from OMPython import OMCSession from PyQt5.QtCore import * import json import sys from collections import defaultdict class MaterialStream(): counter = 1 def __init__(self, CompNames = []): self.name = 'MaterialStream' + str(MaterialStream.counter) self.type = 'MaterialStream' self.CompNames = CompNames self.count = MaterialStream.counter self.thermoPackage ="RaoultsLaw" self.mode1 = "P" self.mode2 = "T" self.mode1val = "" self.mode2val = "" self.OM_data_init = '' self.OM_data_eqn = '' self.no_of_inputs = 1 self.no_of_outputs = 1 self.x = 2500-30 self.y = 2500-30 self.pos = QPointF(self.x, self.y) MaterialStream.counter+=1 self.startDict = {} self.eqnDict = {} self.modesList = ["PT","PH","PVF","TVF","PS"] self.variables = { 'P' : {'name':'Pressure', 'value':101325, 'unit':'Pa'}, # {'Pa':1, 'mmHg':0, 'N/m^2':0}}, 'T' : {'name':'Temperature', 'value':300, 'unit':'K'}, 'xvap' : {'name':'Vapour Phase Mole Fraction', 'value':None, 'unit':'g/s'}, 'H_p[1]' : {'name':'Mixture Phase Molar Entalpy', 'value':None, 'unit':'g/s'}, 'S_p[1]' : {'name':'Mixture Phase Molar Entropy', 'value':None, 'unit':'g/s'}, 'F_p[1]' : {'name':'Mixture Molar Flow Rate', 'value':None, 'unit':'g/s'}, 'H_p[2]' : {'name':'Liquid Phase Molar Entalpy', 'value':None, 'unit':'g/s'}, 'S_p[2]' : {'name':'Liquid Phase Molar Entropy', 'value':None, 'unit':'g/s'}, 'F_p[2]' : {'name':'Liquid Molar Flow Rate', 'value':None, 'unit':'g/s'}, 'H_p[3]' : {'name':'Vapour Phase Molar Entalpy', 'value':None, 'unit':'g/s'}, 'S_p[3]' : {'name':'Vapour Phase Molar Entropy', 'value':None, 'unit':'g/s'}, 'F_p[3]' : {'name':'Vapour Molar Flow Rate', 'value':None, 'unit':'g/s'}, 'x_pc' : {'name':'Mole Fraction', 'value':1.0, 'unit':'mol/s'}, 'xm_pc' : {'name':'Mass Fraction', 'value':None, 'unit':'g/s'}, 'F_pc' : {'name':'Mole Flow', 'value':100, 'unit':'mol/s'}, 'Fm_pc' : {'name':'Mass Flow', 'value':None, 'unit':'g/s'}, } self.initVariables() def initVariables(self): for i, val in enumerate(self.CompNames): self.variables['x_pc[1,'+ str(i+1)+']'] = {'name':val + ' Mixture Mole Fraction', 'value':None, 'unit':'mol/s'} self.variables['xm_pc[1,'+ str(i+1)+']'] = {'name':val + ' Mixture Mass Fraction', 'value':None, 'unit':'g/s'} self.variables['F_pc[1,'+ str(i+1)+']'] = {'name':val + ' Mixture Mole Flow', 'value':None, 'unit':'mol/s'} self.variables['Fm_pc[1,'+ str(i+1)+']'] = {'name':val + ' Mixture Mass Flow', 'value':None, 'unit':'g/s'} self.variables['x_pc[2,'+ str(i+1)+']'] = {'name':[val + ' Liquid Mole Fraction'], 'value':None, 'unit':'mol/s'} self.variables['xm_pc[2,'+ str(i+1)+']'] = {'name':[val + ' Liquid Mass Fraction'], 'value':None, 'unit':'g/s'} self.variables['F_pc[2,'+ str(i+1)+']'] = {'name':[val + ' Liquid Mole Flow'], 'value':None, 'unit':'mol/s'} self.variables['Fm_pc[2,'+ str(i+1)+']'] = {'name':[val + ' Liquid Mass Flow'], 'value':None, 'unit':'g/s'} self.variables['x_pc[3,'+ str(i+1)+']'] = {'name':[val + ' Vapour Mole Fraction'], 