コード例 #1
0
class Thermochem(ToolInstance):
    """tool for calculating free energy corrections based on frequencies and energies 
    associated with FileReaders
    there are two tabs: absolute and relative
    
    the absolute tab can be used to combine the thermo corrections from one
    FileReader with the energy of another
    
    the relative tab can do the same, but it prints the energies relative to
    those of another FileReader
    multiple molecule groups can be added (i.e. for reactions with multiple
    reactants and products)
    each molecule group can have multiple conformers
    the energies of these conformers are boltzmann weighted, and the boltzmann-weighted
    energy is used to calculate the energy of either the reference group or the 'other' group"""

    SESSION_ENDURING = False
    SESSION_SAVE = False
    help = "https://github.com/QChASM/SEQCROW/wiki/Process-Thermochemistry-Tool"

    theory_helper = {
        "Grimme's Quasi-RRHO": "https://doi.org/10.1002/chem.201200497",
        "Truhlar's Quasi-Harmonic": "https://doi.org/10.1021/jp205508z"
    }

    def __init__(self, session, name):
        super().__init__(session, name)

        self.display_name = "Thermochemistry"

        self.tool_window = MainToolWindow(self)

        self.settings = _ComputeThermoSettings(self.session, name)

        self.nrg_fr = {}
        self.thermo_fr = {}
        self.thermo_co = {}
        self._headers = []
        self._data = []

        self._build_ui()

        self.set_sp()
        self.set_thermo_mdl()

        self.calc_relative_thermo()

    def _build_ui(self):
        #each group has an empty widget at the bottom so they resize the way I want while also having the
        #labels where I want them
        layout = QGridLayout()

        self.tab_widget = QTabWidget()
        layout.addWidget(self.tab_widget)

        #layout for absolute thermo stuff
        absolute_widget = QWidget()
        absolute_layout = QGridLayout(absolute_widget)

        #box for sp
        sp_area_widget = QGroupBox("Single-point")
        sp_layout = QFormLayout(sp_area_widget)

        self.sp_selector = FilereaderComboBox(self.session,
                                              otherItems=['energy'])
        self.sp_selector.currentIndexChanged.connect(self.set_sp)
        sp_layout.addRow(self.sp_selector)

        self.sp_table = QTableWidget()
        self.sp_table.setColumnCount(3)
        self.sp_table.setShowGrid(False)
        self.sp_table.horizontalHeader().hide()
        self.sp_table.verticalHeader().hide()
        self.sp_table.setFrameShape(QTableWidget.NoFrame)
        self.sp_table.setSelectionMode(QTableWidget.NoSelection)
        self.sp_table.insertRow(0)
        sp_layout.addRow(self.sp_table)

        #box for thermo
        therm_area_widget = QGroupBox("Thermal corrections")
        thermo_layout = QFormLayout(therm_area_widget)

        self.thermo_selector = FilereaderComboBox(self.session,
                                                  otherItems=['frequency'])
        self.thermo_selector.currentIndexChanged.connect(self.set_thermo_mdl)
        thermo_layout.addRow(self.thermo_selector)

        self.temperature_line = QDoubleSpinBox()
        self.temperature_line.setMaximum(2**31 - 1)
        self.temperature_line.setValue(298.15)
        self.temperature_line.setSingleStep(10)
        self.temperature_line.setSuffix(" K")
        self.temperature_line.setMinimum(0)
        self.temperature_line.valueChanged.connect(self.set_thermo)
        thermo_layout.addRow("T =", self.temperature_line)

        self.v0_edit = QDoubleSpinBox()
        self.v0_edit.setMaximum(4000)
        self.v0_edit.setValue(self.settings.w0)
        self.v0_edit.setSingleStep(25)
        self.v0_edit.setSuffix(" cm\u207b\u00b9")
        self.v0_edit.valueChanged.connect(self.set_thermo)
        self.v0_edit.setMinimum(0)
        self.v0_edit.setToolTip(
            "frequency parameter for quasi treatments of entropy")
        thermo_layout.addRow("𝜔<sub>0</sub> =", self.v0_edit)

        self.thermo_table = QTableWidget()
        self.thermo_table.setColumnCount(3)
        self.thermo_table.setShowGrid(False)
        self.thermo_table.horizontalHeader().hide()
        self.thermo_table.verticalHeader().hide()
        self.thermo_table.setFrameShape(QTableWidget.NoFrame)
        self.thermo_table.setSelectionMode(QTableWidget.NoSelection)
        thermo_layout.addRow(self.thermo_table)

        # for for total
        sum_area_widget = QGroupBox("Thermochemistry")
        sum_layout = QFormLayout(sum_area_widget)

        self.sum_table = QTableWidget()
        self.sum_table.setColumnCount(3)
        self.sum_table.setShowGrid(False)
        self.sum_table.horizontalHeader().hide()
        self.sum_table.verticalHeader().hide()
        self.sum_table.setFrameShape(QTableWidget.NoFrame)
        self.sum_table.setSelectionMode(QTableWidget.NoSelection)
        sum_layout.addRow(self.sum_table)

        splitter = QSplitter(Qt.Horizontal)
        splitter.setChildrenCollapsible(False)
        splitter.addWidget(sp_area_widget)
        splitter.addWidget(therm_area_widget)
        splitter.addWidget(sum_area_widget)

        absolute_layout.addWidget(splitter)

        self.status = QStatusBar()
        self.status.setSizeGripEnabled(False)
        self.status.setStyleSheet("color: red")
        absolute_layout.addWidget(self.status, 1, 0, 1, 1, Qt.AlignTop)

        self.tab_widget.addTab(absolute_widget, "absolute")

        relative_widget = QWidget()
        relative_layout = QGridLayout(relative_widget)

        size = [self.settings.ref_col_1, self.settings.ref_col_2]
        self.ref_group = ThermoGroup("reference group", self.session,
                                     self.nrg_fr, self.thermo_co, size)
        self.ref_group.changes.connect(self.calc_relative_thermo)
        relative_layout.addWidget(self.ref_group, 0, 0, 1, 3, Qt.AlignTop)

        size = [self.settings.other_col_1, self.settings.other_col_2]
        self.other_group = ThermoGroup("other group", self.session,
                                       self.nrg_fr, self.thermo_co, size)
        self.other_group.changes.connect(self.calc_relative_thermo)
        relative_layout.addWidget(self.other_group, 0, 3, 1, 3, Qt.AlignTop)

        self.relative_temperature = QDoubleSpinBox()
        self.relative_temperature.setMaximum(2**31 - 1)
        self.relative_temperature.setValue(self.settings.rel_temp)
        self.relative_temperature.setSingleStep(10)
        self.relative_temperature.setSuffix(" K")
        self.relative_temperature.setMinimum(0)
        self.relative_temperature.valueChanged.connect(
            self.calc_relative_thermo)
        relative_layout.addWidget(QLabel("T ="), 1, 0, 1, 1,
                                  Qt.AlignRight | Qt.AlignVCenter)
        relative_layout.addWidget(self.relative_temperature, 1, 1, 1, 5,
                                  Qt.AlignLeft | Qt.AlignVCenter)

