import os, sys from PyQt5.QtCore import * from PyQt5.QtWidgets import * from PyQt5.QtGui import * from PyQt5.uic import loadUiType import pandas as pd from functools import partial from collections import defaultdict from ComponentSelector import * from DockWidgets.DistillationColumnStagewiseResults import DistillationColumnStagewiseResults from Graphics import * ui_dialog,_ = loadUiType('DockWidgets/DockWidgetDistillationColumn.ui') class DockWidgetDistillationColumn(QDockWidget, ui_dialog): def __init__(self,name,comptype,obj,container,parent=None): QDockWidget.__init__(self,parent) self.setupUi(self) self.setWindowTitle(obj.name) self.name=name self.obj=obj self.type = comptype self.input_dict = [] self.pushButton_2.clicked.connect(self.param) self.dict = [] self.input_params_list() self.name_type = None self.container = container self.stage_res_table = DistillationColumnStagewiseResults() self.stageResultsButton.clicked.connect(self.showStagewiseResults) # input data tab def input_params_list(self): try: print("input_params_list ", self.input_dict) # tab 1 l1 = QLineEdit() l1.setFixedWidth(80) l1.setText(str(self.obj.variables['Nt']['value'])) self.lay1.addWidget(QLabel(self.obj.variables['Nt']['name'] + " :"), 0 ,0, alignment=Qt.AlignLeft) self.lay1.addWidget(l1,0,1, alignment=Qt.AlignLeft) self.input_dict.append(l1) for i in range(self.obj.variables['Ni']['value']): print(i) l = QLineEdit() l.setFixedWidth(80) if len(self.obj.variables['InT_s']['value']) is not 0: l.setText(str(self.obj.variables['InT_s']['value'][i])) self.lay1.addWidget(QLabel(self.obj.variables['InT_s']['name'] +" " + str(i+1) + " location :"),2*(i+1),0, alignment=Qt.AlignLeft) self.lay1.addWidget(l,2*(i+1),1, alignment=Qt.AlignLeft) self.input_dict.append(l) # tab 2 self.l4.setText(self.obj.variables['Ctype']['name']+":") self.u1.setText(self.obj.variables['Ctype']['unit']) self.l5.setText(self.obj.variables['Pcond']['name']+":") self.le5.setText(str(self.obj.variables['Pcond']['value'])) self.u2.setText(self.obj.variables['Pcond']['unit']) self.l6.setText(self.obj.variables['C_Spec']['name']+":") self.le6.setText(str(self.obj.variables['C_Spec']['value'])) self.l7.setText("Compounds :") self.cb5.addItem("Total") self.cb5.addItem("Partial") self.cb5.setCurrentText(self.obj.variables['Ctype']['value']) for j in self.obj.Cspec_list: self.cb1.addItem(str(j)) self.cb1.setCurrentText(self.obj.variables['C_Spec']['type']) for j in self.obj.compounds: self.cb2.addItem(str(j)) self.cb2.setCurrentText(self.obj.variables['C_Spec']['comp']) self.cb2.setDisabled(True) self.cb1.currentIndexChanged.connect(self.fun2) self.le5.setFixedWidth(80) self.le6.setFixedWidth(80) self.le7.setFixedWidth(80) self.le8.setFixedWidth(80) self.cb1.setFixedWidth(180) self.cb2.setFixedWidth(80) self.cb3.setFixedWidth(180) self.cb4.setFixedWidth(80) self.cb5.setFixedWidth(80) self.u2.setAlignment(Qt.AlignLeft) self.u3.setAlignment(Qt.AlignLeft) self.input_dict.append(self.cb5) self.input_dict.append(self.le5) self.input_dict.append(self.cb1) self.input_dict.append(self.cb2) self.input_dict.append(self.le6) # tab3 