'value':None, 'unit':'mol/s'} self.variables['xm_pc[3,'+ str(i+1)+']'] = {'name':[val + ' Vapour Mass Fraction'], 'value':None, 'unit':'g/s'} self.variables['F_pc[3,'+ str(i+1)+']'] = {'name':[val + ' Vapour Mole Flow'], 'value':None, 'unit':'mol/s'} self.variables['Fm_pc[3,'+ str(i+1)+']'] = {'name':[val + ' Vapour Mass Flow'], 'value':None, 'unit':'g/s'} for i in self.CompNames: self.variables[i] = {'value':''} def paramgetter(self,mode): dict = {} if(mode=="PT"): self.mode1 = 'P' self.mode2 = 'T' dict = {self.mode1:self.variables['P']['value'], self.mode2:self.variables['T']['value'], "MolFlow":self.variables['F_pc']['value'],"x_pc":self.variables['x_pc']['value'], "thermoPackage":self.thermoPackage} elif(mode=="PH"): self.mode1 = 'P' self.mode2 = 'H_p[1]' dict = {self.mode1:self.variables['P']['value'], self.mode2:self.variables['H_p[1]']['value'], "MolFlow":self.variables['F_pc']['value'], "x_pc":self.variables['x_pc']['value'], "thermoPackage":self.thermoPackage} elif(mode=="PVF"): self.mode1 = 'P' self.mode2 = 'xvap' dict = {self.mode1:self.variables['P']['value'], self.mode2:self.variables['xvap']['value'], "MolFlow":self.variables['F_pc']['value'], "x_pc":self.variables['x_pc']['value'], "thermoPackage":self.thermoPackage} elif(mode=="TVF"): self.mode1 = 'T' self.mode2 = 'xvap' dict = {self.mode1:self.variables['T']['value'], self.mode2:self.variables['xvap']['value'], "MolFlow":self.variables['F_pc']['value'], "x_pc":self.variables['x_pc']['value'], "thermoPackage":self.thermoPackage} elif(mode=="PS"): self.mode1 = 'P' self.mode2 = 'S_p[1]' dict = {self.mode1:self.variables['P']['value'], self.mode2: self.variables['S_p[1]']['value'], "MolFlow":self.variables['F_pc']['value'], "x_pc":self.variables['x_pc']['value'], "thermoPackage":self.thermoPackage} return dict def paramsetter(self,dict): print("inside paramsetter ", dict) self.variables['x_pc']['value'] = dict['x_pc'].split(",") self.thermoPackage = dict['thermoPackage'] self.variables['F_p[1]']['value'] = dict['MolFlow'] print("inside") # self.Prop[self.mode2] = dict[self.mode2] # self.Prop[self.mode1] = dict[self.mode1] self.variables[self.mode1]['value'] = dict[self.mode1] self.variables[self.mode2]['value'] = dict[self.mode2] print(self.variables) print(self.variables['x_pc']['value']) for i in range(len(self.CompNames)): print('####### x_pc #########\n',self.variables['x_pc']['value'][i]) print('x_pc') if self.variables['x_pc']['value'][i]: self.variables['x_pc[1,'+str(i+1)+']']['value'] = self.variables['x_pc']['value'][i] else: self.variables['x_pc[1,'+str(i+1)+']']['value'] = None print('xm_pc') # if self.variables['xm_pc']['value'][i]: # self.variables['xm_pc[1,'+str(i+1)+']']['value'] = self.variables['xm_pc']['value'][i] # else: self.variables['xm_pc[1,'+str(i+1)+']']['value'] = self.variables['xm_pc']['value'] print('f_pc') self.variables['F_pc[1,'+str(i+1)+']']['value'] = None print('fm_pc') self.variables['Fm_pc[1,'+str(i+1)+']']['value'] = None