        self.relative_v0 = QDoubleSpinBox()
        self.relative_v0.setMaximum(2**31 - 1)
        self.relative_v0.setValue(self.settings.w0)
        self.relative_v0.setSingleStep(25)
        self.relative_v0.setSuffix(" cm\u207b\u00b9")
        self.relative_v0.setMinimum(0)
        self.relative_v0.setToolTip(
            "frequency parameter for quasi treatments of entropy")
        self.relative_v0.valueChanged.connect(self.calc_relative_thermo)
        relative_layout.addWidget(QLabel("𝜔<sub>0</sub> ="), 2, 0, 1, 1,
                                  Qt.AlignRight | Qt.AlignVCenter)

        relative_layout.addWidget(self.relative_v0, 2, 1, 1, 5,
                                  Qt.AlignLeft | Qt.AlignVCenter)

        relative_layout.addWidget(
            QLabel("Boltzmann-weighted relative energies in kcal/mol:"), 3, 0,
            1, 6, Qt.AlignVCenter | Qt.AlignLeft)

        self.relative_table = QTextBrowser()
        self.relative_table.setMaximumHeight(
            4 * self.relative_table.fontMetrics().boundingRect("Q").height())
        relative_layout.addWidget(self.relative_table, 4, 0, 1, 6, Qt.AlignTop)

        relative_layout.setRowStretch(0, 1)
        relative_layout.setRowStretch(1, 0)
        relative_layout.setRowStretch(2, 0)
        relative_layout.setRowStretch(3, 0)
        relative_layout.setRowStretch(4, 0)

        self.tab_widget.addTab(relative_widget, "relative")

        #menu stuff
        menu = QMenuBar()

        export = menu.addMenu("&Export")
        copy = QAction("&Copy CSV to clipboard", self.tool_window.ui_area)
        copy.triggered.connect(self.copy_csv)
        shortcut = QKeySequence(Qt.CTRL + Qt.Key_C)
        copy.setShortcut(shortcut)
        export.addAction(copy)
        self.copy = copy

        save = QAction("&Save CSV...", self.tool_window.ui_area)
        save.triggered.connect(self.save_csv)
        #this shortcut interferes with main window's save shortcut
        #I've tried different shortcut contexts to no avail
        #thanks Qt...
        #shortcut = QKeySequence(Qt.CTRL + Qt.Key_S)
        #save.setShortcut(shortcut)
        #save.setShortcutContext(Qt.WidgetShortcut)
        export.addAction(save)

        delimiter = export.addMenu("Delimiter")

        comma = QAction("comma", self.tool_window.ui_area, checkable=True)
        comma.setChecked(self.settings.delimiter == "comma")
        comma.triggered.connect(lambda *args, delim="comma": self.settings.
                                __setattr__("delimiter", delim))
        delimiter.addAction(comma)

        tab = QAction("tab", self.tool_window.ui_area, checkable=True)
        tab.setChecked(self.settings.delimiter == "tab")
        tab.triggered.connect(lambda *args, delim="tab": self.settings.
                              __setattr__("delimiter", delim))
        delimiter.addAction(tab)

        space = QAction("space", self.tool_window.ui_area, checkable=True)
        space.setChecked(self.settings.delimiter == "space")
        space.triggered.connect(lambda *args, delim="space": self.settings.
                                __setattr__("delimiter", delim))
        delimiter.addAction(space)

        semicolon = QAction("semicolon",
                            self.tool_window.ui_area,
                            checkable=True)
        semicolon.setChecked(self.settings.delimiter == "semicolon")
        semicolon.triggered.connect(lambda *args, delim="semicolon": self.
                                    settings.__setattr__("delimiter", delim))
        delimiter.addAction(semicolon)

        add_header = QAction("&Include CSV header",
                             self.tool_window.ui_area,
                             checkable=True)
        add_header.setChecked(self.settings.include_header)
        add_header.triggered.connect(self.header_check)
        export.addAction(add_header)

        comma.triggered.connect(
            lambda *args, action=tab: action.setChecked(False))
        comma.triggered.connect(
            lambda *args, action=space: action.setChecked(False))
        comma.triggered.connect(
            lambda *args, action=semicolon: action.setChecked(False))

        tab.triggered.connect(
            lambda *args, action=comma: action.setChecked(False))
        tab.triggered.connect(
            lambda *args, action=space: action.setChecked(False))
        tab.triggered.connect(
            lambda *args, action=semicolon: action.setChecked(False))

        space.triggered.connect(
            lambda *args, action=comma: action.setChecked(False))
        space.triggered.connect(
            lambda *args, action=tab: action.setChecked(False))
        space.triggered.connect(
            lambda *args, action=semicolon: action.setChecked(False))

        semicolon.triggered.connect(
            lambda *args, action=comma: action.setChecked(False))
        semicolon.triggered.connect(
            lambda *args, action=tab: action.setChecked(False))
        semicolon.triggered.connect(
            lambda *args, action=space: action.setChecked(False))

        menu.setNativeMenuBar(False)
        self._menu = menu
        layout.setMenuBar(menu)
        menu.setVisible(True)

        self.tool_window.ui_area.setLayout(layout)

        self.tool_window.manage(None)

    def calc_relative_thermo(self, *args):
        """changes the values on the 'relative' tab
        called when the tool is opened and whenever something changes on the relative tab"""
        def calc_free_energies(nrg_list, co_list, T, w0):
            """returns lists for ZPVE, H, RRHO G, QRRHO G, and QHARM G
            for the items in nrg_list and co_list at temperature T
            and frequency parameter w0"""
            ZPVEs = []
            if all(co.frequency.anharm_data for co_group in co_list
                   for co in co_group):
                anharm_ZVPEs = []
            else:
                anharm_ZVPEs = None
            Hs = []
            Gs = []
            RRHOG = []
            QHARMG = []
            for i in range(0, len(nrg_list)):
                ZPVEs.append([])
                if anharm_ZVPEs is not None:
                    anharm_ZVPEs.append([])
                Hs.append([])
                Gs.append([])
                RRHOG.append([])
                QHARMG.append([])
                for nrg, co in zip(nrg_list[i], co_list[i]):
                    ZPVE = co.ZPVE
                    ZPVEs[-1].append(nrg + ZPVE)

                    if anharm_ZVPEs is not None:
                        zpve_anharm = co.calc_zpe(anharmonic=True)
                        anharm_ZVPEs[-1].append(nrg + zpve_anharm)

                    dH = co.therm_corr(T, w0, CompOutput.RRHO)[1]
                    Hs[-1].append(nrg + dH)

                    dG = co.calc_G_corr(temperature=T,
                                        v0=w0,
                                        method=CompOutput.RRHO)
                    Gs[-1].append(nrg + dG)

                    dQRRHOG = co.calc_G_corr(temperature=T,
                                             v0=w0,
                                             method=CompOutput.QUASI_RRHO)
                    RRHOG[-1].append(nrg + dQRRHOG)

                    dQHARMG = co.calc_G_corr(temperature=T,
                                             v0=w0,
                                             method=CompOutput.QUASI_HARMONIC)
                    QHARMG[-1].append(nrg + dQHARMG)

            return ZPVEs, anharm_ZVPEs, Hs, Gs, RRHOG, QHARMG

        def boltzmann_weight(energies1, energies2, T):
            """
            energies - list of lists
                       list axis 0 - molecule groups
                            axis 1 - energies of conformers
            boltzmann weight energies for conformers 
            combine energies for molecule groups 
            return the difference"""
            totals1 = []
            totals2 = []

            beta = UNIT.HART_TO_JOULE / (PHYSICAL.KB * T)

