class beso_gui(QDialog): def __init__(self): super().__init__() self.title = 'BESO Topology Optimization (experimental)' self.left = 250 self.top = 30 self.width = 550 self.height = 730 beso_gui.inp_file = "" beso_gui.beso_dir = os.path.dirname(__file__) self.initUI() # def closeEvent(self, event): # self.close() def initUI(self): self.setWindowTitle(self.title) self.setGeometry(self.left, self.top, self.width, self.height) # Select analysis file button button = QPushButton('Select analysis file', self) button.setToolTip('*.inp CalculiX analysis file.') button.move(10, 10) button.clicked.connect(self.on_click) # Text box - file path and name self.textbox_file_name = QLineEdit(self) self.textbox_file_name.move(120, 15) self.textbox_file_name.resize(420, 20) self.textbox_file_name.setText("None analysis file selected") self.textbox_file_name.setToolTip('Analysis file.') # Update button button1 = QPushButton('Update domains', self) button1.setToolTip( 'Update naming inputs and material data from FreeCAD.') button1.move(10, 50) button1.clicked.connect(self.on_click1) # Domains definition # Label above domains definition label21 = QLabel('Domain 0', self) label21.setStyleSheet("font-weight: bold") label21.move(120, 50) label21 = QLabel('Domain 1', self) label21.setStyleSheet("font-weight: bold") label21.move(260, 50) label21 = QLabel('Domain 2', self) label21.setStyleSheet("font-weight: bold") label21.move(400, 50) label24 = QLabel('Material object', self) label24.move(20, 80) label25 = QLabel('Thickness object', self) label25.move(20, 110) label26 = QLabel('As design domain', self) label26.move(20, 140) label27 = QLabel('Stress limit [MPa]', self) label27.move(20, 170) # Combo box - select domain by material object self.combo = QComboBox(self) self.combo.setToolTip('Material object to define the domain.') self.combo.move(120, 80) self.combo.resize(140, 30) self.combo.currentIndexChanged.connect(self.on_change) self.combo1 = QComboBox(self) self.combo1.setToolTip('Material object to define the domain.') self.combo1.move(260, 80) self.combo1.resize(140, 30) self.combo1.currentIndexChanged.connect(self.on_change1) self.combo2 = QComboBox(self) self.combo2.setToolTip('Material object to define the domain.') self.combo2.move(400, 80) self.combo2.resize(140, 30) self.combo2.currentIndexChanged.connect(self.on_change2) # Combo box - select thickness object self.combo0t = QComboBox(self) self.combo0t.setToolTip( 'Thickness object to specify if domain is for shells.') self.combo0t.move(120, 110) self.combo0t.resize(140, 30) self.combo1t = QComboBox(self) self.combo1t.setToolTip( 'Thickness object to specify if domain is for shells.') self.combo1t.move(260, 110) self.combo1t.resize(140, 30) self.combo2t = QComboBox(self) self.combo2t.setToolTip( 'Thickness object to specify if domain is for shells.') self.combo2t.move(400, 110) self.combo2t.resize(140, 30) self.textbox3 = QLineEdit(self) self.textbox3.move(120, 170) self.textbox3.resize(40, 20) # self.textbox3.setText("") self.textbox3.setToolTip( 'Thickness [mm] of shell elements in the domain.\n' 'This value overwrites thickness defined in FreeCAD') self.textbox4 = QLineEdit(self) self.textbox4.move(260, 170) self.textbox4.resize(40, 20) # self.textbox4.setText("") self.textbox4.setToolTip( 'Thickness [mm] of shell elements in the domain.\n' 'This value overwrites thickness defined in FreeCAD') self.textbox5 = QLineEdit(self) self.textbox5.move(400, 170) self.textbox5.resize(40, 20) # self.textbox5.setText("") self.textbox5.setToolTip( 'Thickness [mm] of shell elements in the domain.