print('first for') print('secnod for') for i in range(0,len(self.CompNames)): self.variables['x_pc[2,'+str(i+1)+']']['value'] = None self.variables['xm_pc[2,'+str(i+1)+']']['value'] = None self.variables['F_pc[2,'+str(i+1)+']']['value'] = None self.variables['Fm_pc[2,'+str(i+1)+']']['value'] = None self.variables['x_pc[3,'+str(i+1)+']']['value'] = None self.variables['xm_pc[3,'+str(i+1)+']']['value'] = None self.variables['F_pc[3,'+str(i+1)+']']['value'] = None self.variables['Fm_pc[3,'+str(i+1)+']']['value'] = None def setPos(self,pos): self.pos = pos def GetMinEqnValues(self): x_pclist = [] for i in range(0,len(self.CompNames)): #print(self.Prop['x_pc[1,'+str(i+1)+']']) #x_pclist.append(self.Prop['x_pc[1,'+str(i+1)+']']) x_pclist.append(self.variables['x_pc[1,'+str(i+1)+']']['value']) print(x_pclist) #x_pclist = list(self.Prop(x_pc[1,1)]) x_pc = json.dumps(x_pclist) print(x_pc) x_pc = x_pc.replace('[','{') x_pc = x_pc.replace(']','}') x_pc = x_pc.replace('"','') ''' x_pcstr = json.dumps(self.x_pc) x_pcstr = x_pcstr.replace('[','{') x_pcstr = x_pcstr.replace(']','}') x_pcstr = x_pcstr.replace('"','') ''' if self.variables[self.mode1]['value']: self.eqnDict[self.mode1] = self.variables[self.mode1]['value'] if self.variables[self.mode2]['value']: self.eqnDict[self.mode2] = self.variables[self.mode2]['value'] if self.variables['x_pc']['value']: self.eqnDict['x_pc[1,:]'] = x_pc if self.variables['F_pc']['value']: self.eqnDict['F_p[1]'] = self.variables['F_pc']['value'] print("##############$GetMinVEqnValuesStart$##################") print("P:",self.variables[self.mode1]['value']) print("T:",self.variables[self.mode2]['value']) print("x_pc",self.variables['x_pc']['value']) print("F_p",self.variables['F_p[1]']['value']) print("##############$GetMinVEqnValuesEnd$##################") def GetStartValues(self): try: if self.variables[self.mode1]['value']: self.startDict[self.mode1] = self.variables[self.mode1]['value'] if self.variables[self.mode2]['value']: self.startDict[self.mode2] = self.variables[self.mode2]['value'] if self.variables['x_pc[2,1]']['value'] != None: x_pcarr = [] for i in range(1,4): cmf = [] for j in range(1,len(self.CompNames)+1): cmf.append(str(self.variables['x_pc['+str(i)+','+str(j)+']']['value'])) x_pcarr.append(cmf) x_pcstr = json.dumps(x_pcarr) x_pcstr = x_pcstr.replace('[','{') x_pcstr = x_pcstr.replace(']','}') x_pcstr = x_pcstr.replace('"','') self.startDict['x_pc'] = x_pcstr if self.variables['xm_pc[2,1]']['value'] != None: xm_pcarr = [] for i in range(1,4): cmf = [] for j in range(1,len(self.CompNames)+1): cmf.append(str(self.variables['xm_pc['+str(i)+','+str(j)+']']['value'])) xm_pcarr.append(cmf) xm_pcstr = json.dumps(x_pcarr) xm_pcstr = xm_pcstr.replace('[','{') xm_pcstr = xm_pcstr.replace(']','}') xm_pcstr = xm_pcstr.replace('"','') self.startDict['xm_pc'] = xm_pcstr if self.variables['Fm_pc[2,1]']['value'] != None: Fm_pcarr = [] for i in range(1,4): cmf = [] for j in range(1,len(self.CompNames)+1): cmf.append(str(self.variables['Fm_pc['+str(i)+','+str(j)+']']['value'])) Fm_pcarr.append(cmf) Fm_pcstr = json.dumps(x_pcarr) Fm_pcstr = Fm_pcstr.replace('[','{') Fm_pcstr = Fm_pcstr.replace(']','}') Fm_pcstr = Fm_pcstr.replace('"','') self.startDict['Fm_pc'] = Fm_pcstr if self.variables['F_pc[2,1]']['value'] != None: F_pcarr = [] for i in range(1,4): cmf = [] for j in range(1,len(self.CompNames)+1): cmf.append(str(self.variables['F_pc['+str(i)+','+str(j)+']']['value'])) F_pcarr.append(cmf) F_pcstr = json.dumps(F_pcarr) F_pcstr = F_pcstr.replace('[','{') F_pcstr = F_pcstr.replace(']','}') F_pcstr = F_pcstr.replace('"','') self.startDict['F_pc'] = F_pcstr if self.variables['MW_p[2]']['value'] != None: MW_pArr = [] for i in range(1,4): MW_pArr.append(self.variables['MW_p['+str(i)+']']['value']) MW_pStr = json.dumps(MW_pArr) MW_pStr = MW_pStr.replace('[','{') MW_pStr = MW_pStr.replace(']','}') MW_pStr = MW_pStr.replace('"','') self.startDict['MW_p'] = MW_pStr if self.variables['F_p[2]']['value'] != None: F_pArr = [] for i in range(1,4): F_pArr.append(self.variables['F_p['+str(i)+']']['value']) F_pStr = json.dumps(F_pArr) F_pStr = F_pStr.replace('[','{') F_pStr = F_pStr.replace(']','}') F_pStr = F_pStr.replace('"','') self.startDict['F_p'] = F_pStr if self.variables['Cp_p[2]']['value'] != None: Cp_pArr = [] for i in range(1,4): Cp_pArr.append(self.variables['Cp_p['+str(i)+']']['value']) Cp_pStr = json.dumps(Cp_pArr) Cp_pStr = Cp_pStr.replace('[','{') Cp_pStr = Cp_pStr.replace(']','}') Cp_pStr = Cp_pStr.replace('"','') self.startDict['Cp_p'] = Cp_pStr if self.variables['H_p[2]']['value'] != None: H_pArr = [] for i in range(1,4): H_pArr.append(self.variables['H_p['+str(i)+']']['value']) H_pStr = json.dumps(H_pArr) H_pStr = H_pStr.replace('[','{') H_pStr = H_pStr.replace(']','}') H_pStr = H_pStr.replace('"','') self.startDict['H_p'] = H_pStr if self.variables['S_p[2]']['value'] != None: S_pArr = [] for i in range(1,4): S_pArr.append(self.variables['S_p['+str(i)+']']['value']) S_pStr = json.dumps(S_pArr) S_pStr = S_pStr.replace('[','{') S_pStr = S_pStr.replace(']','}') S_pStr = S_pStr.replace('"','') self.startDict['S_p'] = S_pStr if self.variables['Fm_p[2]']['value'] != None: Fm_pArr = [] for i in range(1,4): Fm_pArr.append(self.variables['Fm_p['+str(i)+']']['value']) Fm_pStr = json.dumps(Fm_pArr) Fm_pStr = Fm_pStr.replace('[','{') Fm_pStr = Fm_pStr.replace(']','}') Fm_pStr = Fm_pStr.replace('"','') self.startDict['Fm_p'] = Fm_pStr except Exception as e: exc_type, exc_obj, exc_tb = sys.exc_info() print(exc_type,exc_tb.tb_lineno) print(e) print('error') def OM_Flowsheet_Initialize(self,addedcomp): self.OM_data_init = '' self.OM_data_init = self.OM_data_init + ("model ms"+str(self.count)+"\n") self.OM_data_init = self.OM_data_init + ("extends Simulator.Streams.MaterialStream;\n" ) self.OM_data_init = self.OM_data_init + ("extends Simulator.Files.ThermodynamicPackages."