            for energy_group in energies1:
                if len(energy_group) == 0:
                    continue

                rezero = min(energy_group)
                rel_nrgs = [(x - rezero) for x in energy_group]
                weights = [np.exp(-beta * nrg) for nrg in rel_nrgs]

                totals1.append(-PHYSICAL.BOLTZMANN * T * np.log(sum(weights)) +
                               rezero * UNIT.HART_TO_KCAL)

            for energy_group in energies2:
                if len(energy_group) == 0:
                    continue

                rezero = min(energy_group)
                rel_nrgs = [(x - rezero) for x in energy_group]
                weights = [np.exp(-beta * nrg) for nrg in rel_nrgs]

                totals2.append(-PHYSICAL.BOLTZMANN * T * np.log(sum(weights)) +
                               rezero * UNIT.HART_TO_KCAL)

            return sum(totals2) - sum(totals1)

        ref_Es = self.ref_group.energies()
        ref_cos = self.ref_group.compOutputs()

        other_Es = self.other_group.energies()
        other_cos = self.other_group.compOutputs()

        if any(
                len(x) == 0 or all(len(y) == 0 for y in x)
                for x in [ref_Es, other_Es]):
            self.relative_table.setText("not enough data")
            return

        T = self.relative_temperature.value()
        self.settings.rel_temp = T
        w0 = self.relative_v0.value()

        if w0 != self.settings.w0:
            self.settings.w0 = w0

        rel_E = boltzmann_weight(ref_Es, other_Es, T)
        headers = ["ΔE"]
        data = [rel_E]

        empty_groups = []
        for i, group in enumerate(ref_cos):
            if len(group) == 0:
                empty_groups.append(i)
        for ndx in empty_groups[::-1]:
            ref_Es.pop(ndx)
            ref_cos.pop(ndx)

        empty_groups = []
        for i, group in enumerate(other_cos):
            if len(group) == 0:
                empty_groups.append(i)

        for ndx in empty_groups[::-1]:
            other_Es.pop(ndx)
            other_cos.pop(ndx)

        if not any(
                len(x) == 0 or all(len(y) == 0 for y in x)
                for x in [ref_cos, other_cos]):
            rel_E = boltzmann_weight(ref_Es, other_Es, T)
            data = [rel_E]

            ref_ZPVEs, ref_anharm_zpve, ref_Hs, ref_Gs, ref_QRRHOGs, ref_QHARMGs = calc_free_energies(
                ref_Es, ref_cos, T, w0)
            other_ZPVEs, other_anharm_zpve, other_Hs, other_Gs, other_QRRHOGs, other_QHARMGs = calc_free_energies(
                other_Es, other_cos, T, w0)

            rel_ZPVE = boltzmann_weight(ref_ZPVEs, other_ZPVEs, T)
            rel_H = boltzmann_weight(ref_Hs, other_Hs, T)
            rel_G = boltzmann_weight(ref_Gs, other_Gs, T)
            rel_QRRHOG = boltzmann_weight(ref_QRRHOGs, other_QRRHOGs, T)
            rel_QHARMG = boltzmann_weight(ref_QHARMGs, other_QHARMGs, T)

            if ref_anharm_zpve and other_anharm_zpve:
                rel_anharm_ZPVE = boltzmann_weight(ref_anharm_zpve,
                                                   other_anharm_zpve, T)
                headers.extend([
                    "ΔZPE",
                    "ΔZPE<sub>anh</sub>",
                    "ΔH<sub>RRHO</sub>",
                    "ΔG<sub>RRHO</sub>",
                    "ΔG<sub>Quasi-RRHO</sub>",
                    "ΔG<sub>Quasi-Harmonic</sub>",
                ])
                data.extend([
                    rel_ZPVE,
                    rel_anharm_ZPVE,
                    rel_H,
                    rel_G,
                    rel_QRRHOG,
                    rel_QHARMG,
                ])
            else:
                headers.extend([
                    "ΔZPE",
                    "ΔH<sub>RRHO</sub>",
                    "ΔG<sub>RRHO</sub>",
                    "ΔG<sub>Quasi-RRHO</sub>",
                    "ΔG<sub>Quasi-Harmonic</sub>",
                ])
                data.extend([
                    rel_ZPVE,
                    rel_H,
                    rel_G,
                    rel_QRRHOG,
                    rel_QHARMG,
                ])

        self._headers = headers
        self._data = data

        s = "<table style=\"border: 1px solid ghostwhite;\">\n"
        s += "\t<tr>\n"
        for header in headers:
            s += "\t\t<th style=\"text-align: center; border: 1px solid ghostwhite; padding-left: 5px;  padding-right: 5px\">%s</th>\n" % header
        s += "\t</tr>\n"
        s += "\t<tr>\n"
        for val in data:
            s += "\t\t<td style=\"text-align: center; border: 1px solid ghostwhite; padding-left: 5px;  padding-right: 5px\">%.1f</td>\n" % val
        s += "\t</tr>\n"
        s += "</table>"

        self.relative_table.setText(s)

    def open_link(self, theory):
        """open the oft-cited QRRHO or QHARM reference"""
        link = self.theory_helper[theory]
        run(self.session, "open %s" % link)

    def save_csv(self):
        """save data on current tab to CSV file"""
        filename, _ = QFileDialog.getSaveFileName(filter="CSV Files (*.csv)")
        if filename:
            s = self.get_csv()

            with open(filename, 'w') as f:
                f.write(s.strip())

            self.session.logger.status("saved to %s" % filename)

    def copy_csv(self):
        """put CSV data for current tab on the clipboard"""
        app = QApplication.instance()
        clipboard = app.clipboard()
        csv = self.get_csv()
        clipboard.setText(csv)
        self.session.logger.status("copied to clipboard")

    def get_csv(self):
        """get CSV data for the current tab"""
        if self.settings.delimiter == "comma":
            delim = ","
        elif self.settings.delimiter == "space":
            delim = " "
        elif self.settings.delimiter == "tab":
            delim = "\t"
        elif self.settings.delimiter == "semicolon":
            delim = ";"

        if self.tab_widget.currentIndex() == 0:
            s = ""
            if self.settings.include_header:
                link_re = QRegularExpression("<a[\d\D]*>(𝛿?Δ?[\d\D]*)</a>")
                # get header labels from the tables
                for table in [
                        self.sp_table, self.thermo_table, self.sum_table
                ]:
                    for row in range(0, table.rowCount()):
                        item = table.cellWidget(row, 0)
                        text = item.text()
                        text = text.replace(" =", "")
                        text = text.replace("<sub>", "(")
                        text = text.replace("</sub>", ")")
                        # if there's a link like for QRRHO G, remove the link
                        if "href=" in text:
                            match = link_re.match(text)
                            text = match.captured(1)
                        text = text.replace("𝛿", "d")
                        s += "%s%s" % (text, delim)

                s += "SP_File%sThermo_File\n" % delim

            # get values from tables
            for table in [self.sp_table, self.thermo_table, self.sum_table]:
                for row in range(0, table.rowCount()):
                    item = table.cellWidget(row, 1)
                    s += "%s%s" % (item.text(), delim)

            sp_mdl = self.sp_selector.currentData()
            sp_name = sp_mdl.name
            therm_mdl = self.thermo_selector.currentData()

