# -*- coding: iso-8859-1 -*-
#
#-------------------------------------------------------------------------------
#                    Code_Saturne version 1.3
#                    ------------------------
#
#
#     This file is part of the Code_Saturne User Interface, element of the
#     Code_Saturne CFD tool.
#
#     Copyright (C) 1998-2007 EDF S.A., France
#
#     contact: saturne-support@edf.fr
#
#     The Code_Saturne User Interface is free software; you can redistribute it
#     and/or modify it under the terms of the GNU General Public License
#     as published by the Free Software Foundation; either version 2 of
#     the License, or (at your option) any later version.
#
#     The Code_Saturne User Interface 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 General Public License for more details.
#
#     You should have received a copy of the GNU General Public License
#     along with the Code_Saturne Kernel; if not, write to the
#     Free Software Foundation, Inc.,
#     51 Franklin St, Fifth Floor,
#     Boston, MA  02110-1301  USA
#
#-------------------------------------------------------------------------------


"""
This module defines the coal combustion thermal flow modelling management.

This module contains the following classes and function:
- CoalCombustionModel
- CoalCombustionView
- PageText
- CoalCombustionTestCase
"""


#-------------------------------------------------------------------------------
# Library modules import
#-------------------------------------------------------------------------------


import sys, unittest
import Tix
from Tkconstants import *


#-------------------------------------------------------------------------------
# Application modules import
#-------------------------------------------------------------------------------


from Base.Common import *
import Base.Toolbox as Tool
import Base.Dialog as Dialog
import Base.TkPage as TkPage
import Pages.CoalThermoChemistry as CoalThermoChemistry
import Pages.IdentityAndPathes as IdentityAndPathes
from Base.XMLvariables import Variables
from Pages.FluidCharacteristics import FluidCharacteristicsModel
import Pages.BoundConditions as BoundConditions


#-------------------------------------------------------------------------------
# Coal combustion model class
#-------------------------------------------------------------------------------


class CoalCombustionModel(Variables):
    """
    """
    def __init__(self, case):
        """
        Constructor.
        """
        self.case = case

        nModels         = self.case.xmlGetNode('thermophysical_models')
        self.node_lagr  = self.case.xmlGetNode('lagrangian', 'model')
        self.node_turb  = nModels.xmlGetNode('turbulence',      'model')
        self.node_gas   = nModels.xmlInitNode('gas_combustion',  'model')
        self.node_coal  = nModels.xmlInitNode('pulverized_coal', 'model')
        self.node_joule = nModels.xmlInitNode('joule_effect',    'model')
        self.node_therm = nModels.xmlInitNode('thermal_scalar',  'model')

        self.coalCombustionModel = ('off', 'coal_homo', 'coal_lagr')

    def createModel (self) :
        model = CoalThermoChemistry.CoalThermoChemistryModel("dp_FCP", self.case)
        self.createModelScalars(model)
        self.createModelProperties(model)


    def defaultCoalCombustionValues(self):
        """
        Return in a dictionnary which contains default values.
        """
        default = {}
        default['model'] = "off"

        return default


    def getAllCoalCombustionModels(self):
        """
        Return all defined coal combustion models in a tuple.
        """
        return self.coalCombustionModel


    def coalCombustionModelsList(self):
        """
        Create a tuple with the coal combustion models allowed
        by the analysis features.
        """
        coalCombustionList = self.coalCombustionModel

        if self.node_lagr and self.node_lagr['model'] != 'off':
            coalCombustionList = ('off', 'coal_homo')

        if self.node_turb['model'] not in ('k-epsilon',
                                           'k-epsilon-PL',
                                           'Rij-epsilon',
                                           'Rij-SSG',
                                           'v2f-phi',
                                           'k-omega-SST'):
            coalCombustionList = ('off',)

        return coalCombustionList


    def setCoalCombustionModel(self, model):
        """
        Update the coal combustion model markup from the XML document.
        """
        if model not in self.coalCombustionModelsList():
            msg = "The model " + model + " is not in the coal combustion models list"
            raise ValueError, msg

        if model == 'off':
            self.node_coal['model']   = 'off'
        else:
            self.node_gas['model']   = 'off'
            self.node_coal['model']  = model
            self.node_joule['model'] = 'off'
            self.node_therm['model'] = 'off'

        self.setCoalCombustionDensity(model)


    def setCoalCombustionDensity(self, model):
        """
        Update the coal combustion model markup from the XML document.
        """
        mdl = FluidCharacteristicsModel(self.case)

        if model == 'off':
            w = mdl.node_density.xmlGetDouble('initial_value')

            if w == None:
                v = mdl.defaultFluidCharacteristicsValues()['density']
                mdl.node_density.xmlSetData('initial_value',v)
                mdl.setChoiceNode(mdl.node_density, 'constant')
                mdl.node_density.xmlInitNode('listing_printing', status='off')
                mdl.node_density.xmlInitNode('postprocessing_recording', status='off')

                v = mdl.defaultFluidCharacteristicsValues()['thermal_conductivity']
                mdl.node_cond.xmlSetData('initial_value',v)
                mdl.setChoiceNode(mdl.node_cond, 'constant')
                mdl.node_cond.xmlInitNode('listing_printing', status='off')
                mdl.node_cond.xmlInitNode('postprocessing_recording', status='off')

        else:
            mdl.setChoiceNode(mdl.node_density, 'variable')
            mdl.node_density.xmlRemoveChild('initial_value')
            mdl.node_density.xmlRemoveChild('listing_printing')
            mdl.node_density.xmlRemoveChild('postprocessing_recording')
            mdl.node_cond.xmlRemoveNode()


    def getCoalCombustionModel(self):
        """
        Return the current coal combustion model.
        """
        model = self.node_coal['model']
        if model not in self.coalCombustionModelsList():
            model = self.defaultCoalCombustionValues()['model']
            self.setCoalCombustionModel(model)
        else:
            self.setCoalCombustionDensity(model)

        return model
            
            
    def createModelScalars(self , thermoChemistryModel):
        """
        Enables model scalar
        """
        coalsNumber = thermoChemistryModel.getCoals().getCoalNumber()
        classesNumber = sum(thermoChemistryModel.getCoals().getClassesNumberList())
        #
        # delete old scalars
        #self.deleteAllModelScalars(self.node_coal)
        #
        # add new scalars
        baseNames = ["XCK_CP", "XCH_CP", "NP_CP", "ENT_CP"]
        
        for baseName in baseNames:
            for classe in range(0,classesNumber):
                name = '%s%2.2i' % (baseName, classe+1)
                self.setNewModelScalar(self.node_coal, name)
        
        baseNames = [ "Fr_MV1", "Fr_MV2"]
        for baseName in baseNames:
            for coal in range(0,coalsNumber):
                name = '%s%2.2i' % (baseName, coal+1)
                self.setNewModelScalar(self.node_coal, name)

        self.setNewModelScalar(self.node_coal, "Enthalpy")
        self.setNewModelScalar(self.node_coal, "Fr_HET")
        self.setNewModelScalar(self.node_coal, "Var_AIR")


    def createCoalModelScalars(self , thermoChemistryModel ):
        """
        Enables model scalar
        """
        coalsNumber = thermoChemistryModel.getCoals().getCoalNumber()
        coalClassesNumber = thermoChemistryModel.getCoals().getClassesNumberList()[coalsNumber - 1]
        classesNumber = sum(thermoChemistryModel.getCoals().getClassesNumberList())
        #
        # add new scalars
        baseNames = ["XCK_CP", "XCH_CP", "NP_CP", "ENT_CP"]
        
        for baseName in baseNames:
            for classe in range(classesNumber - coalClassesNumber, classesNumber):
                name = '%s%2.2i' % (baseName, classe+1)
                self.setNewModelScalar(self.node_coal, name)
        
        baseNames = [ "Fr_MV1", "Fr_MV2"]
        for baseName in baseNames:
            name = '%s%2.2i' % (baseName, coalsNumber)
            self.setNewModelScalar(self.node_coal, name)


    def createModelProperties(self, thermoChemistryModel):
        """
        Create model properties
        """
        classesNumber = sum(thermoChemistryModel.getCoals().getClassesNumberList())
        #
        # delete old properties
        #self.deleteAllModelProperties(self.node_coal)
        #
        # create new properties
        self.setNewProperty(self.node_coal, "XM")
        baseNames = ["Temp_CP", "Rho_CP", "Dia_CK", "Ga_DCH",
                     "Ga_DV1", "Ga_DV2", "Ga_HET", "Frm_CP"]
        for baseName in baseNames: 
            for classe in range(0,classesNumber):
                name = '%s%2.2i' % (baseName, classe+1)
                self.setNewProperty(self.node_coal, name)
            
        self.setNewProperty(self.node_coal, "Temp_GAZ")
        self.setNewProperty(self.node_coal, "ROM_GAZ")
        self.setNewProperty(self.node_coal, "YM_CHx1m")
        self.setNewProperty(self.node_coal, "YM_CHx2m")
        self.setNewProperty(self.node_coal, "YM_CO")
        self.setNewProperty(self.node_coal, "YM_O2")
        self.setNewProperty(self.node_coal, "YM_CO2")
        self.setNewProperty(self.node_coal, "YM_H2O")
        self.setNewProperty(self.node_coal, "YM_N2")
        self.setNewProperty(self.node_coal, "ntLuminance_4PI")


    def createCoalModelProperties(self, thermoChemistryModel):
        """
        Create model properties
        """
        coalsNumber = thermoChemistryModel.getCoals().getCoalNumber()
        coalClassesNumber = thermoChemistryModel.getCoals().getClassesNumberList()[coalsNumber-1]
        classesNumber = sum(thermoChemistryModel.getCoals().getClassesNumberList())
        #
        # delete old properties
        #self.deleteAllModelProperties(self.node_coal)
        #
        # create new properties
        baseNames = ["Temp_CP", "Rho_CP", "Dia_CK", "Ga_DCH",
                     "Ga_DV1", "Ga_DV2", "Ga_HET", "Frm_CP"]
        for baseName in baseNames: 
            for classe in range(classesNumber - coalClassesNumber, classesNumber):
                name = '%s%2.2i' % (baseName, classe+1)
                self.setNewProperty(self.node_coal, name)


    def deleteCoalModelProperties(self, thermoChemistryModel, coalNumber):
        """
        delete model properties
        """       
        classMin = 0
        for coal in range(0, coalNumber):
            classMin += thermoChemistryModel.getCoals().getClassesNumberList()[coal]
        classMax = classMin + thermoChemistryModel.getCoals().getClassesNumberList()[coalNumber]          
        classesNumber = sum(thermoChemistryModel.getCoals().getClassesNumberList())
        