+self.thermoPackage+";\n") self.OM_data_init = self.OM_data_init + ("end ms"+str(self.count)+";\n") comp_count = len(addedcomp) # self.GetStartValues() #self.OM_data_init = "Simulator.Streams.Mat_Stm_RL " + self.name +"(Nc = " + str(comp_count) self.OM_data_init = self.OM_data_init + "ms"+str(self.count) +" " + self.name +"(Nc = " + str(comp_count) self.OM_data_init = self.OM_data_init + ",C = {" C = str(addedcomp).strip('[').strip(']') C = C.replace("'","") self.OM_data_init = self.OM_data_init + C + "}," #for key, value in self.startDict.items(): # self.OM_data_init = self.OM_data_init + key + '(start = ' + str(value) + '),' self.OM_data_init = self.OM_data_init[:-1] self.OM_data_init = self.OM_data_init + ');\n' return self.OM_data_init def OM_Flowsheet_Equation(self,addedcomp,method): self.OM_data_eqn = '' self.comp_count = len(addedcomp) if method == 'Eqn': self.eqnDict = {} self.GetMinEqnValues() if method == 'SM': self.eqnDict = {} self.GetMinEqnValues() #self.GetEquationValues() #self.GetEquationValues() for key,value in self.eqnDict.items(): self.OM_data_eqn = self.OM_data_eqn + self.name + '.'+ key + ' = ' + str(value) + ';\n' return self.OM_data_eqn ''' from OMPython import OMCSession from PyQt5.QtCore import * import json import sys from collections import defaultdict class MaterialStream(): counter = 1 def __init__(self,CompNames = [],Temperature=300,Pressure=101325,xvap=None,xmvap=None,xliq=None,xmliq=None,x_pc = [1.0], xm_pc = [], MolFlow=100, MasFlow=None,**kwargs): self.name = 'MaterialStream' + str(MaterialStream.counter) self.type = 'MaterialStream' self.T = Temperature self.P = Pressure self.xvap = xvap self.xmvap = xmvap self.xliq = xliq self.xmliq = xmliq self.CompNames = CompNames self.x_pc = x_pc self.xm_pc = xm_pc self.MolFlow = MolFlow self.MasFlow = MasFlow self.OM_data_init = '' self.OM_data_eqn = '' self.count = MaterialStream.counter self.thermoPackage ="RaoultsLaw" self.mode1 = "P" self.mode1val = "" self.mode2 = "T" self.mode2val = "" self.no_of_inputs = 1 self.no_of_outputs = 1 self.x = 2500-30 self.y = 2500-30 self.pos = QPointF(self.x, self.y) MaterialStream.counter+=1 self.startDict = {} self.eqnDict = {} self.modesList = ["PT","PH","PVF","TVF","PS"] self.Prop = { self.mode1:self.mode1val, self.mode2:self.mode2val, 'xliq':xliq, 'xmliq':xmliq, 'xvap':xvap, 'xmvap':xmvap, 'F_p[1]':MolFlow, 'Fm_p[1]':MasFlow, 'MW_p[1]':None, 'MW_p[2]':None, 'MW_p[3]':None, 'Cp_p[1]':None, 'H_p[1]':None, 'S_p[1]':None, 'Cp_p[2]':None, 'H_p[2]':None, 'S_p[2]':None, 'Cp_p[3]':None, 'H_p[3]':None, 'S_p[3]':None, 'F_p[2]':None, 'Fm_p[2]':None, 'F_p[3]':None, 'Fm_p[3]':None } self.Prop1 = { self.mode1:self.mode1val, self.mode2:self.mode2val, 'xliq':xliq, 'xmliq':xmliq, 'xvap':xvap, 'xmvap':xmvap, 'F_p[1]':MolFlow, 'Fm_p[1]':MasFlow, 'MW_p[1]':None, 'MW_p[2]':None, 'MW_p[3]':None, 'Cp_p[1]':None, 'H_p[1]':None, 'S_p[1]':None, 'Cp_p[2]':None, 'H_p[2]':None, 'S_p[2]':None, 