\n' 'This value overwrites thickness defined in FreeCAD') # Check box - design or nondesign self.checkbox = QCheckBox('', self) self.checkbox.setChecked(True) self.checkbox.setToolTip('Check to be the design domain.') self.checkbox.move(120, 140) self.checkbox1 = QCheckBox('', self) self.checkbox1.setChecked(True) self.checkbox1.setToolTip('Check to be the design domain.') self.checkbox1.move(260, 140) self.checkbox2 = QCheckBox('', self) self.checkbox2.setChecked(True) self.checkbox2.setToolTip('Check to be the design domain.') self.checkbox2.move(400, 140) # Text box - stress limit self.textbox = QLineEdit(self) self.textbox.move(120, 170) self.textbox.resize(40, 20) # self.textbox.setText("") self.textbox.setToolTip( 'Von Mises stress [MPa] limit, when reached, material removing will stop.' ) self.textbox1 = QLineEdit(self) self.textbox1.move(260, 170) self.textbox1.resize(40, 20) # self.textbox1.setText("") self.textbox1.setToolTip( 'Von Mises stress [MPa] limit, when reached, material removing will stop.' ) self.textbox2 = QLineEdit(self) self.textbox2.move(400, 170) self.textbox2.resize(40, 20) # self.textbox2.setText("") self.textbox2.setToolTip( 'Von Mises stress [MPa] limit, when reached, material removing will stop.' ) # Filters # Label above filter definition label31 = QLabel('Filter 0', self) label31.setStyleSheet("font-weight: bold") label31.move(120, 210) label32 = QLabel('Filter 1', self) label32.setStyleSheet("font-weight: bold") label32.move(260, 210) label33 = QLabel('Filter 2', self) label33.setStyleSheet("font-weight: bold") label33.move(400, 210) label34 = QLabel('Type', self) label34.move(20, 240) label35 = QLabel('Range [mm]', self) label35.move(20, 270) label36 = QLabel('Direction vector', self) label36.move(20, 300) label37 = QLabel('Apply to', self) label37.move(20, 330) # Combo box - select filter type self.combo6 = QComboBox(self) self.combo6.setToolTip( 'Filters:\n' '"simple" to suppress checkerboard effect,\n' '"casting" to prescribe casting direction (opposite to milling direction)\n' 'Recommendation: for casting use as first "casting" and as second "simple"' ) self.combo6.addItem("None") self.combo6.addItem("simple") self.combo6.addItem("casting") self.combo6.setCurrentIndex(1) self.combo6.move(120, 240) self.combo6.currentIndexChanged.connect(self.on_change6) self.combo7 = QComboBox(self) self.combo7.setToolTip( 'Filters:\n' '"simple" to suppress checkerboard effect,\n' '"casting" to prescribe casting direction (opposite to milling direction)\n' 'Recommendation: for casting use as first "casting" and as second "simple"' ) self.combo7.addItem("None") self.combo7.addItem("simple") self.combo7.addItem("casting") self.combo7.move(260, 240) self.combo7.currentIndexChanged.connect(self.on_change7) self.combo8 = QComboBox(self) self.combo8.setToolTip( 'Filters:\n' '"simple" to suppress checkerboard effect,\n' '"casting" to prescribe casting direction (opposite to milling direction)\n' 'Recommendation: for casting use as first "casting" and as second "simple"' ) self.combo8.addItem("None") self.combo8.addItem("simple") self.combo8.addItem("casting") self.combo8.move(400, 240) self.combo8.currentIndexChanged.connect(self.on_change8) # Text box - filter range self.textbox6 = QLineEdit(self) self.textbox6.move(120, 270) self.textbox6.resize(50, 20) # self.textbox6.setText("") self.textbox6.setToolTip( 'Filter range [mm], recommended two times mesh size.') self.textbox7 = QLineEdit(self) self.textbox7.move(260, 270) self.textbox7.resize(50, 20) # self.textbox7.setText("") self.textbox7.setToolTip( 'Filter range [mm], recommended two times mesh size.') self.textbox7.setEnabled(False) self.textbox8 = QLineEdit(self) self.textbox8.move(400, 270) self.textbox8.resize(50, 20) # self.textbox8.setText("") self.textbox8.setToolTip( 'Filter range [mm], recommended two times mesh size.') self.textbox8.setEnabled(False) # Text box - casting direction self.textbox9 = QLineEdit(self) self.textbox9.move(120, 300) self.textbox9.resize(80, 20) self.textbox9.setText("0, 0, 1") self.textbox9.setEnabled(False) self.textbox9.setToolTip( 'Casting direction vector, e.g. direction in z axis:\n' '0, 0, 1\n\n' 'solid void\n' 'XXXXXX.................\n' 'XXX........................\n' 'XX........................... --> z axis\n' 'XXXXX....................