        baseNames = ["Temp_CP", "Rho_CP", "Dia_CK", "Ga_DCH",
                     "Ga_DV1", "Ga_DV2", "Ga_HET", "Frm_CP"]
        #
        # Remove coal classes
        nodeList = self.node_coal.xmlGetNodeList('property')
        if nodeList != None:
            for node in nodeList :
                nameNode =node['name']
                for baseName in baseNames: 
                    for classe in range(classMin, classMax):
                        name = '%s%2.2i' % (baseName, classe+1)
                        if ( nameNode == name):
                            node.xmlRemoveNode()              
        #
        # Rename other classes
        nodeList = self.node_coal.xmlGetNodeList('property')
        delta = classMax - classMin
        if nodeList != None:
            for node in nodeList:
                try:
                    oldName = node['name']
                    if oldName[:-2] in baseNames :
                        oldNum = int(oldName[-2:])
                        if oldNum in range(classMax+1, classesNumber+1):
                            name = '%s%2.2i' % (oldName[:-2], oldNum-delta)
                            node['name'] = name
                            if node['label'] == oldName:
                                node['label'] = name

                except:
                    pass
                

    def deleteCoalModelScalars(self, thermoChemistryModel, coalNumber):
        """
        delete model scalars
        """       
        classMin = 0
        for coal in range(0, coalNumber):
            classMin += thermoChemistryModel.getCoals().getClassesNumberList()[coal]
        classMax = classMin + thermoChemistryModel.getCoals().getClassesNumberList()[coalNumber]          
        classesNumber = sum(thermoChemistryModel.getCoals().getClassesNumberList())
        coalsNumber = thermoChemistryModel.getCoals().getCoalNumber()
        baseNames = ["XCK_CP", "XCH_CP", "NP_CP", "ENT_CP"]
        #
        # Remove coal classes
        nodeList = self.node_coal.xmlGetNodeList('scalar', 'name')
        if nodeList != None:
            for node in nodeList :
                nameNode = node['name']
                for baseName in baseNames: 
                    for classe in range(classMin, classMax):
                        name = '%s%2.2i' % (baseName, classe+1)
                        if (nameNode == name):
                            node.xmlRemoveNode()              
        #
        # Rename other classes
        nodeList = self.node_coal.xmlGetNodeList('scalar')
        delta = classMax - classMin
        if nodeList != None:
            for node in nodeList:
                try:
                    oldName = node['name']
                    if oldName[:-2] in baseNames :
                        oldNum = int(oldName[-2:])
                        if oldNum in range(classMax+1, classesNumber+1):
                            name = '%s%2.2i' % (oldName[:-2], oldNum-delta)
                            node['name'] = name
                            if node['label'] == oldName:
                                node['label'] = name
                except:
                    pass
        #
        # Remove coal scalars
        baseNames = [ "Fr_MV1", "Fr_MV2"]
        nodeList = self.node_coal.xmlGetNodeList('scalar')
        if nodeList != None:
            for node in nodeList :
                nameNode = node['name']
                for baseName in baseNames: 
                    name = '%s%2.2i' % (baseName, coalNumber+1)
                    if (nameNode == name):
                        node.xmlRemoveNode()              
        #
        # Rename other coals
        nodeList = self.node_coal.xmlGetNodeList('scalar')
        if nodeList != None:
            for node in nodeList:
                oldName = node['name']
                if oldName[:-2] in baseNames :
                    oldNum = int(oldName[-2:])  
                    if oldNum in range(coalNumber+1, coalsNumber+1):
                        name = '%s%2.2i' % (oldName[:-2], oldNum-1)
                        node['name'] = name
                        if node['label'] == oldName:
                            node['label'] = name


    def deleteClassModelScalars(self, thermoChemistryModel, coalNumber, classeNumber):
        """
        delete model scalars
        """       
        
        classNum = 0 
        if (coalNumber >= 1) :
            for coal in range(0, coalNumber - 1):
                classNum += thermoChemistryModel.getCoals().getClassesNumberList()[coal]
        classNum += classeNumber
        
        
        classesNumber = sum(thermoChemistryModel.getCoals().getClassesNumberList())
        baseNames = ["XCK_CP", "XCH_CP", "NP_CP", "ENT_CP"]
        #
        # Remove coal classes
        nodeList = self.node_coal.xmlGetNodeList('scalar')
        if nodeList != None:
            for node in nodeList :
                nodeName = node['name']
                for baseName in baseNames:
                    name = '%s%2.2i' % (baseName, classNum+1)
                    if (nodeName == name):
                        node.xmlRemoveNode()              
        #
        # Rename other classes
        nodeList = self.node_coal.xmlGetNodeList('scalar')
        if nodeList != None:
            for node in nodeList:
                oldName = node['name']
                if oldName[:-2] in baseNames :
                    oldNum = int(oldName[-2:])  
                    if oldNum in range(classNum + 1, classesNumber + 1):
                        name = '%s%2.2i' % (oldName[:-2], oldNum-1)
                        node['name'] = name
                        if node['label'] == oldName:
                            node['label'] = name


    def deleteClassModelProperties(self, thermoChemistryModel, coalNumber, classeNumber):
        """
        delete model scalars
        """       
        classNum = 0 
        for coal in range(0, coalNumber):
            classNum += thermoChemistryModel.getCoals().getClassesNumberList()[coal]
        classNum += classeNumber
        
        classesNumber = sum(thermoChemistryModel.getCoals().getClassesNumberList())
        baseNames = ["Temp_CP", "Rho_CP", "Dia_CK", "Ga_DCH",
                     "Ga_DV1", "Ga_DV2", "Ga_HET", "Frm_CP"]
        #
        # Remove coal classes
        nodeList = self.node_coal.xmlGetNodeList('property')
        if nodeList != None:
            for node in nodeList :
                nodeName = node['name']
                for baseName in baseNames:
                    name = '%s%2.2i' % (baseName, classNum+1)
                    if (nodeName == name):
                        node.xmlRemoveNode()              
        #
        # Rename other classes
        nodeList = self.node_coal.xmlGetNodeList('property')
        if nodeList != None:
            for node in nodeList:
                oldName = node['name']
                if oldName[:-2] in baseNames :
                    oldNum = int(oldName[-2:])  
                    if oldNum in range(classNum + 1, classesNumber + 1):
                        name = '%s%2.2i' % (oldName[:-2], oldNum-1)
                        node['name'] = name
                        if node['label'] == oldName:
                            node['label'] = name


    def createClassModelProperties(self, thermoChemistryModel, coalNumber):
        """
        Create model properties
        """
        classNum = 0 
        for coal in range(0, coalNumber):
            classNum += thermoChemistryModel.getCoals().getClassesNumberList()[coal]

        classesNumber = sum(thermoChemistryModel.getCoals().getClassesNumberList())
        #
        # delete old properties
        #self.deleteAllModelProperties(self.node_coal)
        #
        # create new properties
        baseNames = ["Temp_CP", "Rho_CP", "Dia_CK", "Ga_DCH",
                     "Ga_DV1", "Ga_DV2", "Ga_HET", "Frm_CP"]
        #
        # Rename other classes
        nodeList = self.node_coal.xmlGetNodeList('property')
        if nodeList != None:
            for node in nodeList:
                oldName = node['name']
                if oldName[:-2] in baseNames :
                    oldNum = int(oldName[-2:])
                    if oldNum in range(classNum, classesNumber + 1):
                        name = '%s%2.2i' % (oldName[:-2], oldNum + 1)
                        node['name'] = name
                        if node['label'] == oldName:
                            node['label'] = name
        #
        # create new properties
        for i in range(len(baseNames)): 
            name = '%s%2.2i' % (baseNames[i], classNum)
            self.setNewProperty(self.node_coal, name)


    def createClassModelScalars(self, thermoChemistryModel, coalNumber):
        """
        Create model properties
        """
        classNum = 0 
        for coal in range(0, coalNumber):
            classNum += thermoChemistryModel.getCoals().getClassesNumberList()[coal]

        classesNumber = sum(thermoChemistryModel.getCoals().getClassesNumberList())
        #
        # delete old properties
        #self.deleteAllModelProperties(self.node_coal)
        #
        # create new properties
        baseNames = ["XCK_CP", "XCH_CP", "NP_CP", "ENT_CP"]

        #
        # Rename other classes
        nodeList = self.node_coal.xmlGetNodeList('scalar')
        if nodeList != None:
            for node in nodeList:
                oldName = node['name']
                if oldName[:-2] in baseNames :
                    oldNum = int(oldName[-2:])  
                    if oldNum in range(classNum, classesNumber + 1):
                        name = '%s%2.2i' % (oldName[:-2], oldNum+1)
                        node['name'] = name
                        if node['label'] == oldName:
                            node['label'] = name
        #
        # create new scalars
        for i in range(len(baseNames)): 
            name = '%s%2.2i' % (baseNames[i], classNum)
            self.setNewModelScalar(self.node_coal, name)

#
#-------------------------------------------------------------------------------
# Main view class
#-------------------------------------------------------------------------------

class Hlist:

    def __init__(self, stbar, parent):
        self.parent = parent
        self.stbar = stbar
        self.h = None
        self.entriesNumber = 0
        self.currentEntry = None
        self.t = PageText()
        self.entriesNumber = 0

    def cancelSelection(self, Entries):
        """
        Fonction for the Popup Menu.
        Blank the selection.
        """
        self.h.hlist.selection_clear()
        
        self.currentEntry = None


##    def eraseEntries(self, Entries):
##        for entry in Entries:
##            entry.delete(0,END)


    def _make_style(self):
        """
        Define beautyfull style in order to display columns in the Hlist.
        """
        self.style={}

        self.style['header'] = Tix.DisplayStyle(Tix.TEXT,
                                                refwindow=self.parent,
                                                anchor=CENTER,
                                                padx=5, pady=2,
                                                font=fB)

        self.style['valb'] = Tix.DisplayStyle(Tix.TEXT,
                                              refwindow=self.parent,
                                              padx=5,
                                              selectforeground='#fefefe',
                                              font=fB)
        
        self.style['val'] = Tix.DisplayStyle(Tix.TEXT,
                                             refwindow=self.parent,
                                             anchor=CENTER,
                                             padx=5,
                                             selectforeground='#fefefe',
                                             font=fN)


    def Init(self):
        pass


class CoalsHlist(Hlist):
    
    
    def __init__(self, stbar, parent, parentBox, funcSelect, funcCreate, funcCancel):

        
        Hlist.__init__(self,stbar, parent)
        self.h = Tix.ScrolledHList(parent, options='hlist.columns 1 hlist.header 1 ' )
        self.h.config(scrollbar="auto ",width=100, height=90)

        Hlist._make_style(self)
        
        self.h.hlist.config(selectmode='single',
                            browsecmd=funcSelect,
                            bg=wm['hlistbackground'])
        self.h.hsb.config(width=10, bd=1)
        self.h.vsb.config(width=10, bd=1)
        self.h.pack(expand=1, fill=BOTH, padx=10, pady=10, side=LEFT)

        # Create the headers
        #
        self.h.hlist.header_create(0, itemtype=Tix.TEXT, text=self.t.NUMBER,
                                   style=self.style['header'])