            s += "%s" % sp_name
            if therm_mdl:
                therm_name = therm_mdl.name
                s += "%s%s" % (delim, therm_name)
            s += "\n"

        elif self.tab_widget.currentIndex() == 1:
            s = ""
            if self.settings.include_header:
                link_re = QRegularExpression("<a[\d\D]*>(𝛿?Δ?[\d\D]*)</a>")
                # get header labels from the tables
                for text in self._headers:
                    text = text.replace(" =", "")
                    text = text.replace("<sub>", "(")
                    text = text.replace("</sub>", ")")
                    # if there's a link like for QRRHO G, remove the link
                    if "href=" in text:
                        match = link_re.match(text)
                        text = match.captured(1)
                    text = text.replace("𝛿", "d")
                    s += "%s%s" % (text, delim)

            s = s.rstrip(delim)
            s += "\n"
            s += delim.join(["%.1f" % val for val in self._data])

        return s

    def header_check(self, state):
        """user has [un]checked the 'include header' option on the menu"""
        if state:
            self.settings.include_header = True
        else:
            self.settings.include_header = False

    def set_sp(self):
        """set energy entry for when sp model changes"""
        self.sp_table.setRowCount(0)
        if self.sp_selector.currentIndex() >= 0:
            fr = self.sp_selector.currentData()

            self.check_geometry_rmsd("SP")

            self.sp_table.insertRow(0)

            nrg_label = QLabel("E =")
            nrg_label.setAlignment(Qt.AlignRight | Qt.AlignVCenter)
            self.sp_table.setCellWidget(0, 0, nrg_label)

            unit_label = ReadOnlyTableItem()
            unit_label.setData(Qt.DisplayRole, "E\u2095")
            unit_label.setTextAlignment(Qt.AlignLeft | Qt.AlignVCenter)
            self.sp_table.setItem(0, 2, unit_label)

            sp_nrg = SmallLineEdit("%.6f" % fr.other['energy'])
            sp_nrg.setReadOnly(True)
            sp_nrg.setFrame(False)
            self.sp_table.setCellWidget(0, 1, sp_nrg)

            self.sp_table.resizeRowToContents(0)
            self.sp_table.resizeColumnToContents(0)
            self.sp_table.resizeColumnToContents(1)
            self.sp_table.resizeColumnToContents(2)

        self.update_sum()

    def set_thermo_mdl(self):
        """
        frequencies filereader has changed on the absolute tab
        also changes the temperature option (on the absolute tab only)
        """
        if self.thermo_selector.currentIndex() >= 0:
            fr = self.thermo_selector.currentData()

            self.check_geometry_rmsd("THERM")

            if 'temperature' in fr.other:
                self.temperature_line.setValue(fr.other['temperature'])

        self.set_thermo()

    def check_geometry_rmsd(self, *args):
        """check RMSD between energy and frequency filereader on the absolute tab
        if the RMSD is > 10^-5 or the number of atoms is different, put a warning in the
        status bar"""
        if self.thermo_selector.currentIndex(
        ) >= 0 and self.sp_selector.currentIndex() >= 0:
            fr = self.sp_selector.currentData()
            fr2 = self.thermo_selector.currentData()

            if len(fr.atoms) != len(fr2.atoms):
                self.status.showMessage(
                    "structures are not the same: different number of atoms")
                return

            geom = Geometry(fr)
            geom2 = Geometry(fr2)
            rmsd = geom.RMSD(geom2)
            if not isclose(rmsd, 0, atol=10**-5):
                rmsd = geom.RMSD(geom2, sort=True)

            if not isclose(rmsd, 0, atol=10**-5):
                self.status.showMessage(
                    "structures might not be the same - RMSD = %.4f" % rmsd)
            else:
                self.status.showMessage("")

    def set_thermo(self):
        """computes thermo corrections and sets thermo entries for when thermo model changes"""
        #index of combobox is -1 when combobox has no entries
        self.thermo_table.setRowCount(0)
        if self.thermo_selector.currentIndex() >= 0:
            fr = self.thermo_selector.currentData()
            if fr not in self.thermo_co:
                self.thermo_co[fr] = CompOutput(fr)
            co = self.thermo_co[fr]

            v0 = self.v0_edit.value()

            if v0 != self.settings.w0:
                self.settings.w0 = v0

            T = self.temperature_line.value()
            if not T:
                return

            dZPE = co.ZPVE
            #compute enthalpy and entropy at this temperature
            #AaronTools uses Grimme's Quasi-RRHO, but this is the same as RRHO when w0=0
            dE, dH, s = co.therm_corr(temperature=T, v0=0, method="RRHO")
            rrho_dg = dH - T * s
            #compute G with quasi entropy treatments
            qrrho_dg = co.calc_G_corr(v0=v0, temperature=T, method="QRRHO")
            qharm_dg = co.calc_G_corr(v0=v0, temperature=T, method="QHARM")

            items = [(
                "𝛿ZPE =",
                dZPE,
                None,
                "lowest energy the molecule can have\n"
                "no rotational or vibrational modes populated\n"
                "equal to enthalpy at 0 K",
            )]

            if fr.other["frequency"].anharm_data:
                dZPE_anh = co.calc_zpe(anharmonic=True)
                items.append((
                    "𝛿ZPE<sub>anh</sub> =",
                    dZPE_anh,
                    None,
                    "lowest energy the molecule can have\n"
                    "no rotational or vibrational modes populated\n"
                    "includes corrections for anharmonic vibrations",
                ))

            items.extend([
                (
                    "𝛿H<sub>RRHO</sub> =",
                    dH,
                    None,
                    "enthalpy of formation",
                ),
                (
                    "𝛿G<sub>RRHO</sub> =",
                    rrho_dg,
                    None,
                    "energy after taking into account the average\n"
                    "population of vibrational, rotational, and translational\n"
                    "degrees of freedom",
                ),
                (
                    "𝛿G<sub>Quasi-RRHO</sub> =",
                    qrrho_dg,
                    "Grimme's Quasi-RRHO",
                    "vibrational entropy of each real mode is damped and complemented\n"
                    "with rotational entropy, with the damping function being stronger for\n"
                    "frequencies < 𝜔\u2080\n"
                    "can mitigate error from inaccuracies in the harmonic oscillator\n"
                    "approximation for low-frequency vibrations",
                ),
                (
                    "𝛿G<sub>Quasi-Harmonic</sub> =",
                    qharm_dg,
                    "Truhlar's Quasi-Harmonic",
                    "real vibrational frequencies below 𝜔\u2080 are treated as 𝜔\u2080\n"
                    "can mitigate error from inaccuracies in the harmonic oscillator\n"
                    "approximation for low-frequency vibrations",
                ),
            ])

            for i, (label_text, val, link, tooltip) in enumerate(items):
                self.thermo_table.insertRow(i)

                label = QLabel(label_text)
                if link:
                    label = QLabel()
                    label.setText(
                        "<a href=\"%s\" style=\"text-decoration: none;\">%s</a>"
                        % (link, label_text))
                    label.setTextFormat(Qt.RichText)
                    label.setTextInteractionFlags(Qt.TextBrowserInteraction)
                    label.linkActivated.connect(self.open_link)

                label.setAlignment(Qt.AlignRight | Qt.AlignVCenter)
                label.setToolTip(tooltip)

                self.thermo_table.setCellWidget(i, 0, label)