\n' 'XXXXXXXXXXX......') self.textbox10 = QLineEdit(self) self.textbox10.move(260, 300) self.textbox10.resize(80, 20) self.textbox10.resize(80, 20) self.textbox10.setText("0, 0, 1") self.textbox10.setEnabled(False) self.textbox10.setToolTip( 'Casting direction vector, e.g. direction in z axis:\n' '0, 0, 1\n\n' 'solid void\n' 'XXXXXX.................\n' 'XXX........................\n' 'XX........................... --> z axis\n' 'XXXXX....................\n' 'XXXXXXXXXXX......') self.textbox11 = QLineEdit(self) self.textbox11.move(400, 300) self.textbox11.resize(80, 20) self.textbox11.setText("0, 0, 1") self.textbox11.setEnabled(False) self.textbox11.setToolTip( 'Casting direction vector, e.g. direction in z axis:\n' '0, 0, 1\n\n' 'solid void\n' 'XXXXXX.................\n' 'XXX........................\n' 'XX........................... --> z axis\n' 'XXXXX....................\n' 'XXXXXXXXXXX......') # list widget - select domains self.widget = QListWidget(self) self.widget.setToolTip( 'Domains affected by the filter.\n' 'Select only from domains which you defined above.') self.widget.move(120, 330) self.widget.resize(140, 120) self.widget.setSelectionMode(QAbstractItemView.MultiSelection) self.widget1 = QListWidget(self) self.widget1.setToolTip( 'Domains affected by the filter.\n' 'Select only from domains which you defined above.') self.widget1.move(260, 330) self.widget1.resize(140, 120) self.widget1.setSelectionMode(QAbstractItemView.MultiSelection) self.widget1.setEnabled(False) self.widget2 = QListWidget(self) self.widget2.setToolTip( 'Domains affected by the filter.\n' 'Select only from domains which you defined above.') self.widget2.move(400, 330) self.widget2.resize(140, 120) self.widget2.setSelectionMode(QAbstractItemView.MultiSelection) self.widget2.setEnabled(False) # Other settings label40 = QLabel('Other settings', self) label40.setStyleSheet("font-weight: bold") label40.move(10, 470) # AR, RR slider label41 = QLabel('Change per iteration: low', self) label41.setFixedWidth(150) label41.move(10, 500) label42 = QLabel('high', self) label42.move(240, 500) self.slider = QSlider(Qt.Horizontal, self) self.slider.setRange(1, 3) self.slider.setSingleStep(1) self.slider.setValue(2) self.slider.move(150, 500) self.slider.resize(80, 30) self.slider.setToolTip( 'Sets mass change per iteration, which is controlled as\n' 'slow: mass_addition_ratio=0.01, mass_removal_ratio=0.02\n' 'middle: mass_addition_ratio=0.015, mass_removal_ratio=0.03\n' 'fast: mass_addition_ratio=0.03, mass_removal_ratio=0.06') # optimization base combobox label51 = QLabel('Optimization base', self) label51.move(10, 530) self.combo51 = QComboBox(self) self.combo51.setToolTip( 'Basic principle to determine if element should remain or be removed:\n' '"stiffness" to maximize stiffness (minimize compliance),\n' '"heat" to maximize heat flow.') self.combo51.addItem("stiffness") self.combo51.addItem("heat") self.combo51.move(120, 530) # mass goal ratio label52 = QLabel('Mass goal ratio', self) label52.move(10, 560) self.textbox52 = QLineEdit(self) self.textbox52.move(120, 560) self.textbox52.resize(50, 20) self.textbox52.setText("0.4") self.textbox52.setToolTip( 'Fraction of all design domains masses to be achieved;\n' 'between 0 and 1.') # generate conf. file button button21 = QPushButton('Generate conf. file', self) button21.setToolTip( 'Writes configuration file with optimization parameters.') button21.move(10, 600) button21.clicked.connect(self.on_click21) # edit conf. file button button22 = QPushButton('Edit conf. file', self) button22.setToolTip('Opens configuration file for hand modifications.') button22.move(10, 630) button22.clicked.connect(self.on_click22) # run optimization button button23 = QPushButton('Run optimization', self) button23.setToolTip('Writes configuration file and runs optimization.') button23.move(10, 660) button23.clicked.connect(self.on_click23) # generate conf file and run optimization button button24 = QPushButton('Generate conf.