'Cp_p[3]':None, 'H_p[3]':None, 'S_p[3]':None, 'F_p[2]':None, 'Fm_p[2]':None, 'F_p[3]':None, 'Fm_p[3]':None } def paramgetter(self,mode): dict = {} # print("Hello hello ", mode) # if(mode == None): # mode = self.modesList[0] if(mode=="PT"): self.mode1 = 'P' self.mode2 = 'T' dict = {self.mode2:self.T,self.mode1:self.P,"x_pc":self.x_pc,"MolFlow":self.MolFlow,"thermoPackage":self.thermoPackage} elif(mode=="PH"): self.mode1 = 'P' self.mode2 = 'H_p[1]' dict = {self.mode1:self.P,self.mode2:self.Prop['H_p[1]'],"x_pc":self.x_pc,"MolFlow":self.MolFlow,"thermoPackage":self.thermoPackage} elif(mode=="PVF"): self.mode1 = 'P' self.mode2 = 'xvap' dict = {self.mode1:self.P,self.mode2:self.xvap,"x_pc":self.x_pc,"MolFlow":self.MolFlow,"thermoPackage":self.thermoPackage} elif(mode=="TVF"): self.mode1 = 'T' self.mode2 = 'xvap' dict = {self.mode1:self.T,self.mode2:self.xvap,"x_pc":self.x_pc,"MolFlow":self.MolFlow,"thermoPackage":self.thermoPackage} elif(mode=="PS"): self.mode1 = 'P' self.mode2 = 'S_p[1]' dict = {self.mode1:self.P,self.mode2:self.Prop['S_p[1]'],"x_pc":self.x_pc,"MolFlow":self.MolFlow,"thermoPackage":self.thermoPackage} return dict def paramsetter(self,dict): self.mode1val = dict[self.mode1] self.mode2val = dict[self.mode2] self.MolFlow = dict['MolFlow'] self.x_pc = dict['x_pc'].split(",") self.thermoPackage = dict['thermoPackage'] self.Prop['F_p[1]'] = self.MolFlow self.Prop[self.mode2] = dict[self.mode2] self.Prop[self.mode1] = dict[self.mode1] for i in range(len(self.CompNames)): print('####### x_pc #########\n',self.x_pc[i]) if self.x_pc: self.Prop['x_pc[1,'+str(i+1)+']'] = self.x_pc[i] else: self.Prop['x_pc[1,'+str(i+1)+']'] = None if self.xm_pc: self.Prop['xm_pc[1,'+str(i+1)+']'] = self.xm_pc[i] else: self.Prop['xm_pc[1,'+str(i+1)+']'] = None self.Prop['F_pc[1,'+str(i+1)+']'] = None self.Prop['Fm_pc[1,'+str(i+1)+']'] = None for i in range(0,len(self.CompNames)): self.Prop['x_pc[2,'+str(i+1)+']'] = None self.Prop['xm_pc[2,'+str(i+1)+']'] = None self.Prop['F_pc[2,'+str(i+1)+']'] = None self.Prop['Fm_pc[2,'+str(i+1)+']'] = None self.Prop['x_pc[3,'+str(i+1)+']'] = None self.Prop['xm_pc[3,'+str(i+1)+']'] = None self.Prop['F_pc[3,'+str(i+1)+']'] = None self.Prop['Fm_pc[3,'+str(i+1)+']'] = None def setPos(self,pos): self.pos = pos def GetMinEqnValues(self): x_pclist = [] for i in range(0,len(self.CompNames)): print(self.Prop['x_pc[1,'+str(i+1)+']']) x_pclist.append(self.Prop['x_pc[1,'+str(i+1)+']']) print(x_pclist) #x_pclist = list(self.Prop(x_pc[1,1)]) x_pc = json.dumps(x_pclist) print(x_pc) x_pc = x_pc.replace('[','{') x_pc = x_pc.replace(']','}') x_pc = x_pc.replace('"','') # x_pcstr = json.dumps(self.x_pc) # x_pcstr = x_pcstr.replace('[','{') # x_pcstr = x_pcstr.replace(']','}') # x_pcstr = x_pcstr.replace('"','') if self.Prop[self.mode1]: self.eqnDict[self.mode1] = self.Prop[self.mode1] if self.Prop[self.mode2]: self.eqnDict[self.mode2] = self.Prop[self.mode2] if self.x_pc: self.eqnDict['x_pc[1,:]'] = x_pc