                unit_label = ReadOnlyTableItem()
                unit_label.setData(Qt.DisplayRole, "E\u2095")
                unit_label.setTextAlignment(Qt.AlignLeft | Qt.AlignVCenter)
                unit_label.setToolTip(tooltip)
                self.thermo_table.setItem(i, 2, unit_label)

                d_nrg = SmallLineEdit("%.6f" % val)
                d_nrg.setReadOnly(True)
                d_nrg.setFrame(False)
                d_nrg.setToolTip(tooltip)
                self.thermo_table.setCellWidget(i, 1, d_nrg)

                self.thermo_table.resizeRowToContents(i)

            self.thermo_table.resizeColumnToContents(0)
            self.thermo_table.resizeColumnToContents(1)
            self.thermo_table.resizeColumnToContents(2)

        self.update_sum()

    def update_sum(self):
        """updates the sum of energy and thermo corrections"""
        self.sum_table.setRowCount(0)

        if not self.sp_table.rowCount():
            return

        sp_nrg = float(self.sp_table.cellWidget(0, 1).text())

        for row in range(0, self.thermo_table.rowCount()):
            self.sum_table.insertRow(row)

            label = self.thermo_table.cellWidget(row, 0)
            tooltip = label.toolTip()
            text = label.text().replace("𝛿", "")
            sum_label = QLabel(text)
            if "href=" in text:
                sum_label = QLabel()
                sum_label.setText(text)
                sum_label.setTextFormat(Qt.RichText)
                sum_label.setTextInteractionFlags(Qt.TextBrowserInteraction)
                sum_label.linkActivated.connect(self.open_link)

            sum_label.setAlignment(Qt.AlignRight | Qt.AlignVCenter)
            sum_label.setToolTip(tooltip)

            self.sum_table.setCellWidget(row, 0, sum_label)

            thermo = float(self.thermo_table.cellWidget(row, 1).text())

            total = sp_nrg + thermo
            total_nrg = SmallLineEdit("%.6f" % total)
            total_nrg.setFrame(False)
            total_nrg.setReadOnly(True)
            total_nrg.setToolTip(tooltip)
            self.sum_table.setCellWidget(row, 1, total_nrg)

            unit_label = ReadOnlyTableItem()
            unit_label.setData(Qt.DisplayRole, "E\u2095")
            unit_label.setTextAlignment(Qt.AlignLeft | Qt.AlignVCenter)
            unit_label.setToolTip(tooltip)
            self.sum_table.setItem(row, 2, unit_label)

            self.sum_table.resizeRowToContents(row)

        self.sum_table.resizeColumnToContents(0)
        self.sum_table.resizeColumnToContents(1)
        self.sum_table.resizeColumnToContents(2)

    def display_help(self):
        """Show the help for this tool in the help viewer."""
        from chimerax.core.commands import run
        run(self.session,
            'open %s' % self.help if self.help is not None else "")

    def delete(self):
        #overload because closing a tool window doesn't destroy any widgets on it
        self.settings.ref_col_1 = self.ref_group.tree.columnWidth(0)
        self.settings.ref_col_2 = self.ref_group.tree.columnWidth(1)

        self.settings.other_col_1 = self.other_group.tree.columnWidth(0)
        self.settings.other_col_2 = self.other_group.tree.columnWidth(1)

        self.sp_selector.deleteLater()
        self.thermo_selector.deleteLater()
        self.ref_group.deleteLater()
        self.other_group.deleteLater()

        return super().delete()

    def close(self):
        #overload because closing a tool window doesn't destroy any widgets on it
        self.settings.ref_col_1 = self.ref_group.tree.columnWidth(0)
        self.settings.ref_col_2 = self.ref_group.tree.columnWidth(1)

        self.settings.other_col_1 = self.other_group.tree.columnWidth(0)
        self.settings.other_col_2 = self.other_group.tree.columnWidth(1)

        self.sp_selector.deleteLater()
        self.thermo_selector.deleteLater()
        self.ref_group.deleteLater()
        self.other_group.deleteLater()

        return super().close()
コード例 #2
0
class PercentVolumeBuried(ToolInstance):

    help = "https://github.com/QChASM/SEQCROW/wiki/Buried-Volume-Tool"
    SESSION_ENDURING = False
    SESSION_SAVE = False

    def __init__(self, session, name):
        super().__init__(session, name)

        self.tool_window = MainToolWindow(self)

        self.settings = _VburSettings(self.session, name)

        self.ligand_atoms = []

        self._build_ui()

    def _build_ui(self):
        layout = QGridLayout()

        tabs = QTabWidget()
        calc_widget = QWidget()
        calc_layout = QFormLayout(calc_widget)
        settings_widget = QWidget()
        settings_layout = QFormLayout(settings_widget)
        steric_map_widget = QWidget()
        steric_layout = QFormLayout(steric_map_widget)
        cutout_widget = QWidget()
        vol_cutout_layout = QFormLayout(cutout_widget)
        layout.addWidget(tabs)

        tabs.addTab(calc_widget, "calculation")
        tabs.addTab(settings_widget, "settings")
        tabs.addTab(steric_map_widget, "steric map")
        tabs.addTab(cutout_widget, "volume cutout")

        self.radii_option = QComboBox()
        self.radii_option.addItems(["Bondi", "UMN"])
        ndx = self.radii_option.findText(self.settings.radii, Qt.MatchExactly)
        self.radii_option.setCurrentIndex(ndx)
        settings_layout.addRow("radii:", self.radii_option)

        self.scale = QDoubleSpinBox()
        self.scale.setValue(self.settings.vdw_scale)
        self.scale.setSingleStep(0.01)
        self.scale.setRange(1., 1.5)
        settings_layout.addRow("VDW scale:", self.scale)

        set_ligand_atoms = QPushButton("set ligands to current selection")
        set_ligand_atoms.clicked.connect(self.set_ligand_atoms)
        set_ligand_atoms.setToolTip(
            "specify atoms to use in calculation\n" +
            "by default, all atoms will be used unless a single center is specified\n"
            +
            "in the case of a single center, all atoms except the center is used"
        )
        calc_layout.addRow(set_ligand_atoms)
        self.set_ligand_atoms = set_ligand_atoms

        self.radius = QDoubleSpinBox()
        self.radius.setValue(self.settings.center_radius)
        self.radius.setSuffix(" \u212B")
        self.radius.setDecimals(1)
        self.radius.setSingleStep(0.1)
        self.radius.setRange(1., 15.)
        settings_layout.addRow("radius around center:", self.radius)

        self.method = QComboBox()
        self.method.addItems(["Lebedev", "Monte-Carlo"])
        self.method.setToolTip("Lebedev: deterministic method\n" +
                               "Monte-Carlo: non-deterministic method")
        ndx = self.method.findText(self.settings.method, Qt.MatchExactly)
        self.method.setCurrentIndex(ndx)
        settings_layout.addRow("integration method:", self.method)

        leb_widget = QWidget()
        leb_layout = QFormLayout(leb_widget)
        leb_layout.setContentsMargins(0, 0, 0, 0)

        self.radial_points = QComboBox()
        self.radial_points.addItems(["20", "32", "64", "75", "99", "127"])
        self.radial_points.setToolTip(
            "more radial points will give more accurate results, but integration will take longer"
        )
        ndx = self.radial_points.findText(self.settings.radial_points,
                                          Qt.MatchExactly)
        self.radial_points.setCurrentIndex(ndx)
        leb_layout.addRow("radial points:", self.radial_points)