        # Let configure the appearance of the Hlist subwidget 
        #
        self.h.hlist.config(separator='.', width=25, height=5, drawbranch=0, indent=10)
        # Create the mouse selection instance
        #
        self.box = Tix.ButtonBox(parentBox, orientation=VERTICAL, relief=FLAT)
        self.box.add('create', text=self.t.CREATE)
        self.box.create.bind('<Button-1>', funcCreate)
        self.box.add('erase',  text=self.t.ERASE)
        self.box.erase.bind('<Button-1>',funcCancel)
        self.box.grid(row=0, column=2, rowspan=4, padx=15, pady=2, sticky=W)


    def areaInfo(self):
        """
        Return info from the argument entry.
        """
        # Here we must call the tk function directly without passing in
        # Tix.py, because of a bug in tix8.1 in the Hlist.item_cget function
        #
        h = self.h.hlist 
        number  = h.tk.call(h, 'item', 'cget', self.currentEntry, 0, '-text')
        return number


    def Init(self, model):
        """
        Method for the _initializeWidgets method.
        """

        self.cancelSelection(self.currentEntry)
        
        try:
            self.h.hlist.delete_all()
        except:
            pass

    
        CoalsNumber  = model.getCoals().getNumber()
        
        
        for number in range(0,CoalsNumber):
            self.insertHlist(number + 1)


    def insertHlist(self, number):
        """
        Create the item Hlist associated with the new boundary definition.
        """
        self.stbar.busy()

        #self.entriesNumber += 1

#        if not label: label = "label" + "_" + repr(entriesNumber)
        name = 'item' + repr(number)
        #name = 'item' + repr(self.entriesNumber)
        self.h.hlist.add(name, itemtype=Tix.TEXT, text = self.t.COAL+" "+str(number),
                         style=self.style['valb'])

        self.stbar.idle()
        return number


class ClassesHlist(Hlist):

    def __init__(self, stbar, parent, funcSelect):
        
        Hlist.__init__(self, stbar, parent)
        self.h = Tix.ScrolledHList(self.parent, options='hlist.columns 3 hlist.header 1 ' )
        self.h.config(scrollbar="auto +y", width=190, height=150)

        self._make_style()

        self.h.hlist.config(selectmode='single',
                            browsecmd=funcSelect,
                            bg=wm['hlistbackground'])
        self.h.hsb.config(width=10, bd=1)
        self.h.vsb.config(width=10, bd=1)
        self.h.pack(expand=1, fill=BOTH, padx=10, pady=10, side=TOP)

        # Create the headers
        #
        self.h.hlist.header_create(0, itemtype=Tix.TEXT, text=self.t.NUMBER,
                                   style=self.style['header'])

        self.h.hlist.header_create(1, itemtype=Tix.TEXT, text=self.t.CLASSDIAM,
                                   style=self.style['header'])

        self.h.hlist.column_width(2,0)

        # Let configure the appearance of the Hlist subwidget 
        #
        self.h.hlist.config(separator='.', width=25, height=5, drawbranch=0, indent=10)


    def areaInfo(self):
        """
        Return info from the argument entry.
        """
        # Here we must call the tk function directly without passing in
        # Tix.py, because of a bug in tix8.1 in the Hlist.item_cget function
        #
        h = self.h.hlist 
        number  = h.tk.call(h, 'item', 'cget', self.currentEntry, 0, '-text')
        initDiameter  = h.tk.call(h, 'item', 'cget', self.currentEntry, 1, '-text')
        return number, initDiameter


    def Init(self, coal, entry ):
        """
        Method for the _initializeWidgets method.
        """


        self.cancelSelection(self.currentEntry)
        entry.delete(0, END)
        
        try:
            self.h.hlist.delete_all()
        except:
            pass

    
        ClassesNumber  = coal.getClassesNumber()
        initDiameters  = coal.getInitDiameterClasses()
        
        for number in range(0,ClassesNumber):
            self.insertHlist(number + 1, initDiameters[number] )


    def insertHlist(self, number, initialDiameter):
        """
        Create the item Hlist associated with the new boundary definition.
        """
        self.stbar.busy()

        #self.entriesNumber += 1

        name = 'item' + repr(number)
        self.h.hlist.add(name, itemtype=Tix.TEXT, text = self.t.CLASS+" "+str(number),
                         style=self.style['valb'])

        self.h.hlist.item_create(name, 1, itemtype=Tix.TEXT,
                                 text = str(initialDiameter),
                                 style = self.style['val'])

        self.stbar.idle()
        return number


    def createHlist(self, event = None):
        pass


class CoalCombustionView(TkPage.Page):
    """
    Class to open coal combustion Page.
    """
    def _dependsPages(self, name):
        """
        Construction of the list of dependencies Pages.
        """
        pass


    def _tkControlVariables(self):
        """
        Tkinter variables declaration.
        """
        self.coal_combustion  = Tix.StringVar()
        self.classDiameter    = Tix.DoubleVar()
        self.CComposition     = Tix.DoubleVar()
        self.HComposition     = Tix.DoubleVar()
        self.OComposition     = Tix.DoubleVar()
        self.CCompositionCoke = Tix.DoubleVar()
        self.HCompositionCoke = Tix.DoubleVar()
        self.OCompositionCoke = Tix.DoubleVar()
        self.PCIType          = Tix.StringVar()
        self.typeReact        = Tix.StringVar()
        self.PCI              = Tix.DoubleVar()
        self.PCICoke          = Tix.DoubleVar()
        self.CP               = Tix.DoubleVar()
        self.Density          = Tix.DoubleVar()
        self.AshesRatio       = Tix.DoubleVar()
        self.AshesEnthalpy    = Tix.DoubleVar()
        self.AshesCP          = Tix.DoubleVar()
        self.Y1               = Tix.DoubleVar()
        self.Y2               = Tix.DoubleVar()
        self.A1               = Tix.DoubleVar()
        self.A2               = Tix.DoubleVar()
        self.E1               = Tix.DoubleVar()
        self.E2               = Tix.DoubleVar()
        self.preExpoCst       = Tix.DoubleVar()
        self.activEnergy      = Tix.DoubleVar()
        self.autoY1           = Tix.StringVar()
        self.autoY2           = Tix.StringVar()


    def getIY1(self, event=None):
        self.stbar.busy()

        stat = self.autoY1.get()
        if stat == "on":
            coal = self.coalThermoChModel.getCoals().getCoal(self.coalNumber)
            coal.setIY1CH(0)
            self.coalThermoChModel.getCoals().updateCoal(self.coalNumber,coal)
        else :
            coal = self.coalThermoChModel.getCoals().getCoal(self.coalNumber)
            coal.setIY1CH(1)
            self.coalThermoChModel.getCoals().updateCoal(self.coalNumber,coal)
        
        self.coalThermoChModel.save()   
        self.ActiveWidgetIY1(stat)
        self.stbar.idle()


    def getIY2(self, event=None):

        self.stbar.busy()
        stat = self.autoY2.get()
        if stat == "on":
            coal = self.coalThermoChModel.getCoals().getCoal(self.coalNumber)
            coal.setIY2CH(0)
            self.coalThermoChModel.getCoals().updateCoal(self.coalNumber,coal)
        else :
            coal = self.coalThermoChModel.getCoals().getCoal(self.coalNumber)
            coal.setIY2CH(1)
            self.coalThermoChModel.getCoals().updateCoal(self.coalNumber,coal)

        self.coalThermoChModel.save()   
        self.ActiveWidgetIY2(stat)
        self.stbar.idle()


    def _pageControl(self):
        """
        Instantiate the lagrangian modelling class.
        """
        self.model = CoalCombustionModel(self.case)
        self.bdModel = BoundConditions.BoundaryConditionsModel(self.case)
        self.coalThermoChModel = CoalThermoChemistry.CoalThermoChemistryModel("dp_FCP",self.case)
        ##coal = self.coalThermoChModel.getCoals().getCoal(1)

        self.coalNumber = 0
        ###
        ### Attention voir comment creer un charbon quand il n'y a pas de fichier dp_FCP !
        ####

        t = PageText()
        self.typePCIList =  {'sec':      t.SEC      ,
                             'pur':      t.PUR  }


        self.typeReactList =  {'0.5':     t.REACTORDER05      ,
                               '1':        t.REACTORDER1  }

        self.selectedEntryNb1p1h = None

        
    def putCoalCombustionModel(self, event=None):
        """
        """
        self.model.setCoalCombustionModel(self.coal_combustion.get())


    def getPCIType(self, event=None):
        """
        Return the selected type of boundary condition. Whatever the language,
        type is allways in ('wall','inlet','outlet','symmetry').
        """
        typePCI = self.PCIType.get()

        for key in self.typePCIList.keys():
            if key == typePCI :
                coal = self.coalThermoChModel.getCoals().getCoal(self.coalNumber)
                if key == "sec" :
                    coal.setDry(1)
                elif key == "pur":
                    coal.setDry(0)
                self.coalThermoChModel.getCoals().updateCoal(self.coalNumber,coal)

        self.coalThermoChModel.save()   
        return typePCI


    def getReactType(self, event=None):
        """
        Return the selected type of boundary condition. Whatever the language,
        type is allways in ('wall','inlet','outlet','symmetry').
        """
        typeReact = self.typeReact.get()

        for key in self.typeReactList.keys():
            if self.typeReactList[key] == typeReact :
                typeReact = key
                coal = self.coalThermoChModel.getCoals().getCoal(self.coalNumber)
                if key == "0.5" :
                    coal.setIOCHET(0)
                else:
                    coal.setIOCHET(1)
                self.coalThermoChModel.getCoals().updateCoal(self.coalNumber,coal)

        self.coalThermoChModel.save()   
        return typeReact


    def selectH2(self, entry=None):
        """
        Browsecmd:
        Every single Clik on the Button1 of the mouse send TWO signal to the GUI
        the first one when man push the button, and the second one when the
        button gets back.

        Command:
        Every double-Click and Return send only ONE signal to the GUI.
        """

        self.H2.selectedEntry = self.H2.h.hlist.info_selection()

        if  not self.H2.selectedEntry:
            self.nbp1e1.delete(0,END)

        elif self.H2.currentEntry != self.H2.selectedEntry:

            self.H2.currentEntry = self.H2.selectedEntry
            number, initDiameter = self.H2.areaInfo()
            self.nbp1e1.delete(0,END)
            self.nbp1e1.insert(0,initDiameter)
            self.nbp1e1.icursor(END)


    def selectH1(self, entry=None):
        """
        Browsecmd:
        Every single Clik on the Button1 of the mouse send TWO signal to the GUI
        the first one when man push the button, and the second one when the
        button gets back.

