ui.btReset.clicked.connect(self.pressReset)
self.ui.btCancel.clicked.connect(self.pressCancel)
def pressQuad(self):
if self.ui.CBQuad.isChecked():
self.ui.CBBarsoum.setEnabled(True)
- self.ui.valGradation.setText(QString('2.3'))
+ self.ui.valGradation.setText('2.3')
else:
- self.ui.valGradation.setText(QString('1.3'))
+ self.ui.valGradation.setText('1.3')
self.ui.CBBarsoum.setChecked(False)
self.ui.CBBarsoum.setEnabled(False)
tab=onglet.findChildren(QTableWidget)[0]
for irow in range(tab.rowCount()):
if tab.item(irow,0) != None:
- tab.item(irow,0).setText(QString(''))
- self.ui.valGradation.setText(QString('1.3'))
- self.ui.valLayers.setText(QString('5'))
- self.ui.valIterations.setText(QString('2'))
+ tab.item(irow,0).setText('')
+ self.ui.valGradation.setText('1.3')
+ self.ui.valLayers.setText('6')
+ self.ui.valIterations.setText('2')
self.ui.CBIs2D.setChecked(False)
self.ui.CBRefine.setChecked(False)
fileNames = fileDiag.selectedFiles()
filedef = fileNames[0]
filedef = addExtension(str(filedef), 'med')
- self.ui.valCrackedName.setText(QString(filedef))
+ self.ui.valCrackedName.setText(filedef)
def pressLoadSane(self):
if fileDiag.exec_() :
fileNames = fileDiag.selectedFiles()
filedef = fileNames[0]
- self.ui.valSaneName.setText(QString(filedef))
+ self.ui.valSaneName.setText(filedef)
def pressCharger(self):
for cont, obj in enumerate(self.lineEditObjects):
if self.lineEditTypes[cont] in [float, int]:
- obj.setText(QString(self.data['TXT'+self.lineEditNames[cont]]))
+ obj.setText(self.data['TXT'+self.lineEditNames[cont]])
else:
- obj.setText(QString(self.data[self.lineEditNames[cont]]))
+ obj.setText(self.data[self.lineEditNames[cont]])
self.ui.CBQuad.setChecked(True if 'quad' in self.data.keys() and self.data['quad'] else False)
self.ui.CBBarsoum.setChecked(True if 'barsoum' in self.data.keys() and self.data['barsoum'] else False)
self.ui.CBIs2D.setChecked(True if 'is2D' in self.data.keys() and self.data['is2D'] else False)
self.ui.CBRefine.setChecked(True if 'refine' in self.data.keys() and self.data['refine'] else False)
-
-
-
-
- #if self.data['quad']: self.ui.CBQuad.setChecked(True)
- #if self.data['barsoum']: self.ui.CBBarsoum.setChecked(True)
- #if self.data['is2D']: self.ui.CBIs2D.setChecked(True)
- #if self.data['refine']: self.ui.CBRefine.setChecked(True)
self.setTableParameters()
if tab.item(irow,0) == None:
item = QTableWidgetItem()
tab.setItem(irow, 0, item)
- tab.item(irow,0).setText(QString(self.data['TXTcrack'][str(self.ui.tabWidget.tabText(iongl))][str(label)]))
+ tab.item(irow,0).setText(self.data['TXTcrack'][str(self.ui.tabWidget.tabText(iongl))][str(label)])
if str(self.ui.tabWidget.tabText(iongl)) == self.data['TXTcrack']['actif']:
self.ui.tabWidget.setCurrentWidget(onglet)
for group in objetSain.GetGroups():
if (self.GroupToLoad in ['VOL','ALL']) and (group.GetType()==SMESH.VOLUME):
- groupsVOL+=group.GetName().replace(' ','')+" "
+ groupsVOL+=self.cleanGroupName(group)
nGr+=1
if (self.GroupToLoad in ['FACE','ALL']) and (group.GetType()==SMESH.FACE):
- groupsFAC+=group.GetName().replace(' ','')+" "
+ groupsFAC+=self.cleanGroupName(group)
nGr+=1
if (self.GroupToLoad in ['EDGE','ALL']) and (group.GetType()==SMESH.EDGE):
- groupsEDG+=group.GetName().replace(' ','')+" "
+ groupsEDG+=self.cleanGroupName(group)
nGr+=1
if (self.GroupToLoad in ['NODE','ALL']) and (group.GetType()==SMESH.NODE):