        self.angular_points = QComboBox()
        self.angular_points.addItems([
            "110", "194", "302", "590", "974", "1454", "2030", "2702", "5810"
        ])
        self.angular_points.setToolTip(
            "more angular points will give more accurate results, but integration will take longer"
        )
        ndx = self.angular_points.findText(self.settings.angular_points,
                                           Qt.MatchExactly)
        self.angular_points.setCurrentIndex(ndx)
        leb_layout.addRow("angular points:", self.angular_points)

        settings_layout.addRow(leb_widget)

        mc_widget = QWidget()
        mc_layout = QFormLayout(mc_widget)
        mc_layout.setContentsMargins(0, 0, 0, 0)

        self.min_iter = QSpinBox()
        self.min_iter.setValue(self.settings.minimum_iterations)
        self.min_iter.setRange(0, 10000)
        self.min_iter.setToolTip(
            "each iteration is 3000 points\n" +
            "iterations continue until convergence criteria are met")
        mc_layout.addRow("minimum interations:", self.min_iter)

        settings_layout.addRow(mc_widget)

        if self.settings.method == "Lebedev":
            mc_widget.setVisible(False)
        elif self.settings.method == "Monte-Carlo":
            leb_widget.setVisible(False)

        self.report_component = QComboBox()
        self.report_component.addItems(["total", "quadrants", "octants"])
        ndx = self.report_component.findText(self.settings.report_component,
                                             Qt.MatchExactly)
        self.report_component.setCurrentIndex(ndx)
        settings_layout.addRow("report volume:", self.report_component)

        self.use_scene = QCheckBox()
        self.use_scene.setChecked(self.settings.use_scene)
        self.use_scene.setToolTip(
            "quadrants/octants will use the orientation the molecule is displayed in"
        )
        settings_layout.addRow("use display orientation:", self.use_scene)

        self.method.currentTextChanged.connect(
            lambda text, widget=leb_widget: widget.setVisible(text == "Lebedev"
                                                              ))
        self.method.currentTextChanged.connect(
            lambda text, widget=mc_widget: widget.setVisible(text ==
                                                             "Monte-Carlo"))

        self.use_centroid = QCheckBox()
        self.use_centroid.setChecked(self.settings.use_centroid)
        self.use_centroid.setToolTip(
            "place the center between selected atoms\n" +
            "might be useful for polydentate ligands")
        calc_layout.addRow("use centroid of centers:", self.use_centroid)

        self.steric_map = QCheckBox()
        self.steric_map.setChecked(self.settings.steric_map)
        self.steric_map.setToolTip(
            "produce a 2D projection of steric bulk\ncauses buried volume to be reported for individual quadrants"
        )
        steric_layout.addRow("create steric map:", self.steric_map)

        self.num_pts = QSpinBox()
        self.num_pts.setRange(25, 250)
        self.num_pts.setValue(self.settings.num_pts)
        self.num_pts.setToolTip("number of points along x and y axes")
        steric_layout.addRow("number of points:", self.num_pts)

        self.include_vbur = QCheckBox()
        self.include_vbur.setChecked(self.settings.include_vbur)
        steric_layout.addRow("label quadrants with %V<sub>bur</sub>",
                             self.include_vbur)

        self.map_shape = QComboBox()
        self.map_shape.addItems(["circle", "square"])
        ndx = self.map_shape.findText(self.settings.map_shape, Qt.MatchExactly)
        self.map_shape.setCurrentIndex(ndx)
        steric_layout.addRow("map shape:", self.map_shape)

        self.auto_minmax = QCheckBox()
        self.auto_minmax.setChecked(self.settings.auto_minmax)
        steric_layout.addRow("automatic min. and max.:", self.auto_minmax)

        self.map_min = QDoubleSpinBox()
        self.map_min.setRange(-15., 0.)
        self.map_min.setSuffix(" \u212B")
        self.map_min.setSingleStep(0.1)
        self.map_min.setValue(self.settings.map_min)
        steric_layout.addRow("minimum value:", self.map_min)

        self.map_max = QDoubleSpinBox()
        self.map_max.setRange(0., 15.)
        self.map_max.setSuffix(" \u212B")
        self.map_max.setSingleStep(0.1)
        self.map_max.setValue(self.settings.map_max)
        steric_layout.addRow("maximum value:", self.map_max)

        self.num_pts.setEnabled(self.settings.steric_map)
        self.steric_map.stateChanged.connect(
            lambda state, widget=self.num_pts: widget.setEnabled(state == Qt.
                                                                 Checked))

        self.include_vbur.setEnabled(self.settings.steric_map)
        self.steric_map.stateChanged.connect(
            lambda state, widget=self.include_vbur: widget.setEnabled(
                state == Qt.Checked))

        self.map_shape.setEnabled(self.settings.steric_map)
        self.steric_map.stateChanged.connect(
            lambda state, widget=self.map_shape: widget.setEnabled(state == Qt.
                                                                   Checked))

        self.auto_minmax.setEnabled(self.settings.steric_map)
        self.steric_map.stateChanged.connect(
            lambda state, widget=self.auto_minmax: widget.setEnabled(
                state == Qt.Checked))

        self.map_min.setEnabled(not self.settings.auto_minmax
                                and self.settings.steric_map)
        self.steric_map.stateChanged.connect(
            lambda state, widget=self.map_min, widget2=self.auto_minmax: widget
            .setEnabled(state == Qt.Checked and not widget2.isChecked()))
        self.auto_minmax.stateChanged.connect(
            lambda state, widget=self.map_min, widget2=self.steric_map: widget.
            setEnabled(not state == Qt.Checked and widget2.isChecked()))

        self.map_max.setEnabled(not self.settings.auto_minmax
                                and self.settings.steric_map)
        self.steric_map.stateChanged.connect(
            lambda state, widget=self.map_max, widget2=self.auto_minmax: widget
            .setEnabled(state == Qt.Checked and not widget2.isChecked()))
        self.auto_minmax.stateChanged.connect(
            lambda state, widget=self.map_max, widget2=self.steric_map: widget.
            setEnabled(not state == Qt.Checked and widget2.isChecked()))

        self.display_cutout = QComboBox()
        self.display_cutout.addItems(["no", "free", "buried"])
        ndx = self.display_cutout.findText(self.settings.display_cutout,
                                           Qt.MatchExactly)
        self.display_cutout.setCurrentIndex(ndx)
        self.display_cutout.setToolTip("show free or buried volume")
        vol_cutout_layout.addRow("display volume:", self.display_cutout)

        self.point_spacing = QDoubleSpinBox()
        self.point_spacing.setDecimals(3)
        self.point_spacing.setRange(0.01, 0.5)
        self.point_spacing.setSingleStep(0.005)
        self.point_spacing.setSuffix(" \u212B")
        self.point_spacing.setValue(self.settings.point_spacing)
        self.point_spacing.setToolTip(
            "distance between points on cutout\n" +
            "smaller spacing will narrow gaps, but increase time to create the cutout"
        )
        vol_cutout_layout.addRow("point spacing:", self.point_spacing)