if self.MolFlow: self.eqnDict['F_p[1]'] = self.Prop['F_p[1]']#self.MolFlow print("##############$GetMinVEqnValuesStart$##################") print("P:",self.Prop[self.mode1]) print("T:",self.Prop[self.mode2]) print("x_pc",x_pc) print("F_p",self.Prop['F_p[1]']) print("##############$GetMinVEqnValuesEnd$##################") # def GetEquationValues(self): # Not being called anywhere # if self.Prop[self.mode1]: # self.eqnDict[self.mode1] = self.Prop[self.mode1] # if self.Prop[self.mode2]: # self.eqnDict[self.mode2] = self.Prop[self.mode2] # if self.Prop['x_pc[1,1]']: # cfa = [] # for i in range(1,len(self.CompNames)+1): # cfa.append(self.Prop['x_pc[1,'+str(i)+']']) # cmpMolFracstr = json.dumps(cfa) # cmpMolFracstr = cmpMolFracstr.replace('[','{') # cmpMolFracstr = cmpMolFracstr.replace(']','}') # cmpMolFracstr = cmpMolFracstr.replace('"','') # self.eqnDict['x_pc[1,:]'] = cmpMolFracstr # if self.Prop['F_p[1]']: # self.eqnDict['F_p[1]'] = self.Prop['F_p[1]'] def GetStartValues(self): try: if self.Prop[self.mode1]: self.startDict[self.mode1] = self.Prop[self.mode1] if self.Prop[self.mode2]: self.startDict[self.mode2] = self.Prop[self.mode2] if self.Prop['x_pc[2,1]'] != None: x_pcarr = [] for i in range(1,4): cmf = [] for j in range(1,len(self.CompNames)+1): cmf.append(str(self.Prop['x_pc['+str(i)+','+str(j)+']'])) x_pcarr.append(cmf) x_pcstr = json.dumps(x_pcarr) x_pcstr = x_pcstr.replace('[','{') x_pcstr = x_pcstr.replace(']','}') x_pcstr = x_pcstr.replace('"','') self.startDict['x_pc'] = x_pcstr if self.Prop['xm_pc[2,1]'] != None: xm_pcarr = [] for i in range(1,4): cmf = [] for j in range(1,len(self.CompNames)+1): cmf.append(str(self.Prop['xm_pc['+str(i)+','+str(j)+']'])) xm_pcarr.append(cmf) xm_pcstr = json.dumps(x_pcarr) xm_pcstr = xm_pcstr.replace('[','{') xm_pcstr = xm_pcstr.replace(']','}') xm_pcstr = xm_pcstr.replace('"','') self.startDict['xm_pc'] = xm_pcstr if self.Prop['Fm_pc[2,1]'] != None: Fm_pcarr = [] for i in range(1,4): cmf = [] for j in range(1,len(self.CompNames)+1): cmf.append(str(self.Prop['Fm_pc['+str(i)+','+str(j)+']'])) Fm_pcarr.append(cmf) Fm_pcstr = json.dumps(x_pcarr) Fm_pcstr = Fm_pcstr.replace('[','{') Fm_pcstr = Fm_pcstr.replace(']','}') Fm_pcstr = Fm_pcstr.replace('"','') self.startDict['Fm_pc'] = Fm_pcstr if self.Prop['F_pc[2,1]'] != None: F_pcarr = [] for i in range(1,4): cmf = [] for j in range(1,len(self.CompNames)+1): cmf.append(str(self.Prop['F_pc['+str(i)+','+str(j)+']'])) F_pcarr.append(cmf) F_pcstr = json.dumps(F_pcarr) F_pcstr = F_pcstr.replace('[','{') F_pcstr = F_pcstr.replace(']','}') F_pcstr = F_pcstr.replace('"','') self.startDict['F_pc'] = F_pcstr if self.Prop['MW_p[2]'] != None: MW_pArr = [] for i in range(1,4): MW_pArr.append(self.Prop['MW_p['+str(i)+']']) MW_pStr = json.dumps(MW_pArr) MW_pStr = MW_pStr.replace('[','{') MW_pStr = MW_pStr.replace(']','}') MW_pStr = MW_pStr.replace('"','') self.startDict['MW_p'] = MW_pStr if self.Prop['F_p[2]'] != None: F_pArr = [] for i in range(1,4): F_pArr.append(self.Prop['F_p['+str(i)+']']) F_pStr = json.dumps(F_pArr) F_pStr = F_pStr.replace('[','{') F_pStr = F_pStr.replace(']','}') F_pStr = F_pStr.replace('"','') self.startDict['F_p'] = F_pStr if self.Prop['Cp_p[2]'] != None: Cp_pArr = [] for i in range(1,4): Cp_pArr.append(self.Prop['Cp_p['+str(i)+']']) Cp_pStr = json.dumps(Cp_pArr) Cp_pStr = Cp_pStr.replace('[','{') Cp_pStr = Cp_pStr.replace(']','}') Cp_pStr = Cp_pStr.replace('"','') self.startDict['Cp_p'] = Cp_pStr if self.Prop['H_p[2]'] != None: H_pArr = [] for i in range(1,4): H_pArr.append(self.Prop['H_p['+str(i)+']']) H_pStr = json.dumps(H_pArr) H_pStr = H_pStr.replace('[','{') H_pStr = H_pStr.replace(']','}') H_pStr = H_pStr.replace('"','') self.startDict['H_p'] = H_pStr if self.Prop['S_p[2]'] != None: S_pArr = [] for i in range(1,4): S_pArr.append(self.Prop['S_p['+str(i)+']']) S_pStr = json.dumps(S_pArr) S_pStr = S_pStr.replace('[','{') S_pStr = S_pStr.replace(']','}') S_pStr = S_pStr.replace('"','') self.startDict['S_p'] = S_pStr if self.Prop['Fm_p[2]'] != None: Fm_pArr = [] for i in range(1,4): Fm_pArr.append(self.Prop['Fm_p['+str(i)+']']) Fm_pStr = json.dumps(Fm_pArr) Fm_pStr = Fm_pStr.replace('[','{') Fm_pStr = Fm_pStr.replace(']','}') Fm_pStr = Fm_pStr.replace('"','') self.startDict['Fm_p'] = Fm_pStr except Exception as e: exc_type, exc_obj, exc_tb = sys.exc_info() print(exc_type,exc_tb.tb_lineno) print(e) print('error') def OM_Flowsheet_Initialize(self,addedcomp): self.OM_data_init = '' self.OM_data_init = self.OM_data_init + ("model ms"+str(self.count)+"\n") self.OM_data_init = self.OM_data_init + ("extends Simulator.Streams.MaterialStream;\n" ) self.OM_data_init = self.OM_data_init + ("extends Simulator.Files.ThermodynamicPackages."+self.thermoPackage+";\n") self.OM_data_init = self.OM_data_init + ("end ms"+str(self.count)+";\n") comp_count = len(addedcomp) # self.GetStartValues() #self.OM_data_init = "Simulator.Streams.Mat_Stm_RL " + self.name +"(Nc = " + str(comp_count) self.OM_data_init = self.OM_data_init + "ms"+str(self.count) +" " + self.name +"(Nc = " + str(comp_count) self.OM_data_init = self.OM_data_init + ",C = {" C = str(addedcomp).strip('[').strip(']') C = C.replace("'","") self.OM_data_init = self.OM_data_init + C + "}," #for key, value in self.startDict.items(): # self.OM_data_init = self.OM_data_init + key + '(start = ' + str(value) + '),' self.OM_data_init = self.OM_data_init[:-1] self.OM_data_init = self.OM_data_init + ');\n' return self.OM_data_init def OM_Flowsheet_Equation(self,addedcomp,method): self.OM_data_eqn = '' self.comp_count = len(addedcomp) if method == 'Eqn': self.eqnDict = {} self.GetMinEqnValues() if method == 'SM': self.eqnDict = {} self.GetMinEqnValues() #self.GetEquationValues() #self.GetEquationValues() for key,value in self.eqnDict.items(): self.OM_data_eqn = self.OM_data_eqn + self.name + '.'+ key + ' = ' + str(value) + ';\n' return self.OM_data_eqn '''