\nfile and run\noptimization', self) button24.setToolTip('Writes configuration file and runs optimization.') button24.move(120, 600) button24.resize(100, 90) button24.clicked.connect(self.on_click24) # help buttons label41 = QLabel('Help', self) label41.move(440, 560) button31 = QPushButton('Example', self) button31.setToolTip( 'https://github.com/fandaL/beso/wiki/Example-4:-GUI-in-FreeCAD') button31.move(440, 590) # button31.resize(80, 50) button31.clicked.connect(self.on_click31) button32 = QPushButton('Conf. comments', self) button32.setToolTip( 'https://github.com/fandaL/beso/blob/master/beso_conf.py') button32.move(440, 620) # button32.resize(80, 50) button32.clicked.connect(self.on_click32) button33 = QPushButton('Close', self) button33.move(440, 690) # button33.resize(80, 50) button33.clicked.connect(self.on_click33) # open log file button40 = QPushButton('Open log file', self) button40.setToolTip('Opens log file in your text editor.\n' '(Does not refresh automatically.)') button40.move(10, 690) button40.clicked.connect(self.on_click40) self.on_click1() # first update self.show() # @pyqtSlot() def on_click(self): ex2 = SelectFile() self.show() self.textbox_file_name.setText(self.inp_file) def on_click1(self): # get material objects self.materials = [] self.thicknesses = [] for obj in App.ActiveDocument.Objects: if obj.Name[:23] in ["MechanicalSolidMaterial", "SolidMaterial"]: self.materials.append(obj) elif obj.Name[:17] == "ElementGeometry2D": self.thicknesses.append(obj) # update materials combo boxes self.combo.clear() self.combo.addItem("None") self.combo1.clear() self.combo1.addItem("None") self.combo2.clear() self.combo2.addItem("None") self.combo0t.clear() self.combo0t.addItem("None") self.combo1t.clear() self.combo1t.addItem("None") self.combo2t.clear() self.combo2t.addItem("None") self.widget.clear() self.widget.addItem("All defined") self.widget.addItem("Domain 0") self.widget.addItem("Domain 1") self.widget.addItem("Domain 2") self.widget.setCurrentItem(self.widget.item(0)) self.widget1.clear() self.widget1.addItem("All defined") self.widget1.addItem("Domain 0") self.widget1.addItem("Domain 1") self.widget1.addItem("Domain 2") self.widget1.setCurrentItem(self.widget1.item(0)) self.widget2.clear() self.widget2.addItem("All defined") self.widget2.addItem("Domain 0") self.widget2.addItem("Domain 1") self.widget2.addItem("Domain 2") self.widget2.setCurrentItem(self.widget2.item(0)) for mat in self.materials: self.combo.addItem(mat.Label) self.combo1.addItem(mat.Label) self.combo2.addItem(mat.Label) if self.materials: self.combo.setCurrentIndex(1) for th in self.thicknesses: self.combo0t.addItem(th.Label) self.combo1t.addItem(th.Label) self.combo2t.addItem(th.Label) def on_click21(self): """Overwrite beso_conf.py file in the macro directory""" file_name = os.path.split(self.textbox_file_name.text())[1] path = os.path.split(self.textbox_file_name.text())[0] fea = ccxtools.FemToolsCcx() fea.setup_ccx() path_calculix = fea.ccx_binary optimization_base = self.combo51.currentText() elset_id = self.combo.currentIndex() - 1 thickness_id = self.combo0t.currentIndex() - 1 if elset_id != -1: if thickness_id != -1: elset = self.materials[elset_id].Name + self.thicknesses[ thickness_id].Name else: # 0 means None thickness selected elset = self.materials[elset_id].Name + "Solid" modulus = float( self.materials[elset_id].Material["YoungsModulus"].split() [0]) # MPa if self.materials[elset_id].Material["YoungsModulus"].split( )[1] != "MPa": raise Exception(" units not recognised in " + self.materials[elset_id].Name) poisson = float( self.materials[elset_id].Material["PoissonRatio"].split()[0]) try: density = float(self.materials[elset_id].Material["Density"]. split()[0]) * 1e-12 # kg/m3 -> t/mm3 if self.materials[elset_id].Material["Density"].split( )[1] not in ["kg/m^3", "kg/m3"]: raise Exception(" units not recognised