        self.intersection_scale = QDoubleSpinBox()
        self.intersection_scale.setDecimals(2)
        self.intersection_scale.setRange(1., 10.)
        self.intersection_scale.setSingleStep(0.5)
        self.intersection_scale.setSuffix("x")
        self.intersection_scale.setToolTip(
            "relative density of points where VDW radii intersect\n" +
            "higher density will narrow gaps, but increase time to create cutout"
        )
        self.intersection_scale.setValue(self.settings.intersection_scale)
        vol_cutout_layout.addRow("intersection density:",
                                 self.intersection_scale)

        self.cutout_labels = QComboBox()
        self.cutout_labels.addItems(["none", "quadrants", "octants"])
        ndx = self.cutout_labels.findText(self.settings.cutout_labels,
                                          Qt.MatchExactly)
        self.cutout_labels.setCurrentIndex(ndx)
        vol_cutout_layout.addRow("label sections:", self.cutout_labels)

        self.point_spacing.setEnabled(self.settings.display_cutout != "no")
        self.intersection_scale.setEnabled(
            self.settings.display_cutout != "no")
        self.cutout_labels.setEnabled(self.settings.display_cutout != "no")

        self.display_cutout.currentTextChanged.connect(
            lambda text, widget=self.point_spacing: widget.setEnabled(text !=
                                                                      "no"))
        self.display_cutout.currentTextChanged.connect(
            lambda text, widget=self.intersection_scale: widget.setEnabled(
                text != "no"))
        self.display_cutout.currentTextChanged.connect(
            lambda text, widget=self.cutout_labels: widget.setEnabled(text !=
                                                                      "no"))

        calc_vbur_button = QPushButton(
            "calculate % buried volume for selected centers")
        calc_vbur_button.clicked.connect(self.calc_vbur)
        calc_layout.addRow(calc_vbur_button)
        self.calc_vbur_button = calc_vbur_button

        remove_vbur_button = QPushButton(
            "remove % buried volume visualizations")
        remove_vbur_button.clicked.connect(self.del_vbur)
        vol_cutout_layout.addRow(remove_vbur_button)

        self.table = QTableWidget()
        self.table.setColumnCount(3)
        self.table.setHorizontalHeaderLabels(['model', 'center', '%Vbur'])
        self.table.setSelectionBehavior(QTableWidget.SelectRows)
        self.table.setEditTriggers(QTableWidget.NoEditTriggers)
        self.table.resizeColumnToContents(0)
        self.table.resizeColumnToContents(1)
        self.table.resizeColumnToContents(2)
        self.table.horizontalHeader().setSectionResizeMode(
            0, QHeaderView.Interactive)
        self.table.horizontalHeader().setSectionResizeMode(
            1, QHeaderView.Interactive)
        self.table.horizontalHeader().setSectionResizeMode(
            2, QHeaderView.Stretch)
        calc_layout.addRow(self.table)

        menu = QMenuBar()

        export = menu.addMenu("&Export")

        clear = QAction("Clear data table", self.tool_window.ui_area)
        clear.triggered.connect(self.clear_table)
        export.addAction(clear)

        copy = QAction("&Copy CSV to clipboard", self.tool_window.ui_area)
        copy.triggered.connect(self.copy_csv)
        shortcut = QKeySequence(Qt.CTRL + Qt.Key_C)
        copy.setShortcut(shortcut)
        export.addAction(copy)
        self.copy = copy

        save = QAction("&Save CSV...", self.tool_window.ui_area)
        save.triggered.connect(self.save_csv)
        #this shortcut interferes with main window's save shortcut
        #I've tried different shortcut contexts to no avail
        #thanks Qt...
        #shortcut = QKeySequence(Qt.CTRL + Qt.Key_S)
        #save.setShortcut(shortcut)
        #save.setShortcutContext(Qt.WidgetShortcut)
        export.addAction(save)

        delimiter = export.addMenu("Delimiter")

        comma = QAction("comma", self.tool_window.ui_area, checkable=True)
        comma.setChecked(self.settings.delimiter == "comma")
        comma.triggered.connect(lambda *args, delim="comma": self.settings.
                                __setattr__("delimiter", delim))
        delimiter.addAction(comma)

        tab = QAction("tab", self.tool_window.ui_area, checkable=True)
        tab.setChecked(self.settings.delimiter == "tab")
        tab.triggered.connect(lambda *args, delim="tab": self.settings.
                              __setattr__("delimiter", delim))
        delimiter.addAction(tab)

        space = QAction("space", self.tool_window.ui_area, checkable=True)
        space.setChecked(self.settings.delimiter == "space")
        space.triggered.connect(lambda *args, delim="space": self.settings.
                                __setattr__("delimiter", delim))
        delimiter.addAction(space)

        semicolon = QAction("semicolon",
                            self.tool_window.ui_area,
                            checkable=True)
        semicolon.setChecked(self.settings.delimiter == "semicolon")
        semicolon.triggered.connect(lambda *args, delim="semicolon": self.
                                    settings.__setattr__("delimiter", delim))
        delimiter.addAction(semicolon)

        add_header = QAction("&Include CSV header",
                             self.tool_window.ui_area,
                             checkable=True)
        add_header.setChecked(self.settings.include_header)
        add_header.triggered.connect(self.header_check)
        export.addAction(add_header)

        comma.triggered.connect(
            lambda *args, action=tab: action.setChecked(False))
        comma.triggered.connect(
            lambda *args, action=space: action.setChecked(False))
        comma.triggered.connect(
            lambda *args, action=semicolon: action.setChecked(False))

        tab.triggered.connect(
            lambda *args, action=comma: action.setChecked(False))
        tab.triggered.connect(
            lambda *args, action=space: action.setChecked(False))
        tab.triggered.connect(
            lambda *args, action=semicolon: action.setChecked(False))

        space.triggered.connect(
            lambda *args, action=comma: action.setChecked(False))
        space.triggered.connect(
            lambda *args, action=tab: action.setChecked(False))
        space.triggered.connect(
            lambda *args, action=semicolon: action.setChecked(False))

        semicolon.triggered.connect(
            lambda *args, action=comma: action.setChecked(False))
        semicolon.triggered.connect(
            lambda *args, action=tab: action.setChecked(False))
        semicolon.triggered.connect(
            lambda *args, action=space: action.setChecked(False))

        menu.setNativeMenuBar(False)
        self._menu = menu
        layout.setMenuBar(menu)
        menu.setVisible(True)

        self.tool_window.ui_area.setLayout(layout)

        self.tool_window.manage(None)

    def clear_table(self):
        are_you_sure = QMessageBox.question(
            None,
            "Clear table?",
            "Are you sure you want to clear the data table?",
        )
        if are_you_sure != QMessageBox.Yes:
            return
        self.table.setRowCount(0)

    def set_ligand_atoms(self):
        self.ligand_atoms = selected_atoms(self.session)
        self.session.logger.status("set ligand to current selection")

    def calc_vbur(self):
        args = dict()

        cur_sel = selected_atoms(self.session)
        if len(cur_sel) == 0:
            return

        models = []
        for atom in cur_sel:
            if atom.structure not in models:
                models.append(atom.structure)

        center = []
        for atom in cur_sel:
            center.append(atom)

        args["center"] = center

        radii = self.radii_option.currentText()
        self.settings.radii = radii
        args["radii"] = radii

        scale = self.scale.value()
        self.settings.vdw_scale = scale
        args["scale"] = scale

        radius = self.radius.value()
        self.settings.center_radius = radius
        args["radius"] = radius