        Command:
        Every double-Click and Return send only ONE signal to the GUI.
        """
        #self.coalThermoChModel.save()

        self.H1.selectedEntry = self.H1.h.hlist.info_selection()


        if not self.H1.selectedEntry:
            return

        elif self.H1.currentEntry != self.H1.selectedEntry:

            self.H1.currentEntry = self.H1.selectedEntry

            h = self.H1.h
            coals = self.coalThermoChModel.getCoals()
            number = self.H1.areaInfo()
            self.coalNumber = int(number.split()[1])
            coal = coals.getCoal(self.coalNumber)
            
            if len(self.H1.currentEntry) == 1:
                #
                # Classes
                self.nbp1box.create.bind('<Button-1>', self.createH2)
                self.nbp1box.create.configure(state=NORMAL)
                self.nbp1box.erase.bind('<Button-1>', self.cancelH2)
                self.nbp1box.erase.configure(state=NORMAL)

                self.H2.Init(coal,self.nbp1e1)
                if coal.getClassesNumber() >= 10:
                    self.nbp1box.create.unbind('<Button-1>')
                    self.nbp1box.create.configure(state=DISABLED)
                if coal.getClassesNumber() <= 1:
                    self.nbp1box.erase.unbind('<Button-1>')
                    self.nbp1box.erase.configure(state=DISABLED)
                #
                # General (composition)
                self.nbp2e1.delete(0,END)
                self.nbp2e1.insert(0,coal.getCDryComposition())
                self.nbp2e1.icursor(END)

                self.nbp2e2.delete(0,END)
                self.nbp2e2.insert(0,coal.getHDryComposition())
                self.nbp2e2.icursor(END)

                self.nbp2e3.delete(0,END)
                self.nbp2e3.insert(0,coal.getODryComposition())
                self.nbp2e3.icursor(END)

                self.nbp2e4.delete(0,END)
                self.nbp2e4.insert(0,coal.getPCIValue())
                self.nbp2e4.icursor(END)

                self.nbp2e5.delete(0,END)
                self.nbp2e5.insert(0,coal.getThermalCapacity())
                self.nbp2e5.icursor(END)

                self.nbp2e6.delete(0,END)
                self.nbp2e6.insert(0,coal.getDensity())
                self.nbp2e6.icursor(END)
                #
                # Coke
                self.nbp3e1.delete(0,END)
                self.nbp3e1.insert(0,coal.getCDryCompositionCoke())
                self.nbp3e1.icursor(END)

                self.nbp3e2.delete(0,END)
                self.nbp3e2.insert(0,coal.getHDryCompositionCoke())
                self.nbp3e2.icursor(END)

                self.nbp3e3.delete(0,END)
                self.nbp3e3.insert(0,coal.getODryCompositionCoke())
                self.nbp3e3.icursor(END)

                self.nbp3e4.delete(0,END)
                self.nbp3e4.insert(0,coal.getPCICokeValue())
                self.nbp3e4.icursor(END)
                #
                # Ashes
                self.nbp4e1.delete(0,END)
                self.nbp4e1.insert(0,coal.getAshesRatio())
                self.nbp4e1.icursor(END)

                self.nbp4e2.delete(0,END)
                self.nbp4e2.insert(0,coal.getAshesFormingEnthalpy())
                self.nbp4e2.icursor(END)

                self.nbp4e3.delete(0,END)
                self.nbp4e3.insert(0,coal.getAshesThermalCapacity())
                self.nbp4e3.icursor(END)
                #
                # Devolatilisation
                stat = self.coalThermoChModel.getCoals().getCoal(self.coalNumber).getIY1CH()
                if stat == 0 :
                    bstat = "on"
                else:
                    bstat = "off"
                self.autoY1.set(bstat)
                self.ActiveWidgetIY1(bstat)

                self.nbp5e1.delete(0,END)
                self.nbp5e1.insert(0,coal.getY1CH())
                self.nbp5e1.icursor(END)

                stat = self.coalThermoChModel.getCoals().getCoal(self.coalNumber).getIY2CH()
                if stat == 0 :
                    bstat = "on"
                else:
                    bstat = "off"
                self.autoY2.set(bstat)
                self.ActiveWidgetIY2(bstat)

                self.nbp5e2.delete(0,END)
                self.nbp5e2.insert(0,coal.getY2CH())
                self.nbp5e2.icursor(END)

                self.nbp5e3.delete(0,END)
                self.nbp5e3.insert(0,coal.getA1CH())
                self.nbp5e3.icursor(END)

                self.nbp5e4.delete(0,END)
                self.nbp5e4.insert(0,coal.getA2CH())
                self.nbp5e4.icursor(END)

                self.nbp5e5.delete(0,END)
                self.nbp5e5.insert(0,coal.getE1CH())
                self.nbp5e5.icursor(END)

                self.nbp5e6.delete(0,END)
                self.nbp5e6.insert(0,coal.getE2CH())
                self.nbp5e6.icursor(END)
                #
                # Combustion heterogene
                self.nbp6e1.delete(0,END)
                self.nbp6e1.insert(0,coal.getAHETCH())
                self.nbp6e1.icursor(END)

                self.nbp6e2.delete(0,END)
                self.nbp6e2.insert(0,coal.getEHETCH())
                self.nbp6e2.icursor(END)

                IOCHET = coal.getIOCHET()
                if IOCHET == 0:
                    key = "0.5"
                else:
                    key = "1"

                self.typeReact.set(self.typeReactList[key])

                Dry = coal.getDry()
                if Dry == 0:
                    key = "pur"
##                else:
                elif Dry == 1:
                    key = "sec"

##               self.PCIType.set(self.typePCIList[key])
                self.PCIType.set(key)


    def cancelH1(self, event = None):
        """ cancel a coal"""
        self.stbar.busy()
        self.H1.selectedEntry = self.H1.h.hlist.info_selection()
        if not self.H1.selectedEntry:
            return

        snumber = self.H1.areaInfo()
        number = int(snumber.split()[1])
        # update Scalars and properties
        self.model.deleteCoalModelScalars(self.coalThermoChModel, number - 1)
        self.model.deleteCoalModelProperties(self.coalThermoChModel, number - 1)
        # update boundary conditions (1/2)
        self.bdModel.deleteCoalFlow(number-1, self.coalThermoChModel.getCoals().getNumber())
        
        self.coalThermoChModel.getCoals().deleteCoal(number)
        self.H1.Init(self.coalThermoChModel)
        self.coalThermoChModel.save()

        self.H1.box.create.configure(state=NORMAL)
        self.H1.box.create.bind('<Button-1>', self.createH1)
        if self.coalThermoChModel.getCoals().getNumber() <= 1:
            self.H1.box.erase.configure(state=DISABLED)
            self.H1.box.erase.unbind('<Button-1>')
        #First coal is selected
        first = 'item' + repr(1)
        last  = first
        self.H1.h.hlist.selection_set(first, last)
        self.selectH1()

        self.stbar.idle()


    def cancelH2(self, event = None):
        """ cancel a class diameter"""
        self.stbar.busy()
        self.H2.selectedEntry = self.H2.h.hlist.info_selection()
        if  not self.H2.selectedEntry:
            return

        snumber, initDiameter = self.H2.areaInfo()
        number = int(snumber.split()[1])
        self.model.deleteClassModelProperties(self.coalThermoChModel, self.coalNumber, number - 1)
        self.model.deleteClassModelScalars(self.coalThermoChModel, self.coalNumber, number - 1)
        # update boundary conditions (1/2)
        coal = self.coalThermoChModel.getCoals().getCoal(self.coalNumber)
        self.bdModel.deleteClassRatio(self.coalNumber, number - 1, coal.getClassesNumber())
        self.bdModel.updateRatio(self.coalNumber) 

        coal.cancelInitDiameterClasses(number)
        self.coalThermoChModel.getCoals().updateCoal(self.coalNumber,coal)
        self.H2.Init(coal,self.nbp1e1)
        self.coalThermoChModel.save()
        #self.model.createModelScalars(self.coalThermoChModel)
        self.nbp1box.create.configure(state=NORMAL)
        self.nbp1box.create.bind('<Button-1>', self.createH2)
        if self.coalThermoChModel.getCoals().getCoal(self.coalNumber).getClassesNumber() <= 1:
            self.nbp1box.erase.configure(state=DISABLED)
            self.nbp1box.erase.unbind('<Button-1>')
        first = 'item' + repr(1)
        last  = first
        self.H2.h.hlist.selection_set(first, last)
        self.selectH2()
        self.stbar.idle()


    def editH2(self, event = None):
        """ update a class diameter"""
        self.stbar.busy()
        t = PageText()

        self.H2.selectedEntry = self.H2.h.hlist.info_selection()
        if  not self.H2.selectedEntry:
            return

        snumber, oldDiameter = self.H2.areaInfo()
        number = int(snumber.split()[1])
        newDiameter = self.classDiameter.get()
        coal = self.coalThermoChModel.getCoals().getCoal(self.coalNumber)
        coal.updateInitDiameterClasses(number, newDiameter)
        self.coalThermoChModel.getCoals().updateCoal(self.coalNumber,coal)
        self.H2.Init(coal,self.nbp1e1)
        self.coalThermoChModel.save()
        self.stbar.idle()


    def createH1(self, event = None):
        """ create a new coal"""
        self.stbar.busy()
        t = PageText()
        
        # update model
        coal = CoalThermoChemistry.Coal()
        self.coalThermoChModel.getCoals().addCoal(coal)
        self.H1.Init(self.coalThermoChModel)
        self.coalThermoChModel.save()
        # update Properties and scalars
        self.model.createCoalModelProperties(self.coalThermoChModel)
        self.model.createCoalModelScalars(self.coalThermoChModel)
        # update Buttons
        if self.coalThermoChModel.getCoals().getNumber() >= 3:
            self.H1.box.create.configure(state=DISABLED)
            self.H1.box.create.unbind('<Button-1>')
        self.H1.box.erase.bind('<Button-1>', self.cancelH1)
        self.H1.box.erase.configure(state=NORMAL)
        # Coal created is selected
        first = 'item' + repr(self.coalThermoChModel.getCoals().getNumber())
        last  = first
        self.H1.h.hlist.selection_set(first, last)
        self.selectH1()

        self.stbar.idle()


    def createH2(self, event = None):
        """ create a new class"""
        self.stbar.busy()

        t = PageText()
        try:
            diameter = self.classDiameter.get()
        except:
            return
        coal = self.coalThermoChModel.getCoals().getCoal(self.coalNumber)
        coal.addInitDiameterClasses(diameter)
        classesNb = coal.getClassesNumber()
        self.coalThermoChModel.getCoals().updateCoal(self.coalNumber,coal)
        self.H2.Init(coal,self.nbp1e1)
        self.coalThermoChModel.save()
        self.model.createClassModelScalars( self.coalThermoChModel, self.coalNumber)
        self.model.createClassModelProperties(self.coalThermoChModel, self.coalNumber)
        self.nbp1box.erase.configure(state=NORMAL)
        self.nbp1box.erase.bind('<Button-1>', self.cancelH2)
        if self.coalThermoChModel.getCoals().getCoal(self.coalNumber).getClassesNumber() >= 10:
            self.nbp1box.create.configure(state=DISABLED)
            self.nbp1box.create.unbind('<Button-1>')
        # Coal created is selected
        first = 'item' + repr(self.coalThermoChModel.getCoals().getCoal(self.coalNumber).getClassesNumber())
        last  = first
        self.H2.h.hlist.selection_set(first, last)
        self.selectH2()
        self.stbar.idle()


    def _createWidgets(self):
        """
        Create the Page layout.
        """

        t = PageText()
        ##lf = Tix.LabelFrame(self.myPage, bd=2,
        ##                    label=t.COALCOMBUSTION, relief=FLAT)
        ##lf.label.config(font=fT)
        ##lf.pack(side=TOP, fill=X, padx=10, pady=10)
        #
        ########################################################
        # NoteBook Page 1 Coals
        ########################################################

        lf = Tix.LabelFrame(self.myPage, bd=2, label=t.COALSLIST, relief=FLAT)
        lf.label.config(font=fT)
        lf.pack(side=TOP)

        self.w1 = Tix.Frame(lf.frame, relief=FLAT)
        self.w1.pack(side=TOP)

        self.w2 = Tix.Frame(self.w1, relief=FLAT)
        self.w2.pack(side=RIGHT)
        
        self.H1 = CoalsHlist(self.stbar, self.w1, self.w2, self.selectH1, self.createH1, self.cancelH1)