in " + self.materials[elset_id].Name) except KeyError: density = 0. try: conductivity = float( self.materials[elset_id].Material["ThermalConductivity"]. split()[0]) # W/m/K if self.materials[elset_id].Material[ "ThermalConductivity"].split()[1] != "W/m/K": raise Exception(" units not recognised in " + self.materials[elset_id].Name) except KeyError: conductivity = 0. try: if self.materials[elset_id].Material[ "ThermalExpansionCoefficient"].split()[1] == "um/m/K": expansion = float(self.materials[elset_id]. Material["ThermalExpansionCoefficient"]. split()[0]) * 1e-6 # um/m/K -> mm/mm/K elif self.materials[elset_id].Material[ "ThermalExpansionCoefficient"].split()[1] == "m/m/K": expansion = float( self.materials[elset_id]. Material["ThermalExpansionCoefficient"].split() [0]) # m/m/K -> mm/mm/K else: raise Exception(" units not recognised in " + self.materials[elset_id].Name) except KeyError: expansion = 0. try: specific_heat = float( self.materials[elset_id].Material["SpecificHeat"].split() [0]) * 1e6 # J/kg/K -> mm^2/s^2/K if self.materials[elset_id].Material["SpecificHeat"].split( )[1] != "J/kg/K": raise Exception(" units not recognised in " + self.materials[elset_id].Name) except KeyError: specific_heat = 0. if thickness_id != -1: thickness = str( self.thicknesses[thickness_id].Thickness).split()[0] # mm if str(self.thicknesses[thickness_id].Thickness).split( )[1] != "mm": raise Exception(" units not recognised in " + self.thicknesses[thickness_id].Name) else: thickness = 0. optimized = self.checkbox.isChecked() if self.textbox.text(): von_mises = float(self.textbox.text()) else: von_mises = 0. elset_id1 = self.combo1.currentIndex() - 1 thickness_id1 = self.combo0t.currentIndex() - 1 if elset_id1 != -1: if thickness_id1 != -1: elset1 = self.materials[elset_id1].Name + self.thicknesses[ thickness_id1].Name else: # 0 means None thickness selected elset1 = self.materials[elset_id1].Name + "Solid" modulus1 = float( self.materials[elset_id1].Material["YoungsModulus"].split() [0]) # MPa if self.materials[elset_id1].Material["YoungsModulus"].split( )[1] != "MPa": raise Exception(" units not recognised in " + self.materials[elset_id1].Name) poisson1 = float( self.materials[elset_id1].Material["PoissonRatio"].split()[0]) try: density1 = float(self.materials[elset_id1].Material["Density"]. split()[0]) * 1e-12 # kg/m3 -> t/mm3 if self.materials[elset_id1].Material["Density"].split( )[1] not in ["kg/m^3", "kg/m3"]: raise Exception(" units not recognised in " + self.materials[elset_id1].Name) except KeyError: density1 = 0. try: conductivity1 = float( self.materials[elset_id1].Material["ThermalConductivity"]. split()[0]) # W/m/K if self.materials[elset_id1].Material[ "ThermalConductivity"].split()[1] != "W/m/K": raise Exception(" units not recognised in " + self.materials[elset_id1].Name) except KeyError: conductivity1 = 0. try: if self.materials[elset_id1].Material[ "ThermalExpansionCoefficient"].split()[1] == "um/m/K": expansion1 = float(self.materials[elset_id1]. Material["ThermalExpansionCoefficient"]. split()[0]) * 1e-6 # um/m/K -> mm/mm/K elif self.materials[elset_id1].Material[ "ThermalExpansionCoefficient"].split()[1] == "m/m/K": expansion1 = float( self.materials[elset_id1]. Material["ThermalExpansionCoefficient"].split() [0]) # m/m/K -> mm/mm/K else: raise Exception(" units not recognised in " + self.materials[elset_id1].Name) except KeyError: expansion1 = 0. try: specific_heat1 = float( self.materials[elset_id1].Material["SpecificHeat"].split() [0]) * 1e6 # J/kg/K -> mm^2/s^2/K if self.materials[elset_id1].Material["SpecificHeat"].split( )[1] != "J/kg/K": raise Exception(" units not recognised in " + self.materials[elset_id1].Name) except KeyError: specific_heat1 = 0. if thickness_id1 != -1: thickness1 = str( self.thicknesses[thickness_id1].Thickness).split()[0] # mm if str(self.thicknesses[thickness_id1].Thickness).split( )[1] != "mm": raise Exception(" units not recognised in " + self.thicknesses[thickness_id1].Name) else: thickness1 = 0. optimized1 = self.checkbox1.isChecked() if self.textbox1.text(): von_mises1 = float(self.textbox1.text()) else: von_mises1 = 0. elset_id2 = self.combo2.currentIndex() - 1 thickness_id2 = self.combo0t.currentIndex() - 1 if elset_id2 != -1: if thickness_id2 != -1: elset2 = self.materials[elset_id2].Name + self.thicknesses[ thickness_id2].Name else: # 0 means None thickness selected else2t = self.materials[elset_id2].Name + "Solid" modulus2 = float( self.materials[elset_id2].Material["YoungsModulus"].split() [0]) # MPa if self.materials[elset_id2].Material["YoungsModulus"].split( )[1] != "MPa": raise Exception(" units not recognised in " + self.materials[elset_id2].Name) poisson2 = float( self.materials[elset_id2].Material["PoissonRatio"].split()[0]) try: density2 = float(self.materials[elset_id2].Material["Density"]. split()[0]) * 1e-12 # kg/m3 -> t/mm3 if self.materials[elset_id2].Material["Density"].split( )[1] not in ["kg/m^3", "kg/m3"]: raise Exception(" units not recognised in " + self.materials[elset_id2].Name) except KeyError: density2 = 0. try: conductivity2 = float( self.materials[elset_id2].Material["ThermalConductivity"]. split()[0]) # W/m/K if self.materials[elset_id2].Material[ "ThermalConductivity"].split()[1] != "W/m/K": raise Exception(" units not recognised in " + self.materials[elset_id2].Name) except KeyError: conductivity2 = 0. try: if self.materials[elset_id2].Material[ "ThermalExpansionCoefficient"].split()[1] == "um/m/K": expansion2 = float(self.materials[elset_id2]. Material["ThermalExpansionCoefficient"]. split()[0]) * 1e-6 # um/m/K -> mm/mm/K elif self.materials[elset_id2].Material[ "ThermalExpansionCoefficient"].split()[1] == "m/m/K": expansion2 = float( self.materials[elset_id2]. Material["ThermalExpansionCoefficient"].split() [0]) # m/m/K -> mm/mm/K else: raise Exception(" units not recognised in " + self.materials[elset_id2].Name) except KeyError: expansion2 = 0. try: specific_heat2 = float( self.materials[elset_id2].Material["SpecificHeat"].split() [0]) * 1e6 # J/kg/K -> mm^2/s^2/K if self.materials[elset_id2].Material["SpecificHeat"].split( )[1] != "J/kg/K": raise Exception(" units not recognised in " + self.materials[elset_id2].Name) except KeyError: specific_heat2 = 0. if thickness_id2 != -1: thickness2 = str( self.thicknesses[thickness_id2].Thickness).split()[0] # mm if str(self.thicknesses[thickness_id2].Thickness).split( )[1] != "mm": raise Exception(" units not recognised in " + self.thicknesses[thickness_id2].Name) else: thickness2 = 0. optimized2 = self.checkbox2.isChecked() if self.textbox2.text(): von_mises2 = float(self.textbox2.text()) else: von_mises2 = 0. with open(os.path.join(self.beso_dir, "beso_conf.py"), "w") as f: f.write( "# This is the configuration file with input parameters. It will be executed as python commands\n" ) f.write("# Written by beso_fc_gui.py at {}\n".format( datetime.datetime.now())) f.write("\n") f.write("path_calculix = '{}'\n".format(path_calculix)) f.write("path = '{}'\n".format(path)) f.write("file_name = '{}'\n".format(file_name)) f.write("\n") if elset_id != -1: f.write("elset_name = '{}'\n".format(elset)) f.write( "domain_optimized[elset_name] = {}\n".format(optimized)) f.write("domain_density[elset_name] = [{}, {}]\n".format( density * 1e-6, density)) if thickness: f.write("domain_thickness[elset_name] = [{}, {}]\n".format( thickness, thickness)) if von_mises: f.write( "domain_FI[elset_name] = [[('stress_von_Mises', {:.6})],\n" .format(von_mises * 1e6)) f.write( " [('stress_von_Mises', {:.6})]]\n" .format(von_mises)) f.write( "domain_material[elset_name] = ['*ELASTIC\\n{:.6}, {}\\n*DENSITY\\n{:.6}\\n*CONDUCTIVITY\\n" "{:.6}\\n*EXPANSION\\n{:.6}\\n*SPECIFIC HEAT\\n{:.6}\\n',\n" .format(modulus * 1e-6, poisson, density * 1e-6, conductivity * 1e-6, expansion * 1e-6, specific_heat * 1e-6)) f.write( " '*ELASTIC\\n{:.6}, {:.6}\\n*DENSITY\\n{:.6}\\n*CONDUCTIVITY\\n" "{:.6}\\n*EXPANSION\\n{:.6}\\n*SPECIFIC