self.l8.setText(self.obj.variables['Preb']['name']+":") self.le7.setText(str(self.obj.variables['Preb']['value'])) self.u3.setText(self.obj.variables['Preb']['unit']) self.l9.setText(self.obj.variables['R_Spec']['name']+":") self.le8.setText(str(self.obj.variables['R_Spec']['value'])) self.l10.setText('Compounds') for j in self.obj.Rspec_list: self.cb3.addItem(str(j)) self.cb3.setCurrentText(self.obj.variables['R_Spec']['type']) for j in self.obj.compounds: self.cb4.addItem(str(j)) self.cb4.setCurrentText(self.obj.variables['R_Spec']['comp']) self.cb4.setDisabled(True) self.cb3.currentIndexChanged.connect(self.fun3) self.input_dict.append(self.le7) self.input_dict.append(self.cb3) self.input_dict.append(self.cb4) self.input_dict.append(self.le8) self.lines = [line.rstrip('\n') for line in open('thermopackage.txt')] for j in self.lines: self.cbTP.addItem(str(j)) self.cbTP.setCurrentText(self.obj.variables['thermo_package']['value']) self.input_dict.append(self.cbTP) # self.input_dict = [self.le1, self.le2, self.le3, self.cb5, self.le5, self.cb1, self.cb2, self.le6, self.le7, self.cb3, self.cb4, self.le8] except Exception as e: print(e) def update_compounds(self): self.cb2.clear() self.cb4.clear() for j in self.obj.compounds: self.cb2.addItem(str(j)) self.cb2.setCurrentText(self.obj.variables['C_Spec']['comp']) for j in self.obj.compounds: self.cb4.addItem(str(j)) self.cb4.setCurrentText(self.obj.variables['R_Spec']['comp']) def fun2(self): if self.cb1.currentText() == 'Compound Molar Fraction' or self.cb1.currentText() == 'Compound Molar Flow (mol/s)': self.cb2.setDisabled(False) else: self.cb2.setDisabled(True) def fun3(self): if self.cb3.currentText() == 'Compound Molar Fraction' or self.cb3.currentText() == 'Compound Molar Flow (mol/s)': self.cb4.setDisabled(False) else: self.cb4.setDisabled(True) def Show_Error(self): QMessageBox.about(self, 'Important', "Please fill all fields with data") def param(self): try: self.dict= [] temp = 0 print("param.input_dict ", self.input_dict) self.dict.append(int(self.input_dict[0].text())) for i in range(self.obj.variables['Ni']['value']): self.dict.append(int(self.input_dict[i+1].text())) temp = i + 1 print(temp) # print(temp) # print(self.input_dict[temp+1]) self.dict.append(self.input_dict[temp+1].currentText()) # print(temp+1) self.dict.append(int(self.input_dict[temp+2].text())) #print(temp+2) self.dict.append(self.input_dict[temp+3].currentText()) #print(temp+3) self.dict.append(self.input_dict[temp+4].currentText()) #print(temp+4) self.dict.append(int(self.input_dict[temp+5].text())) #print(temp+5) self.dict.append(int(self.input_dict[temp+6].text())) #print(temp+6) self.dict.append(self.input_dict[temp+7].currentText()) #print(temp+7) self.dict.append(self.input_dict[temp+8].currentText()) #print(temp+8) self.dict.append(int(self.input_dict[temp+9].text())) #print(temp+9) self.dict.append(self.input_dict[temp+10].currentText()) #print(temp + 10) #print("param ", self.dict) self.obj.param_setter(self.dict) if(self.isVisible()): currentVal = self.parent().container.graphics.graphicsView.horizontalScrollBar().value() self.parent().container.graphics.graphicsView.horizontalScrollBar().setValue(currentVal-189) self.hide() except Exception as e: print(e) def showStagewiseResults(self): self.stage_res_table.show() @staticmethod def showResult(lst): # DockWidget1.flag = True for i in lst: try: i.results_category(i.name) except AttributeError: pass def clear_results(self): self.tableWidget.setRowCount(0) self.stage_res_table.T_table.setRowCount(0) self.stage_res_table.T_table.setColumnCount(0) self.stage_res_table.x_pc_table.setRowCount(0) self.stage_res_table.x_pc_table.setColumnCount(0) # result data tab def results_category(self,name): flag = True try: #print("Under result category name ", name) result = self.container.result obj = self.container.fetch_object(name) self.tableWidget.setRowCount(0) variKeys = obj.result_parameters #print(variKeys) for i, val in enumerate(variKeys): propertyname = name + '.' + val #print(i, val, propertyname) if propertyname in result[0]: ind = result[0].index(propertyname) resultval = str(result[-1][ind]) obj.variables[val]['value'] = result[-1][ind] #print("######Resultsfetch####", val, resultval) rowPosition = self.tableWidget.rowCount() self.tableWidget.insertRow(rowPosition) self.tableWidget.setItem(rowPosition, 0, QTableWidgetItem(obj.variables[val]['name'])) self.tableWidget.setItem(rowPosition, 1, QTableWidgetItem(resultval)) self.tableWidget.setItem(rowPosition, 2, QTableWidgetItem(obj.variables[val]['unit'])) self.tableWidget.resizeColumnsToContents() # Stagewise Results Nt = self.obj.variables['Nt']['value'] Nc = len(self.obj.compounds) # initializing temporary arrays Stages_T = [None for i in range(Nt)] # Can be uncommented when F_p and F_pc implemented in modelica table # Stages_F_p = [[None for i in range(3)] for j in range(Nt)] # Stages_F_pc = [[[None for i in range(3)] for j in range(Nc)] for k in range(Nt)] Stages_x_pc = [[[None for i in range(3)] for j in range(Nc)] for k in range(Nt)] Stages_res_varikeys = ['T'] for i in range(Nc): for j in range(3): Stages_res_varikeys.append('x_pc[' + str(j + 1) + ',' + str(i + 1) + ']') for v in Stages_res_varikeys: propertyname = name + '.condenser.' + v if propertyname in result[0]: ind = result[0].index(propertyname) if v == 'T': Stages_T[0] = result[-1][ind] # Can be uncommented when F_p is implemented in modelica model # elif v == 'F_p': # if result[0][ind][result[0][ind].index('[') + 1] == '1': # Stages_F_p[0][0] = result[-1][ind] # elif result[0][ind][result[0][ind].index('[') + 1] == '2': # Stages_F_p[0][1] = result[-1][ind] # else: # Stages_F_p[0][2] = result[-1][ind] else: #print(ind) phase_no = int(result[0][ind][result[0][ind].index('[') + 1]) comp_no = int(result[0][ind][result[0][ind].index(']') - 1]) Stages_x_pc[0][comp_no - 1][phase_no - 1] = result[-1][ind] # Can be uncommented and improved when F_pc implemented in modelica model # if v == 'F_pc': # Stages_F_pc[0][comp_no - 1][phase_no - 1] = result[-1][ind] # else: # Stages_x_pc[0][comp_no - 1][phase_no - 1] = result[-1][ind] for i in range(1, Nt - 1): propertyname = name + '.tray[' + str(i) + '].' + v if propertyname in result[0]: ind = result[0].index(propertyname) if v == 'T': Stages_T[i] = result[-1][ind] # Can be uncommented when F_p implemented in modelica model # elif v == 'F_p': # if result[0][ind][result[0][ind].index('[') + 1] == '1': # Stages_F_p[i][0] = result[-1][ind] # elif result[0][ind][result[0][ind].index('[') + 1] == '2': # Stages_F_p[i][1] = result[-1][ind] # else: # Stages_F_p[i][2] = result[-1][ind] else: # print(ind) # print(result[0][ind]) phase_no = int(result[0][ind].split('.')