        # Separator
        #
        s1 = Tix.Frame(lf.frame, height=2, bd=2, relief=SUNKEN)
        s1.pack(side=TOP, fill=X)

        nb = Tix.NoteBook(lf.frame)
        nb.pack(expand=1, side=TOP, fill=BOTH)
    
        #
        # NoteBook
        # ********
 
        nb.nbframe.config(background=self.bg, backpagecolor=self.bg)
        nb.nbframe.config(focuscolor=self.bg, inactivebackground=wm['inactivebackground'])
        nb.nbframe.config(relief=RAISED)
        nb.nbframe.config(font=fT, tabpadx='10', tabpady='2')
        nb.add('page1', anchor='center', label=t.CLASSES )
        nb.add('page2', anchor='center', label=t.GENERAL   )
        nb.add('page3', anchor='center', label=t.COKE )
        nb.add('page4', anchor='center', label=t.ASHES )
        nb.add('page5', anchor='center', label=t.DEVOLA )
        nb.add('page6', anchor='center', label=t.COMBUSTION )
        
        #
        # NoteBook Page 1 Classes
        # ************************

        nbp1lf1 = Tix.LabelFrame(nb.page1, bd=2, label=t.CLASSES, relief=FLAT)
        nbp1lf1.label.config(font=fT)
        nbp1lf1.pack(side=TOP, fill=X, padx=10, pady=10)

        self.nbp1w1 = Tix.Frame(nbp1lf1.frame, relief=FLAT)
        self.nbp1w1.pack(side=TOP, padx=10, pady=10)

        self.nbp1w2 = Tix.Frame(nbp1lf1.frame, relief=FLAT)
        self.nbp1w2.pack(side=TOP, fill=X, pady=10)
        
        self.H2 = ClassesHlist(self.stbar, self.nbp1w1, self.selectH2)

        nbp1l1 = Tix.Label(self.nbp1w2, text=t.CLASSDIAM)
        nbp1l1.grid(row=1, column=0, padx=3, pady=5, sticky=E)

        self.nbp1e1 = Tix.Entry(self.nbp1w2, bd=2, width=15, textvariable=self.classDiameter)
        self.nbp1e1.grid(row=1, column=1, padx=5, pady=5, sticky=W)

        self.nbp1box = Tix.ButtonBox(self.nbp1w2, orientation=VERTICAL, relief=FLAT)
        self.nbp1box.add('create', text=t.CREATE)
        self.nbp1box.create.bind('<Button-1>',TkPage.Callback(self.createH2))
        self.nbp1box.add('modify', text=t.MODIFY)
        self.nbp1box.modify.bind('<Button-1>',TkPage.Callback(self.editH2))
        self.nbp1box.add('erase',  text=t.ERASE)
        self.nbp1box.erase.bind('<Button-1>',TkPage.Callback(self.cancelH2))
        self.nbp1box.grid(row=0, column=2, rowspan=4, padx=15, pady=2, sticky=W)

        #
        # NoteBook Page 2 G�n�ral
        # *************************
        nbp2f1 = Tix.LabelFrame(nb.page2, bd=2, label=t.COMPOSITION, relief=FLAT)
        nbp2f1.label.config(font=fT)
        nbp2f1.pack(side=TOP , fill=X, padx=10, pady=10)

        self.nbp2w1 = Tix.Frame(nbp2f1.frame, relief=FLAT)
        self.nbp2w1.pack(side=TOP, padx=10, pady=10)

        nbp2l1 = Tix.Label(self.nbp2w1, text=t.CCOMPOSITION)
        nbp2l1.grid(row=1, column=0, padx=3, pady=5, sticky=E)
        self.nbp2e1 = Tix.Entry(self.nbp2w1, bd=2, width=15, textvariable=self.CComposition)
        self.nbp2e1.grid(row=1, column=1, padx=5, pady=5, sticky=W)
        self.nbp2e1.event_add("<<Event>>", "<Return>", "<Leave>", "<FocusOut>")
        self.nbp2e1.bind("<<Event>>",TkPage.Callback(self.getCComposition))
        nbp2l2 = Tix.Label(self.nbp2w1, text=t.PERCENT)
        nbp2l2.grid(row=1, column=2, padx=3, pady=5, sticky=E)

        nbp2l3 = Tix.Label(self.nbp2w1, text=t.HCOMPOSITION)
        nbp2l3.grid(row=2, column=0, padx=3, pady=5, sticky=E)
        self.nbp2e2 = Tix.Entry(self.nbp2w1, bd=2, width=15, textvariable=self.HComposition)
        self.nbp2e2.grid(row=2, column=1, padx=5, pady=5, sticky=W)
        self.nbp2e2.event_add("<<Event>>", "<Return>", "<Leave>", "<FocusOut>")
        self.nbp2e2.bind("<<Event>>",TkPage.Callback(self.getHComposition))
        nbp2l4 = Tix.Label(self.nbp2w1, text=t.PERCENT)
        nbp2l4.grid(row=2, column=2, padx=3, pady=5, sticky=E)

        nbp2l5 = Tix.Label(self.nbp2w1, text=t.OCOMPOSITION)
        nbp2l5.grid(row=3, column=0, padx=3, pady=5, sticky=E)
        self.nbp2e3 = Tix.Entry(self.nbp2w1, bd=2, width=15, textvariable=self.OComposition)
        self.nbp2e3.grid(row=3, column=1, padx=5, pady=5, sticky=W)
        self.nbp2e3.event_add("<<Event>>", "<Return>", "<Leave>", "<FocusOut>")
        self.nbp2e3.bind("<<Event>>",TkPage.Callback(self.getOComposition))
        nbp2l6 = Tix.Label(self.nbp2w1, text=t.PERCENT)
        nbp2l6.grid(row=3, column=2, padx=3, pady=5, sticky=E)

        nbp2f2 = Tix.LabelFrame(nb.page2, bd=2, label=t.PROPERTIES, relief=FLAT)
        nbp2f2.label.config(font=fT)
        nbp2f2.pack(side=TOP, fill=X, padx=10, pady=10)

        nbp2w2 = Tix.Frame(nbp2f2.frame,  relief=FLAT)
        nbp2w2.pack(side=TOP, fill=X, padx=10, pady=10)

        self.nbp2b1 = Tix.OptionMenu(nbp2w2, options='menubutton.width 10')
        self.nbp2b1.menubutton.config(bd=2, relief=RAISED)
        self.nbp2b1.grid(row=1, column=3, padx=0, pady=5, sticky=W)
        for key in self.typePCIList.keys():
##            self.nbp2b1.add_command(self.typePCIList[key], label=self.typePCIList[key])
            self.nbp2b1.add_command(key, label=self.typePCIList[key])
        self.nbp2b1.config(variable=self.PCIType, command=self.getPCIType)

        self.nbp2e4 = Tix.Entry(nbp2w2, bd=2, width=15, textvariable=self.PCI)
        self.nbp2e4.grid(row=1, column=1, padx=5, pady=5, sticky=W)
        self.nbp2e4.event_add("<<Event>>", "<Return>", "<Leave>", "<FocusOut>")
        self.nbp2e4.bind("<<Event>>",TkPage.Callback(self.getPCI))
        nbp2l7 = Tix.Label(nbp2w2, text=t.PCI)
        nbp2l7.grid(row=1, column=0, padx=3, pady=5, sticky=E)
        nbp2l8 = Tix.Label(nbp2w2, text=t.PCIUNIT)
        nbp2l8.grid(row=1, column=2, padx=3, pady=5, sticky=E)

        self.nbp2e5 = Tix.Entry(nbp2w2, bd=2, width=15, textvariable=self.CP)
        self.nbp2e5.grid(row=2, column=1, padx=5, pady=5, sticky=W)
        self.nbp2e5.event_add("<<Event>>", "<Return>", "<Leave>", "<FocusOut>")
        self.nbp2e5.bind("<<Event>>",TkPage.Callback(self.getThermalCapacity))
        nbp2l9 = Tix.Label(nbp2w2, text=t.CP)
        nbp2l9.grid(row=2, column=0, padx=3, pady=5, sticky=E)
        nbp2l10 = Tix.Label(nbp2w2, text=t.CPUNIT)
        nbp2l10.grid(row=2, column=2, padx=3, pady=5, sticky=E)

        self.nbp2e6 = Tix.Entry(nbp2w2, bd=2, width=15, textvariable=self.Density)
        self.nbp2e6.grid(row=3, column=1, padx=5, pady=5, sticky=W)
        self.nbp2e6.event_add("<<Event>>", "<Return>", "<Leave>", "<FocusOut>")
        self.nbp2e6.bind("<<Event>>",TkPage.Callback(self.getDensity))
        nbp2l11 = Tix.Label(nbp2w2, text=t.DENSITY)
        nbp2l11.grid(row=3, column=0, padx=3, pady=5, sticky=E)
        nbp2l12 = Tix.Label(nbp2w2, text=t.DENSITYUNIT)
        nbp2l12.grid(row=3, column=2, padx=3, pady=5, sticky=E)