HEAT\\n{:.6}\\n']\n" .format(modulus, poisson, density, conductivity, expansion, specific_heat)) f.write("\n") if elset_id1 != -1: f.write("elset_name = '{}'\n".format(elset1)) f.write( "domain_optimized[elset_name] = {}\n".format(optimized1)) f.write("domain_density[elset_name] = [{}, {}]\n".format( density1 * 1e-6, density1)) if thickness1: f.write("domain_thickness[elset_name] = [{}, {}]\n".format( thickness1, thickness1)) if von_mises1: f.write( "domain_FI[elset_name] = [[('stress_von_Mises', {:.6})],\n" .format(von_mises1 * 1e6)) f.write( " [('stress_von_Mises', {:.6})]]\n" .format(von_mises1)) f.write( "domain_material[elset_name] = ['*ELASTIC\\n{:.6}, {:.6}\\n*DENSITY\\n{:.6}\\n*CONDUCTIVITY" "\\n{:.6}\\n*EXPANSION\\n{:.6}\\n*SPECIFIC HEAT\\n{:.6}\\n',\n" .format(modulus1 * 1e-6, poisson1, density1 * 1e-6, conductivity1 * 1e-6, expansion1 * 1e-6, specific_heat1 * 1e-6)) f.write( " '*ELASTIC\\n{:.6}, {:.6}\\n*DENSITY\\n{:.6}\\n*CONDUCTIVITY\\n" "{:.6}\\n" "*EXPANSION\\n{:.6}\\n*SPECIFIC HEAT\\n{:.6}\\n']\n". format(modulus1, poisson1, density1, conductivity1, expansion1, specific_heat1)) f.write("\n") if elset_id2 != -1: f.write("elset_name = '{}'\n".format(elset2)) f.write( "domain_optimized[elset_name] = {}\n".format(optimized2)) f.write("domain_density[elset_name] = [{}, {}]\n".format( density2 * 1e-6, density2)) if thickness2: f.write("domain_thickness[elset_name] = [{}, {}]\n".format( thickness2, thickness2)) if von_mises2: f.write( "domain_FI[elset_name] = [[('stress_von_Mises', {:.6})],\n" .format(von_mises2 * 1e6)) f.write( " [('stress_von_Mises', {:.6})]]\n" .format(von_mises2)) f.write( "domain_material[elset_name] = ['*ELASTIC\\n{:.6}, {:.6}\\n*DENSITY\\n{:.6}\\n*CONDUCTIVITY" "\\n{:.6}\\n*EXPANSION\\n{:.6}\\n*SPECIFIC HEAT\\n{:.6}\\n',\n" .format(modulus2 * 1e-6, poisson2, density2 * 1e-6, conductivity2 * 1e-6, expansion2 * 1e-6, specific_heat2 * 1e-6)) f.write( " '*ELASTIC\\n{:.6}, {:.6}\\n*DENSITY\\n{:.6}\\n*CONDUCTIVITY\\n" "{:.6}\\n*EXPANSION\\n{:.6}\\n*SPECIFIC HEAT\\n{:.6}\\n']\n" .format(modulus2, poisson2, density2, conductivity2, expansion2, specific_heat2)) f.write("\n") f.write("mass_goal_ratio = " + self.textbox52.text()) f.write("\n") f.write("filter_list = [") filter = self.combo6.currentText() range = self.textbox6.text() direction = self.textbox9.text() selection = [item.text() for item in self.widget.selectedItems()] filter_domains = [] if "All defined" not in selection: if "Domain 0" in selection: filter_domains.append(elset) if "Domain 1" in selection: filter_domains.append(elset1) if "Domain 2" in selection: filter_domains.append(elset2) if filter == "simple": f.write("['simple', {}".format(range)) for dn in filter_domains: f.write(", '{}'".format(dn)) f.write("],\n") elif filter == "casting": f.write("['casting', {}, ({})".format(range, direction)) for dn in filter_domains: f.write(", '{}'".format(dn)) f.write("],\n") filter1 = self.combo7.currentText() range1 = self.textbox7.text() direction1 = self.textbox10.text() selection = [item.text() for item in self.widget1.selectedItems()] filter_domains1 = [] if "All defined" not in selection: if "Domain 0" in selection: filter_domains1.append(elset) if "Domain 1" in selection: filter_domains1.append(elset1) if "Domain 2" in selection: filter_domains1.append(elset2) if filter1 == "simple": f.write(" ['simple', {}".format(range1)) for dn in filter_domains1: f.write(", '{}'".format(dn)) f.write("],\n") elif filter1 == "casting": f.write(" ['casting', {}, ({})".format( range1, direction1)) for dn in filter_domains1: f.write(", '{}'".format(dn)) f.write("],\n") filter2 = self.combo8.currentText() range2 = self.textbox8.text() direction2 = self.textbox11.text() selection = [item.text() for item in self.widget2.selectedItems()] filter_domains2 = [] if "All defined" not in selection: if "Domain 0" in selection: filter_domains2.append(elset) if "Domain 