        steric_map = self.steric_map.checkState() == Qt.Checked
        self.settings.steric_map = steric_map
        args["steric_map"] = steric_map

        use_scene = self.use_scene.checkState() == Qt.Checked
        self.settings.use_scene = use_scene
        args["useScene"] = use_scene

        num_pts = self.num_pts.value()
        self.settings.num_pts = num_pts
        args["num_pts"] = num_pts

        include_vbur = self.include_vbur.checkState() == Qt.Checked
        self.settings.include_vbur = include_vbur

        use_centroid = self.use_centroid.checkState() == Qt.Checked
        self.settings.use_centroid = use_centroid
        args["useCentroid"] = use_centroid

        shape = self.map_shape.currentText()
        self.settings.map_shape = shape
        args["shape"] = shape

        report_component = self.report_component.currentText()
        self.settings.report_component = report_component
        args["reportComponent"] = report_component

        method = self.method.currentText()
        self.settings.method = method

        if method == "Lebedev":
            args["method"] = "lebedev"
            rad_pts = self.radial_points.currentText()
            self.settings.radial_points = rad_pts
            args["radialPoints"] = rad_pts

            ang_pts = self.angular_points.currentText()
            self.settings.angular_points = ang_pts
            args["angularPoints"] = ang_pts

        elif method == "Monte-Carlo":
            args["method"] = "mc"
            min_iter = self.min_iter.value()
            self.settings.minimum_iterations = min_iter
            args["minimumIterations"] = min_iter

        display_cutout = self.display_cutout.currentText()
        self.settings.display_cutout = display_cutout
        if display_cutout != "no":
            args["displaySphere"] = display_cutout

        if display_cutout != "no":
            point_spacing = self.point_spacing.value()
            self.settings.point_spacing = point_spacing
            args["pointSpacing"] = point_spacing

            intersection_scale = self.intersection_scale.value()
            self.settings.intersection_scale = intersection_scale
            args["intersectionScale"] = intersection_scale

            cutout_labels = self.cutout_labels.currentText()
            self.settings.cutout_labels = cutout_labels
            args["labels"] = cutout_labels

        if len(self.ligand_atoms) > 0:
            args["onlyAtoms"] = [a for a in self.ligand_atoms if not a.deleted]
            if len(args["onlyAtoms"]) == 0:
                args["onlyAtoms"] = None

        auto_minmax = self.auto_minmax.checkState() == Qt.Checked
        self.settings.auto_minmax = auto_minmax
        if not auto_minmax:
            map_max = self.map_max.value()
            self.settings.map_max = map_max

            map_min = self.settings.map_min
            self.settings.map_min = map_min

        info = percent_vbur_cmd(self.session,
                                models,
                                return_values=True,
                                **args)

        # self.table.setRowCount(0)

        if steric_map:
            for mdl, cent, vbur, map_info in info:
                row = self.table.rowCount()
                self.table.insertRow(row)

                m = QTableWidgetItem()
                m.setData(Qt.DisplayRole, mdl.name)
                self.table.setItem(row, 0, m)

                c = QTableWidgetItem()
                c.setData(Qt.DisplayRole, cent)
                self.table.setItem(row, 1, c)

                v = QTableWidgetItem()
                if report_component == "octants":
                    v.setData(Qt.DisplayRole,
                              ",".join(["%.1f" % x for x in vbur]))
                elif report_component == "quadrants":
                    v.setData(
                        Qt.DisplayRole, ",".join("%.1f" % x for x in [
                            vbur[0] + vbur[7],
                            vbur[1] + vbur[6],
                            vbur[2] + vbur[5],
                            vbur[3] + vbur[4],
                        ]))
                else:
                    if hasattr(vbur, "__iter__"):
                        v.setData(Qt.DisplayRole, "%.1f" % sum(vbur))
                    else:
                        v.setData(Qt.DisplayRole, "%.1f" % vbur)
                v.setTextAlignment(Qt.AlignHCenter | Qt.AlignVCenter)
                self.table.setItem(row, 2, v)

                x, y, z, min_alt, max_alt = map_info
                plot = self.tool_window.create_child_window(
                    "steric map of %s" % mdl.name, window_class=StericMap)
                if auto_minmax:
                    plot.set_data(x, y, z, min_alt, max_alt, vbur, radius,
                                  include_vbur)
                else:
                    plot.set_data(x, y, z, map_min, map_max, vbur, radius,
                                  include_vbur)

        else:
            for mdl, cent, vbur in info:
                row = self.table.rowCount()
                self.table.insertRow(row)

                m = QTableWidgetItem()
                m.setData(Qt.DisplayRole, mdl.name)
                self.table.setItem(row, 0, m)

                c = QTableWidgetItem()
                c.setData(Qt.DisplayRole, cent)
                self.table.setItem(row, 1, c)

                v = QTableWidgetItem()
                if report_component == "octants":
                    v.setData(Qt.DisplayRole,
                              ",".join(["%.1f" % x for x in vbur]))
                elif report_component == "quadrants":
                    v.setData(
                        Qt.DisplayRole, ",".join("%.1f" % x for x in [
                            vbur[0] + vbur[7],
                            vbur[1] + vbur[6],
                            vbur[2] + vbur[5],
                            vbur[3] + vbur[4],
                        ]))
                else:
                    if hasattr(vbur, "__iter__"):
                        v.setData(Qt.DisplayRole, "%.1f" % sum(vbur))
                    else:
                        v.setData(Qt.DisplayRole, "%.1f" % vbur)
                v.setTextAlignment(Qt.AlignHCenter | Qt.AlignVCenter)
                self.table.setItem(row, 2, v)

        self.table.resizeColumnToContents(1)
        self.table.resizeColumnToContents(2)

    def header_check(self, state):
        """user has [un]checked the 'include header' option on the menu"""
        if state:
            self.settings.include_header = True
        else:
            self.settings.include_header = False

    def get_csv(self):
        if self.settings.delimiter == "comma":
            delim = ","
        elif self.settings.delimiter == "space":
            delim = " "
        elif self.settings.delimiter == "tab":
            delim = "\t"
        elif self.settings.delimiter == "semicolon":
            delim = ";"

        if self.settings.include_header:
            s = delim.join(["model", "center", "%Vbur"])
            s += "\n"
        else:
            s = ""

        for i in range(0, self.table.rowCount()):
            s += delim.join([
                item.data(Qt.DisplayRole)
                for item in [self.table.item(i, j) for j in range(0, 3)]
            ])
            s += "\n"

        return s

    def copy_csv(self):
        app = QApplication.instance()
        clipboard = app.clipboard()
        csv = self.get_csv()
        clipboard.setText(csv)
        self.session.logger.status("copied to clipboard")

    def save_csv(self):
        """save data on current tab to CSV file"""
        filename, _ = QFileDialog.getSaveFileName(filter="CSV Files (*.csv)")
        if filename:
            s = self.get_csv()

            with open(filename, 'w') as f:
                f.write(s.strip())

            self.session.logger.status("saved to %s" % filename)

    def del_vbur(self):
        for model in self.session.models.list(type=Surface):
            if model.name.startswith("%Vbur") or model.name.startswith(
                    "%Vfree"):
                model.delete()

    def display_help(self):
        """Show the help for this tool in the help viewer."""
        from chimerax.core.commands import run
        run(self.session,
            'open %s' % self.help if self.help is not None else "")