        #
        # NoteBook Page 3 Coke
        # ***********************
        nbp3lf1 = Tix.LabelFrame(nb.page3, bd=2, label=t.COMPOSITION, relief=FLAT)
        nbp3lf1.label.config(font=fT)
        nbp3lf1.pack(side=TOP, fill=X, padx=10, pady=10)

        self.nbp3w1 = Tix.Frame(nbp3lf1.frame, relief=FLAT)
        self.nbp3w1.pack(side=TOP, padx=10, pady=10)

        nbp3l1 = Tix.Label(self.nbp3w1, text=t.CCOMPOSITION)
        nbp3l1.grid(row=1, column=0, padx=3, pady=5, sticky=E)
        self.nbp3e1 = Tix.Entry(self.nbp3w1, bd=2, width=15, textvariable=self.CCompositionCoke)
        self.nbp3e1.grid(row=1, column=1, padx=5, pady=5, sticky=W)
        self.nbp3e1.event_add("<<Event>>", "<Return>", "<Leave>", "<FocusOut>")
        self.nbp3e1.bind("<<Event>>",TkPage.Callback(self.getCCompositionCoke))
        nbp3l2 = Tix.Label(self.nbp3w1, text=t.PERCENT)
        nbp3l2.grid(row=1, column=2, padx=3, pady=5, sticky=E)

        nbp3l3 = Tix.Label(self.nbp3w1, text=t.HCOMPOSITION)
        nbp3l3.grid(row=2, column=0, padx=3, pady=5, sticky=E)
        self.nbp3e2 = Tix.Entry(self.nbp3w1, bd=2, width=15, textvariable=self.HCompositionCoke)
        self.nbp3e2.grid(row=2, column=1, padx=5, pady=5, sticky=W)
        self.nbp3e2.event_add("<<Event>>", "<Return>", "<Leave>", "<FocusOut>")
        self.nbp3e2.bind("<<Event>>",TkPage.Callback(self.getHCompositionCoke))
        nbp3l4 = Tix.Label(self.nbp3w1, text=t.PERCENT)
        nbp3l4.grid(row=2, column=2, padx=3, pady=5, sticky=E)

        nbp3l5 = Tix.Label(self.nbp3w1, text=t.OCOMPOSITION)
        nbp3l5.grid(row=3, column=0, padx=3, pady=5, sticky=E)
        self.nbp3e3 = Tix.Entry(self.nbp3w1, bd=2, width=15, textvariable=self.OCompositionCoke)
        self.nbp3e3.grid(row=3, column=1, padx=5, pady=5, sticky=W)
        self.nbp3e3.event_add("<<Event>>", "<Return>", "<Leave>", "<FocusOut>")
        self.nbp3e3.bind("<<Event>>",TkPage.Callback(self.getOCompositionCoke))
        nbp3l6 = Tix.Label(self.nbp3w1, text=t.PERCENT)
        nbp3l6.grid(row=3, column=2, padx=3, pady=5, sticky=E)

        nbp3lf2 = Tix.LabelFrame(nb.page3, bd=2, label=t.PROPERTIES, relief=FLAT)
        nbp3lf2.label.config(font=fT)
        nbp3lf2.pack(side=TOP, fill=X, padx=10, pady=10)

        nbp3w2 = Tix.Frame(nbp3lf2.frame,  relief=FLAT)
        nbp3w2.pack(side=TOP, fill=X, padx=10, pady=10)

        self.nbp3e4 = Tix.Entry(nbp3w2, bd=2, width=15, textvariable=self.PCICoke)
        self.nbp3e4.grid(row=1, column=1, padx=5, pady=5, sticky=W)
        self.nbp3e4.event_add("<<Event>>", "<Return>", "<Leave>", "<FocusOut>")
        self.nbp3e4.bind("<<Event>>",TkPage.Callback(self.getPCICoke))
        
        nbp3l7 = Tix.Label(nbp3w2, text=t.PCI)
        nbp3l7.grid(row=1, column=0, padx=3, pady=5, sticky=E)
        nbp3l8 = Tix.Label(nbp3w2, text=t.PCIUNIT)
        nbp3l8.grid(row=1, column=2, padx=3, pady=5, sticky=E)

        #
        # NoteBook Page 4 Ashes
        # *************************
        nbp4lf1 = Tix.LabelFrame(nb.page4, bd=2, label=t.PROPERTIES, relief=FLAT)
        nbp4lf1.label.config(font=fT)
        nbp4lf1.pack(side=TOP, fill=X, padx=10, pady=10)

        nbp4w1 = Tix.Frame(nbp4lf1.frame,  relief=FLAT)
        nbp4w1.pack(side=TOP, fill=X, padx=10, pady=10)

        self.nbp4e1 = Tix.Entry(nbp4w1, bd=2, width=15, textvariable=self.AshesRatio)
        self.nbp4e1.grid(row=1, column=1, padx=5, pady=5, sticky=W)
        self.nbp4e1.event_add("<<Event>>", "<Return>", "<Leave>", "<FocusOut>")
        self.nbp4e1.bind("<<Event>>",TkPage.Callback(self.getAshesRatio))
        nbp4l1 = Tix.Label(nbp4w1, text=t.ASHESRATIO)
        nbp4l1.grid(row=1, column=0, padx=3, pady=5, sticky=E)
        nbp4l2 = Tix.Label(nbp4w1, text=t.PERCENT)
        nbp4l2.grid(row=1, column=2, padx=3, pady=5, sticky=E)
        
        self.nbp4e2 = Tix.Entry(nbp4w1, bd=2, width=15, textvariable=self.AshesEnthalpy)
        self.nbp4e2.grid(row=2, column=1, padx=5, pady=5, sticky=W)
        self.nbp4e2.event_add("<<Event>>", "<Return>", "<Leave>", "<FocusOut>")
        self.nbp4e2.bind("<<Event>>",TkPage.Callback(self.getAshesFormingEnthalpy))
        nbp4l3 = Tix.Label(nbp4w1, text=t.ASHESENTHALPY)
        nbp4l3.grid(row=2, column=0, padx=3, pady=5, sticky=E)
        nbp4l4 = Tix.Label(nbp4w1, text=t.PCIUNIT)
        nbp4l4.grid(row=2, column=2, padx=3, pady=5, sticky=E)

        self.nbp4e3 = Tix.Entry(nbp4w1, bd=2, width=15, textvariable=self.AshesCP)
        self.nbp4e3.grid(row=3, column=1, padx=5, pady=5, sticky=W)
        self.nbp4e3.event_add("<<Event>>", "<Return>", "<Leave>", "<FocusOut>")
        self.nbp4e3.bind("<<Event>>",TkPage.Callback(self.getAshesThermalCapacity))
        nbp4l5 = Tix.Label(nbp4w1, text=t.ASHESCP)
        nbp4l5.grid(row=3, column=0, padx=3, pady=5, sticky=E)
        nbp4l6 = Tix.Label(nbp4w1, text=t.CPUNIT)
        nbp4l6.grid(row=3, column=2, padx=3, pady=5, sticky=E)

        #
        # NoteBook Page 5 Kobayashi
        # ***************************
        nbp5lf1 = Tix.LabelFrame(nb.page5, bd=2, label=t.KOBAYASHIMODEL, relief=FLAT)
        nbp5lf1.label.config(font=fT)
        nbp5lf1.pack(side=TOP, fill=X, padx=10, pady=10)

        nbp5w1 = Tix.Frame(nbp5lf1.frame,  relief=FLAT)
        nbp5w1.pack(side=TOP, fill=X, padx=10, pady=10)

        self.nbp5e1 = Tix.Entry(nbp5w1, bd=2, width=15, textvariable=self.Y1)
        self.nbp5e1.grid(row=1, column=1, padx=5, pady=5, sticky=W)
        self.nbp5e1.event_add("<<Event>>", "<Return>", "<Leave>", "<FocusOut>")
        self.nbp5e1.bind("<<Event>>",TkPage.Callback(self.getY1CH))
        self.nbp5l1 = Tix.Label(nbp5w1, text=t.Y1COEFF)
        self.nbp5l1.grid(row=1, column=0, padx=3, pady=5, sticky=E)
        self.nbp5l2 = Tix.Label(nbp5w1, text=t.AUTOMATCOMPUTE)
        self.nbp5l2.grid(row=1, column=3, padx=3, pady=5, sticky=E)
        self.nbp5b1 = Tix.Checkbutton(nbp5w1, width=8, onvalue="on", offvalue="off",
                                            variable=self.autoY1, command=self.getIY1)
        self.nbp5b1.grid(row=1, column=4, padx=0, pady=5, sticky=W)

        self.nbp5e2 = Tix.Entry(nbp5w1, bd=2, width=15, textvariable=self.Y2)
        self.nbp5e2.grid(row=2, column=1, padx=5, pady=5, sticky=W)
        self.nbp5e2.event_add("<<Event>>", "<Return>", "<Leave>", "<FocusOut>")
        self.nbp5e2.bind("<<Event>>",TkPage.Callback(self.getY2CH))
        self.nbp5l3 = Tix.Label(nbp5w1, text=t.Y2COEFF)
        self.nbp5l3.grid(row=2, column=0, padx=3, pady=5, sticky=E)
        self.nbp5l4 = Tix.Label(nbp5w1, text=t.AUTOMATCOMPUTE)
        self.nbp5l4.grid(row=2, column=3, padx=3, pady=5, sticky=E)
        self.nbp5b2 = Tix.Checkbutton(nbp5w1, width=8, onvalue="on", offvalue="off",
                                            variable=self.autoY2, command=self.getIY2)
        self.nbp5b2.grid(row=2, column=4)

        self.nbp5e3 = Tix.Entry(nbp5w1, bd=2, width=15, textvariable=self.A1)
        self.nbp5e3.grid(row=3, column=1, padx=5, pady=5, sticky=W)
        self.nbp5e3.event_add("<<Event>>", "<Return>", "<Leave>", "<FocusOut>")
        self.nbp5e3.bind("<<Event>>",TkPage.Callback(self.getA1CH))
        nbp5l5 = Tix.Label(nbp5w1, text=t.A1FACTOR)
        nbp5l5.grid(row=3, column=0, padx=3, pady=5, sticky=E)
        nbp5l6 = Tix.Label(nbp5w1, text=t.S1)
        nbp5l6.grid(row=3, column=2, padx=3, pady=5, sticky=E)

        self.nbp5e4 = Tix.Entry(nbp5w1, bd=2, width=15, textvariable=self.A2)
        self.nbp5e4.grid(row=4, column=1, padx=5, pady=5, sticky=W)
        self.nbp5e4.event_add("<<Event>>", "<Return>", "<Leave>", "<FocusOut>")
        self.nbp5e4.bind("<<Event>>",TkPage.Callback(self.getA2CH))
        
        nbp5l7 = Tix.Label(nbp5w1, text=t.A2FACTOR)
        nbp5l7.grid(row=4, column=0, padx=3, pady=5, sticky=E)
        nbp5l8 = Tix.Label(nbp5w1, text=t.S1)
        nbp5l8.grid(row=4, column=2, padx=3, pady=5, sticky=E)

        self.nbp5e5 = Tix.Entry(nbp5w1, bd=2, width=15, textvariable=self.E1)
        self.nbp5e5.grid(row=5, column=1, padx=5, pady=5, sticky=W)
        self.nbp5e5.event_add("<<Event>>", "<Return>", "<Leave>", "<FocusOut>")
        self.nbp5e5.bind("<<Event>>",TkPage.Callback(self.getE1CH))
        nbp5l9 = Tix.Label(nbp5w1, text=t.E1FACTOR)
        nbp5l9.grid(row=5, column=0, padx=3, pady=5, sticky=E)
        nbp5l10 = Tix.Label(nbp5w1, text=t.E1UNIT)
        nbp5l10.grid(row=5, column=2, padx=3, pady=5, sticky=E)

        self.nbp5e6 = Tix.Entry(nbp5w1, bd=2, width=15, textvariable=self.E2)
        self.nbp5e6.grid(row=6, column=1, padx=5, pady=5, sticky=W)
        self.nbp5e6.event_add("<<Event>>", "<Return>", "<Leave>", "<FocusOut>")
        self.nbp5e6.bind("<<Event>>",TkPage.Callback(self.getE2CH))
        nbp5l11 = Tix.Label(nbp5w1, text=t.E2FACTOR)
        nbp5l11.grid(row=6, column=0, padx=3, pady=5, sticky=E)
        nbp5l12 = Tix.Label(nbp5w1, text=t.E1UNIT)
        nbp5l12.grid(row=6, column=2, padx=3, pady=5, sticky=E)