- groupsNOD+=group.GetName().replace(' ','')+" "
+ groupsNOD+=self.cleanGroupName(group)
nGr+=1
if groupsVOL!='': self.ui.valGrVol.setText(groupsVOL)
remove(f)
except:
pass
+
+ def cleanGroupName(self, group):
+ name=group.GetName()
+ while name.endswith(' '): name=name[:-1]
+ if ' ' in name:
+ message('A','%s group has a space in its name --> ignored' %name)
+ return('')
+ else:
+ return(name+" ")
+
+ def checkNamesSpaces(self, names):
+ if type(names) is str: names=[names]
+ ok=True
+ for n in names:
+ if ' ' in n:
+ message('E','%s has a space in its name, please remove it' %n, goOn=True)
+ ok=False
+ return(ok)
# ---------------------------------
smesh = smeshBuilder.New(theStudy)
([mesh], status) = smesh.CreateMeshesFromMED(meshFile)
-
+
+ if mesh.NbVolumes()>0:
+ case2D=False
+ mesh.Reorient2DBy3D( [ mesh ], mesh, 1 )
+ else:
+ case2D=True
+
mesh=cleanGroups(mesh)
# Node color status
return(float(maxAR))
-#def extendElsets(meshFile):
- #if not path.isfile(meshFile):
- #message('E','Mesh med file is not valid')
- #return(-1)
-
- #import SMESH, salome
- ##salome.salome_init()
- #theStudy = salome.myStudy
- #from salome.smesh import smeshBuilder
- #smesh = smeshBuilder.New(theStudy)
-
- #([mesh], status) = smesh.CreateMeshesFromMED(meshFile)
-
- ## Node color status
- #nodeList=mesh.GetNodesId()
- #colorList=[0]*len(nodeList)
-
- ## Init using SIDE0 SIDE1
- #for group in mesh.GetGroups():
- #if group.GetType()==SMESH.FACE :
- #color=0
- #if group.GetName()[0:4]=='SIDE0' :
- #color=1
- #elif group.GetName()[0:4]=='SIDE1' :
- #color=2
- #else : continue
- ## Get faces
- #faces=group.GetIDs()
- ## Set faces nodes to given color
- #for face_id in faces :
- #for face_node_id in mesh.GetElemNodes(face_id) :
- #colorList[face_node_id-1]=color
-
- ## Propagates color using elem connectivity
- ## Always propagates max color
- #volElemList=mesh.GetElementsByType(SMESH.VOLUME)
- #ifChanged=True
- #while ifChanged :
- #ifChanged=False
- #minColor=100
- #maxColor=0
- #for elemId in volElemList:
- #for elemNodeId in mesh.GetElemNodes(elemId) :
- #nodeColor=colorList[elemNodeId-1]
- #if nodeColor<minColor : minColor=nodeColor
- #if nodeColor>maxColor : maxColor=nodeColor
- #if minColor!=maxColor :
- #ifChanged = True
- #for elemNodeId in mesh.GetElemNodes(elemId) :
- #colorList[elemNodeId-1]=maxColor
-
- #velem0 = []
- #velem1 = []
- #for elemId in volElemList:
- #elemNodesId=mesh.GetElemNodes(elemId)
- #elemColor=colorList[elemNodesId[0]-1]
- #if(elemColor==1) : velem0.append(elemId)
- #if(elemColor==2) : velem1.append(elemId)
-
- #mesh.MakeGroupByIds('SIDE_co',SMESH.VOLUME,velem0)
- #mesh.MakeGroupByIds('SIDE_ext',SMESH.VOLUME,velem1)
-
- #surfElemList=mesh.GetElementsByType(SMESH.FACE)
- #selem0 = []
- #selem1 = []
- #nbelem0=0
- #nbelem1=0
-
- #for elemId in surfElemList:
- #elemNodesId=mesh.GetElemNodes(elemId)
- #elemColor=colorList[elemNodesId[0]-1]
- #if(elemColor==1) : selem0.append(elemId)
- #if(elemColor==2) : selem1.append(elemId)
-
- #mesh.MakeGroupByIds('SIDE_co',SMESH.FACE,selem0)
- #mesh.MakeGroupByIds('SIDE_ext',SMESH.FACE,selem1)
-
- #maxAR=0.
- #for elem in volElemList:
- #maxAR=max(mesh.GetAspectRatio(elem),maxAR)
- #for elem in surfElemList:
- #maxAR=max(mesh.GetAspectRatio(elem),maxAR)
-
- #mesh.ExportMED(meshFile, 0, SMESH.MED_V2_2, 1, None ,1)
- #return(maxAR)
def removeFromSessionPath(envVar, patern):