1" in selection: filter_domains2.append(elset1) if "Domain 2" in selection: filter_domains2.append(elset2) if filter2 == "simple": f.write(" ['simple', {}".format(range2)) for dn in filter_domains2: f.write(", '{}'".format(dn)) f.write("],\n") elif filter2 == "casting": f.write(" ['casting', {}, ({})".format( range2, direction2)) for dn in filter_domains2: f.write(", '{}'".format(dn)) f.write("],\n") f.write(" ]\n") f.write("\n") f.write("optimization_base = '{}'\n".format(optimization_base)) f.write("\n") slider_position = self.slider.value() if slider_position == 1: f.write("mass_addition_ratio = 0.01\n") f.write("mass_removal_ratio = 0.02\n") if slider_position == 2: f.write("mass_addition_ratio = 0.015\n") f.write("mass_removal_ratio = 0.03\n") if slider_position == 3: f.write("mass_addition_ratio = 0.03\n") f.write("mass_removal_ratio = 0.06\n") f.write("ratio_type = 'relative'\n") f.write("\n") def on_click22(self): """Open beso_conf.py in FreeCAD editor""" FreeCADGui.insert(os.path.join(self.beso_dir, "beso_conf.py")) def on_click23(self): """"Run optimization""" # run in own thread (not freezing FreeCAD): needs also to comment "plt.show()" on the end of beso_main.py # self.optimization_thread = RunOptimization("beso_main") # self.optimization_thread.start() # run in foreground (freeze FreeCAD) exec(open(os.path.join(beso_gui.beso_dir, "beso_main.py")).read()) def on_click24(self): self.on_click21() # generate beso_conf.py self.on_click23() # run optimization def on_click31(self): webbrowser.open_new_tab( "https://github.com/fandaL/beso/wiki/Example-4:-GUI-in-FreeCAD") def on_click32(self): webbrowser.open_new_tab( "https://github.com/fandaL/beso/blob/master/beso_conf.py") def on_click33(self): self.close() def on_click40(self): """Open log file""" if self.textbox_file_name.text() in [ "None analysis file selected", "" ]: print("None analysis file selected") else: log_file = os.path.normpath(self.textbox_file_name.text()[:-4] + ".log") webbrowser.open(log_file) def on_change(self): if self.combo.currentText() == "None": self.combo0t.setEnabled(False) self.checkbox.setEnabled(False) self.textbox.setEnabled(False) else: self.combo0t.setEnabled(True) self.checkbox.setEnabled(True) self.textbox.setEnabled(True) def on_change1(self): if self.combo1.currentText() == "None": self.combo1t.setEnabled(False) self.checkbox1.setEnabled(False) self.textbox1.setEnabled(False) else: self.combo1t.setEnabled(True) self.checkbox1.setEnabled(True) self.textbox1.setEnabled(True) def on_change2(self): if self.combo2.currentText() == "None": self.combo2t.setEnabled(False) self.checkbox2.setEnabled(False) self.textbox2.setEnabled(False) else: self.combo2t.setEnabled(True) self.checkbox2.setEnabled(True) self.textbox2.setEnabled(True) def on_change6(self): if self.combo6.currentText() == "None": self.textbox6.setEnabled(False) self.textbox9.setEnabled(False) self.widget.setEnabled(False) elif self.combo6.currentText() == "casting": self.textbox6.setEnabled(True) self.textbox9.setEnabled(True) self.widget.setEnabled(True) else: self.textbox6.setEnabled(True) self.textbox9.setEnabled(False) self.widget.setEnabled(True) def on_change7(self): if self.combo7.currentText() == "None": self.textbox7.setEnabled(False) self.textbox10.setEnabled(False) self.widget1.setEnabled(False) elif self.combo7.currentText() == "casting": self.textbox7.setEnabled(True) self.textbox10.setEnabled(True) self.widget1.setEnabled(True) else: self.textbox7.setEnabled(True) self.textbox10.setEnabled(False) self.widget1.setEnabled(True) def on_change8(self): if self.combo8.currentText() == "None": self.textbox8.setEnabled(False) self.textbox11.setEnabled(False) self.widget2.setEnabled(False) elif self.combo8.currentText() == "casting": self.textbox8.setEnabled(True) self.textbox11.setEnabled(True) self.widget2.setEnabled(True) else: self.textbox8.setEnabled(True) self.textbox11.setEnabled(False) self.widget2.setEnabled(True)