        # NoteBook Page 5 Combustion
        # ****************************
        #

        nbp6lf1 = Tix.LabelFrame(nb.page6, bd=2, label=t.PARAMETERS, relief=FLAT)
        nbp6lf1.label.config(font=fT)
        nbp6lf1.pack(side=TOP, fill=X, padx=10, pady=10)

        nbp6w1 = Tix.Frame(nbp6lf1.frame,  relief=FLAT)
        nbp6w1.pack(side=TOP, fill=X, padx=10, pady=10)
        nbp6w2 = Tix.Frame(nbp6lf1.frame,  relief=FLAT)
        nbp6w2.pack(side=TOP, fill=X, padx=10, pady=10)
        
        self.nbp6e1 = Tix.Entry(nbp6w1, bd=2, width=15, textvariable=self.preExpoCst)
        self.nbp6e1.grid(row=1, column=1, padx=5, pady=5, sticky=W)
        self.nbp6e1.event_add("<<Event>>", "<Return>", "<Leave>", "<FocusOut>")
        self.nbp6e1.bind("<<Event>>",TkPage.Callback(self.getPreExpoCst))
        nbp6l1 = Tix.Label(nbp6w1, text=t.CONST)
        nbp6l1.grid(row=1, column=0, padx=3, pady=5, sticky=E)
        nbp6l2 = Tix.Label(nbp6w1, text=t.CONSTUNIT)
        nbp6l2.grid(row=1, column=4, padx=3, pady=5, sticky=E)

        self.nbp6e2 = Tix.Entry(nbp6w1, bd=2, width=15, textvariable=self.activEnergy)
        self.nbp6e2.grid(row=2, column=1, padx=5, pady=5, sticky=W)
        self.nbp6e2.event_add("<<Event>>", "<Return>", "<Leave>", "<FocusOut>")
        self.nbp6e2.bind("<<Event>>",TkPage.Callback(self.getActivEnergy))
        nbp6l3 = Tix.Label(nbp6w1, text=t.ACTENERGY)
        nbp6l3.grid(row=2, column=0, padx=3, pady=5, sticky=E)
        nbp6l4 = Tix.Label(nbp6w1, text=t.ACTENERGYUNIT)
        nbp6l4.grid(row=2, column=4, padx=3, pady=5, sticky=E)
        
        self.nbp6b1 = Tix.OptionMenu(nbp6w2, options='menubutton.width 20')
        self.nbp6b1.menubutton.config(bd=2, relief=RAISED)
        self.nbp6b1.config(variable=self.typeReact, command=self.getReactType)
        #self.nbp6b1.grid(row=3, column=1, padx=10, pady=5, sticky=W)
        self.nbp6b1.pack(side=TOP)
        for key in self.typeReactList.keys():
            self.nbp6b1.add_command(self.typeReactList[key], label=self.typeReactList[key])

    
    def _initializeWidgets(self):
        """
        Extract resquested informations from XML document.
        This informations are used to initialize the widgets.
        For this page default values of all widgets are necessary
        included in the XML file.
        """
        self.H1.Init(self.coalThermoChModel)
        if self.coalThermoChModel.getCoals().getNumber() >= 3:
            self.H1.box.create.unbind('<Button-1>')
            self.H1.box.create.configure(state=DISABLED)
        if self.coalThermoChModel.getCoals().getNumber() <= 1:
            self.H1.box.erase.unbind('<Button-1>')
            self.H1.box.erase.configure(state=DISABLED)
            
##        try:
        first = 'item' + repr(1)
        last  = first
        self.H1.h.hlist.selection_set(first, last)
        self.selectH1()
##        except:
##            pass


    def getCComposition(self, event=None):
        self.stbar.busy()
        if self.check2.hasType(self.nbp2e1, self.CComposition):
            composition = float(self.CComposition.get())
            coal = self.coalThermoChModel.getCoals().getCoal(self.coalNumber)
            coal.setCDryComposition(composition)
            self.coalThermoChModel.getCoals().updateCoal(self.coalNumber,coal)
        self.coalThermoChModel.save()
        self.stbar.idle()


    def getHComposition(self, event=None):
        self.stbar.busy()
        if self.check2.hasType(self.nbp2e2, self.HComposition):
            composition = float(self.HComposition.get())
            coal = self.coalThermoChModel.getCoals().getCoal(self.coalNumber)
            coal.setHDryComposition(composition)
            self.coalThermoChModel.getCoals().updateCoal(self.coalNumber,coal)
        self.coalThermoChModel.save()
        self.stbar.idle()


    def getOComposition(self, event=None):
        self.stbar.busy()
        if self.check2.hasType(self.nbp2e3, self.OComposition):
            composition = float(self.OComposition.get())
            coal = self.coalThermoChModel.getCoals().getCoal(self.coalNumber)
            coal.setODryComposition(composition)
            self.coalThermoChModel.getCoals().updateCoal(self.coalNumber,coal)
        self.coalThermoChModel.save()
        self.stbar.idle()


    def getPCI(self, event=None):
        self.stbar.busy()
        if self.check2.hasType(self.nbp2e4, self.PCI):
            PCI = float(self.PCI.get())
            coal = self.coalThermoChModel.getCoals().getCoal(self.coalNumber)
            coal.setPCIValue(PCI)
            self.coalThermoChModel.getCoals().updateCoal(self.coalNumber,coal)
        self.coalThermoChModel.save()
        self.stbar.idle()


    def getThermalCapacity(self, event=None):
        self.stbar.busy()
        if self.check2.hasType(self.nbp2e5, self.CP):
            CP = float(self.CP.get())
            coal = self.coalThermoChModel.getCoals().getCoal(self.coalNumber)
            coal.setThermalCapacity(CP)
            self.coalThermoChModel.getCoals().updateCoal(self.coalNumber,coal)
        self.coalThermoChModel.save()
        self.stbar.idle()


    def getDensity(self, event=None):
        self.stbar.busy()
        if self.check2.hasType(self.nbp2e6, self.Density):
            density = float(self.Density.get())
            coal = self.coalThermoChModel.getCoals().getCoal(self.coalNumber)
            coal.setDensity(density)
            self.coalThermoChModel.getCoals().updateCoal(self.coalNumber,coal)
        self.coalThermoChModel.save()
        self.stbar.idle()


    def getCCompositionCoke(self, event=None):
        self.stbar.busy()
        if self.check2.hasType(self.nbp3e1, self.CCompositionCoke):
            composition = float(self.CCompositionCoke.get())
            coal = self.coalThermoChModel.getCoals().getCoal(self.coalNumber)
            coal.setCDryCompositionCoke(composition)
            self.coalThermoChModel.getCoals().updateCoal(self.coalNumber,coal)
        self.coalThermoChModel.save()
        self.stbar.idle()


    def getHCompositionCoke(self, event=None):
        self.stbar.busy()
        if self.check2.hasType(self.nbp3e2, self.HCompositionCoke):
            composition = float(self.HCompositionCoke.get())
            coal = self.coalThermoChModel.getCoals().getCoal(self.coalNumber)
            coal.setHDryCompositionCoke(composition)
            self.coalThermoChModel.getCoals().updateCoal(self.coalNumber,coal)
        self.coalThermoChModel.save()
        self.stbar.idle()


    def getOCompositionCoke(self, event=None):
        self.stbar.busy()
        if self.check2.hasType(self.nbp3e3, self.OCompositionCoke):
            composition = float(self.OCompositionCoke.get())
            coal = self.coalThermoChModel.getCoals().getCoal(self.coalNumber)
            coal.setODryCompositionCoke(composition)
            self.coalThermoChModel.getCoals().updateCoal(self.coalNumber,coal)
        self.coalThermoChModel.save()
        self.stbar.idle()


    def getPCICoke(self, event=None):
        self.stbar.busy()
        if self.check2.hasType(self.nbp3e4, self.PCICoke):
            PCICoke = float(self.PCICoke.get())
            coal = self.coalThermoChModel.getCoals().getCoal(self.coalNumber)
            coal.setPCICokeValue(PCICoke)
            self.coalThermoChModel.getCoals().updateCoal(self.coalNumber,coal)
        self.coalThermoChModel.save()
        self.stbar.idle()
        

    def getAshesRatio(self, event=None):
        self.stbar.busy()
        if self.check2.hasType(self.nbp4e1, self.AshesRatio):
            ashesRatio = float(self.AshesRatio.get())
            coal = self.coalThermoChModel.getCoals().getCoal(self.coalNumber)
            coal.setAshesRatio(ashesRatio)
            self.coalThermoChModel.getCoals().updateCoal(self.coalNumber,coal)
        self.coalThermoChModel.save()
        self.stbar.idle()


    def getAshesFormingEnthalpy(self, event=None):
        self.stbar.busy()
        if self.check2.hasType(self.nbp4e2, self.AshesEnthalpy):
            ashesFormingEnthalpy = float(self.AshesEnthalpy.get())
            coal = self.coalThermoChModel.getCoals().getCoal(self.coalNumber)
            coal.setAshesFormingEnthalpy(ashesFormingEnthalpy)
            self.coalThermoChModel.getCoals().updateCoal(self.coalNumber,coal)
        self.coalThermoChModel.save()
        self.stbar.idle()


    def getAshesThermalCapacity(self, event=None):
        self.stbar.busy()
        if self.check2.hasType(self.nbp4e3, self.AshesCP):
            ashesThermalCapacity = float(self.AshesCP.get())
            coal = self.coalThermoChModel.getCoals().getCoal(self.coalNumber)
            coal.setAshesThermalCapacity(ashesThermalCapacity)
            self.coalThermoChModel.getCoals().updateCoal(self.coalNumber,coal)
        self.coalThermoChModel.save()
        self.stbar.idle()


    def getY1CH(self, event=None):
        self.stbar.busy()
        if self.check2.hasType(self.nbp5e1, self.Y1):
            Y1CH = float(self.Y1.get())
            coal = self.coalThermoChModel.getCoals().getCoal(self.coalNumber)
            coal.setY1CH(Y1CH)
            self.coalThermoChModel.getCoals().updateCoal(self.coalNumber,coal)
        self.coalThermoChModel.save()
        self.stbar.idle()


    def getY2CH(self, event=None):
        self.stbar.busy()
        if self.check2.hasType(self.nbp5e2, self.Y2):
            Y2CH = float(self.Y2.get())
            coal = self.coalThermoChModel.getCoals().getCoal(self.coalNumber)
            coal.setY2CH(Y2CH)
            self.coalThermoChModel.getCoals().updateCoal(self.coalNumber,coal)
        self.coalThermoChModel.save()
        self.stbar.idle()