[-1][result[0][ind].split('.')[-1].index('[') + 1]) comp_no = int(result[0][ind].split('.')[-1][result[0][ind].split('.')[-1].index(']') - 1]) Stages_x_pc[i][comp_no - 1][phase_no - 1] = result[-1][ind] # Can be uncommented when F_pc implemented in modelica model # if v == 'F_pc': # Stages_F_pc[i][comp_no - 1][phase_no - 1] = result[-1][ind] # else: # Stages_x_pc[i][comp_no - 1][phase_no - 1] = result[-1][ind] propertyname = name + '.reboiler.' + v if propertyname in result[0]: ind = result[0].index(propertyname) if v == 'T': Stages_T[-1] = result[-1][ind] # Can be uncommented when F_p implemented in modelica model # elif v == 'F_p': # if result[0][ind][result[0][ind].index('[') + 1] == '1': # Stages_F_p[-1][0] = result[-1][ind] # elif result[0][ind][result[0][ind].index('[') + 1] == '2': # Stages_F_p[-1][1] = result[-1][ind] # else: # Stages_F_p[-1][2] = result[-1][ind] else: print(ind) phase_no = int(result[0][ind][result[0][ind].index('[') + 1]) comp_no = int(result[0][ind][result[0][ind].index(']') - 1]) Stages_x_pc[-1][comp_no - 1][phase_no - 1] = result[-1][ind] # Can be uncommented when F_pc implemented in modelica model # if v == 'F_pc': # Stages_F_pc[-1][comp_no - 1][phase_no - 1] = result[-1][ind] # else: # Stages_x_pc[-1][comp_no - 1][phase_no - 1] = result[-1][ind] # Assigning temp variables to obj variabes self.obj.variables['Stages.T']['value'] = Stages_T # Can be uncommented when F_p and F_pc implemented in modelica model # self.obj.variables['Stages.F_p']['value'] = Stages_F_p # self.obj.variables['Stages.F_pc']['value'] = Stages_F_pc self.obj.variables['Stages.x_pc']['value'] = Stages_x_pc # filling stagewise result table tables = [self.stage_res_table.T_table, self.stage_res_table.x_pc_table] # Can be uncommented when F_p and F_pc implemented in modelica model # tables = [self.stage_res_table.T_table, self.stage_res_table.F_p_table, self.stage_res_table.F_pc_table, self.stage_res_table.x_pc_table] for t in tables: t.setRowCount(Nt) t.setVerticalHeaderItem(0, QTableWidgetItem('Condenser')) t.setVerticalHeaderItem(Nt -1, QTableWidgetItem('Reboiler')) for i in range(1, Nt - 1): t.setVerticalHeaderItem(i, QTableWidgetItem('Stage ' + str(i))) T_table = self.stage_res_table.T_table T_table.setColumnCount(1) for i in range(Nt): T_table.setItem(i, 0, QTableWidgetItem(Stages_T[i])) x_pc_table = self.stage_res_table.x_pc_table x_pc_table.setColumnCount(2*Nc) for i in range(Nc): x_pc_table.setHorizontalHeaderItem(2*i, QTableWidgetItem(self.obj.compounds[i] + '(Vapor)')) x_pc_table.setHorizontalHeaderItem(2*i + 1, QTableWidgetItem(self.obj.compounds[i] + '(Liquid)')) for i in range(Nt): for j in range(Nc): x_pc_table.setItem(i, 2*j, QTableWidgetItem(Stages_x_pc[i][j][1])) x_pc_table.setItem(i, 2 * j + 1, QTableWidgetItem(Stages_x_pc[i][j][2])) for t in tables: t.resizeColumnsToContents() except Exception as e: print(e) def closeEvent(self,event): scrollHVal = self.parent().container.graphics.graphicsView.horizontalScrollBarVal currentVal = self.parent().container.graphics.graphicsView.horizontalScrollBar().value() self.parent().container.graphics.graphicsView.horizontalScrollBar().setValue(currentVal-189)