    def getA1CH(self, event=None):
        self.stbar.busy()
        if self.check2.hasType(self.nbp5e3, self.A1):
            A1CH = float(self.A1.get())
            coal = self.coalThermoChModel.getCoals().getCoal(self.coalNumber)
            coal.setA1CH(A1CH)
            self.coalThermoChModel.getCoals().updateCoal(self.coalNumber,coal)
        self.coalThermoChModel.save()
        self.stbar.idle()


    def getA2CH(self, event=None):
        self.stbar.busy()
        if self.check2.hasType(self.nbp5e4, self.A2):
            A2CH = float(self.A2.get())
            coal = self.coalThermoChModel.getCoals().getCoal(self.coalNumber)
            coal.setA2CH(A2CH)
            self.coalThermoChModel.getCoals().updateCoal(self.coalNumber,coal)
        self.coalThermoChModel.save()
        self.stbar.idle()


    def getE1CH(self, event=None):
        self.stbar.busy()
        if self.check2.hasType(self.nbp5e5, self.E1):
            E1CH = float(self.E1.get())
            coal = self.coalThermoChModel.getCoals().getCoal(self.coalNumber)
            coal.setE1CH(E1CH)
            self.coalThermoChModel.getCoals().updateCoal(self.coalNumber,coal)
        self.coalThermoChModel.save()
        self.stbar.idle()


    def getE2CH(self, event=None):
        self.stbar.busy()
        if self.check2.hasType(self.nbp5e6, self.E2):
            E2CH = float(self.E2.get())
            coal = self.coalThermoChModel.getCoals().getCoal(self.coalNumber)
            coal.setE2CH(E2CH)
            self.coalThermoChModel.getCoals().updateCoal(self.coalNumber,coal)
        self.coalThermoChModel.save()
        self.stbar.idle()


    def getPreExpoCst(self, event=None):
        self.stbar.busy()
        if self.check2.hasType(self.nbp6e1, self.preExpoCst):
            AHETCH = float(self.preExpoCst.get())
            coal = self.coalThermoChModel.getCoals().getCoal(self.coalNumber)
            coal.setAHETCH(AHETCH)
            self.coalThermoChModel.getCoals().updateCoal(self.coalNumber,coal)
        self.coalThermoChModel.save()
        self.stbar.idle()


    def getActivEnergy(self, event=None):
        self.stbar.busy()
        if self.check2.hasType(self.nbp6e2, self.activEnergy):
            EHETCH = float(self.activEnergy.get())
            coal = self.coalThermoChModel.getCoals().getCoal(self.coalNumber)
            coal.setEHETCH(EHETCH)
            self.coalThermoChModel.getCoals().updateCoal(self.coalNumber,coal)
        # A deplacer pour ne le faire qu'une fois a la fer
        self.coalThermoChModel.save()
        self.stbar.idle()


    def ActiveWidgetIY1(self, stat) :
        if stat == 'on':
            self.nbp5e1.config(state=DISABLED, fg='grey')
            self.nbp5e1.unbind("<<Event>>")
            self.nbp5l1.config(fg='grey')

        else :
            self.nbp5e1.config(state=NORMAL, fg='black')
            self.nbp5e1.event_add("<<Event>>", "<Return>", "<Leave>", "<FocusOut>")
            self.nbp5e1.bind("<<Event>>",TkPage.Callback(self.getY1CH))
            self.nbp5l1.config(fg='black')


    def ActiveWidgetIY2(self, stat) :
        if stat == 'on':
            self.nbp5e2.config(state=DISABLED, fg='grey')
            self.nbp5e2.unbind("<<Event>>")
            self.nbp5l3.config(fg='grey')

        else :
            self.nbp5e2.config(state=NORMAL, fg='black')
            self.nbp5e2.event_add("<<Event>>", "<Return>", "<Leave>", "<FocusOut>")
            self.nbp5e2.bind("<<Event>>",TkPage.Callback(self.getY2CH))
            self.nbp5l3.config(fg='black')


#-------------------------------------------------------------------------------
# Text and messages for this page
#-------------------------------------------------------------------------------


class PageText:
    """
    Storage of all texts and mess�gages for this page.
    """
    def __init__(self):
        
        # 1) Texts
        #
        if Tool.GuiParam.lang == 'fr':
            self.COAL              = "Charbon"
            self.CLASS             = "Classe"
            self.KEYWORD           = "Mots cl� Code_Saturne : "
            self.COALCOMBUSTION    = "Combustion du charbon pulv�ris�"
            self.COALS             = "Caract�ristiques des charbons"
            self.COALSLIST         = "Liste des charbons"
            self.SPECIES           = "Caract�ristiques des esp�ces"
            self.SPECIESLIST       = "Liste des esp�ces"
            self.LABEL             = "Label"
            self.CREATE            = "Ajouter"
            self.ERASE             = "Supprimer"
            self.MODIFY            = "Modifier"
            self.ASHES             = "Cendres"
            self.CLASSES           = "Classes"
            self.DEVOLA            = "D�volatilisation"
            self.COMBUSTION        = "Combustion h�t�rog�ne"
            self.GENERAL           = "Composition et propri�t�s"
            self.CLASSDIAM         = "Diam�tre initial"
            self.NUMBER            = "Num�ro"
            self.COKE              = "Coke"
            self.CCOMPOSITION      = "Composition C sur sec"
            self.HCOMPOSITION      = "Composition H sur sec"
            self.OCOMPOSITION      = "Composition O sur sec"
            self.COMPOSITION       = "Composition"
            self.PCI               = "PCI"
            self.PCIUNIT           = "J/kg"
            self.ASHESRATIO        = "Taux de cendres en masse"
            self.ASHESENTHALPY     = "Enthalpie de formation des cendres"
            self.ASHESCP           = "CP des cendres"
            self.KOBAYASHI         = "Coefficient stoechiom�triques"
            self.KOBAYASHIMODEL    = "Mod�le de Kobayashi"
            self.CKOBAYASHI        = "Calcul automatique"
            self.Y1COEFF           = "Coefficient stoechiom�trique Y1"
            self.Y2COEFF           = "Coefficient stoechiom�trique Y2"
            self.AUTOMATCOMPUTE    = "Calcul automatique"
            self.A1FACTOR          = "Facteur pre-exponentielle A1"
            self.A2FACTOR          = "Facteur pre-exponentielle A2"
            self.E1FACTOR          = "Energie d'activation E1"
            self.E2FACTOR          = "Energie d'activation E2"
            self.SEC               = "sur Sec"
            self.PUR               = "sur Pur"
            self.PERCENT           = "%"
            self.PROPERTIES        = "Propri�t�s"
            self.CP                = "Cp"
            self.CPUNIT            = "J/kg/K"
            self.DENSITY           = "Masse volumique"
            self.DENSITYUNIT       = "kg/m3"
            self.S1                = "s-1"
            self.E1UNIT            = "J/mol"
            self.PARAMETERS        = "Param�tres"
            self.CONST             = "Constante pre-exponentielle"
            self.CONSTUNIT         = "kg/m2/s/atm"
            self.ACTENERGY         = "Energie d'activation"
            self.ACTENERGYUNIT     = "kcal/mol"
            self.REACTORDER05      = "Odre de la r�action 0.5"
            self.REACTORDER1       = "Odre de la r�action 1"
            
        else:
            self.COAL              = "Coal"
            self.CLASS             = "Class"
            self.KEYWORD           = "Code_Saturne key words: "
            self.COALCOMBUSTION    = "Pulverized coal combustion"
            self.COALS             = "Coals properties"
            self.COALSLIST         = "Coals list"
            self.SPECIES           = "Species properties"
            self.SPECIESLIST       = "Species list"
            self.LABEL             = "Label"
            self.CREATE            = "Create"
            self.MODIFY            = "Modify"
            self.ASHES             = "Ashes"
            self.ERASE             = "Erase"
            self.CLASSES           = "Classes"
            self.DEVOLA            = "Devolatilisation"
            self.COMBUSTION        = "Heterogeneous combustion"
            self.GENERAL           = "Composition and properties"
            self.CLASSDIAM         = "Initial diameter"
            self.NUMBER            = "Number"
            self.COKE              = "Coke"
            self.CCOMPOSITION      = "Composition C sur sec"
            self.HCOMPOSITION      = "Composition H sur sec"
            self.OCOMPOSITION      = "Composition O sur sec"
            self.COMPOSITION       = "Composition"
            self.PCI               = "PCI"
            self.PCIUNIT           = "J/kg"
            self.ASHESRATIO        = "Taux de cendres en masse"
            self.ASHESENTHALPY     = "Enthalpie de formation des cendres"
            self.ASHESCP           = "CP des cendres"
            self.KOBAYASHI         = "Coefficient stoechiom�triques"
            self.KOBAYASHIMODEL    = "Kobayashi model"
            self.CKOBAYASHI        = "Automatic computation"
            self.Y1COEFF           = "Coefficient stoechiom�trique Y1"
            self.Y2COEFF           = "Coefficient stoechiom�trique Y2"
            self.AUTOMATCOMPUTE    = "Automatic computation"
            self.A1FACTOR          = "Facteur pre-exponentielle A1"
            self.A2FACTOR          = "Facteur pre-exponentielle A2"
            self.E1FACTOR          = "Energie d'activation E1"
            self.E2FACTOR          = "Energie d'activation E2"
            self.SEC               = "sur Sec"
            self.PUR               = "sur Pur"
            self.PERCENT           = "%"
            self.PROPERTIES        = "Properties"
            self.CP                = "Cp"
            self.CPUNIT            = "K/kg/K"
            self.DENSITY           = "Density"
            self.DENSITYUNIT       = "kg/m3"
            self.S1                = "s-1"
            self.E1UNIT            = "J/mol"
            self.PARAMETERS        = "Parameters"
            self.CONST             = "pre-exponentielle constant"
            self.CONSTUNIT         = "kg/m2/s/atm"
            self.ACTENERGY         = "Energie d'activation"
            self.ACTENERGYUNIT     = "kcal/mol"
            self.REACTORDER05      = "Odre de la r�action 0.5"
            self.REACTORDER1       = "Odre de la r�action 1"
            
        # 2) Messages
        #
        if Tool.GuiParam.lang == 'fr':
            self.MSG_COAL     = "S�lectionner un mod�le"
        else:
            self.MSG_COAL     = "Select a model"


#-------------------------------------------------------------------------------
# Coal combustion test case
#-------------------------------------------------------------------------------


class CoalCombustionTestCase(unittest.TestCase):
    """
    """
    def setUp(self):
        """
        This method is executed before all "check" methods.
        """
        from Base.XMLengine import Case
        self.case = Case()

    
    def tearDown(self):
        """
        This method is executed after all "check" methods.
        """
        del self.case


    def checkCoalCombustionInstantiation(self):
        """
        Check whether the CoalCombustionModel class could be instantiated
        """
        model = None
        model = CoalCombustionModel(self.case)

        assert model != None, 'Could not instantiate CoalCombustionModel'


def suite():
    testSuite = unittest.makeSuite(CoalCombustionTestCase, "check")
    return testSuite

    
def runTest():
    runner = unittest.TextTestRunner()
    runner.run(suite())


#-------------------------------------------------------------------------------
# End
#-------------------------------------------------------------------------------