Exemple #1
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def ask_login(parent=None):
    # type: (Any) -> AccountInfo
    """Ask login with a dialog.
        parent (QWidget, optional): Defaults to None. Parent widget.

    Returns:
        cgtwq.AccountInfo: Account logged in.
    """

    _app = application()
    dialog = QDialog(parent)
    account_input = QLineEdit()
    password_input = QLineEdit()
    _setup_login_dialog(dialog, account_input, password_input)

    while True:
        dialog.exec_()
        if dialog.result() == QDialog.Rejected:
            raise ValueError("Rejected")
        account, password = account_input.text(), password_input.text()
        try:
            return cgtwq.login(account, password)
        except (ValueError, cgtwq.AccountNotFoundError, cgtwq.PasswordError) as ex:
            msg = text_type(ex)
            QMessageBox.critical(parent, "登录失败", msg)
Exemple #2
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    def createPropertiesWidget(self, propertiesWidget):
        baseCategory = CollapsibleFormWidget(headName="Base", modify=True)
        # name
        le_name = QLineEdit(self._rawVariable.name)
        le_name.returnPressed.connect(lambda: self.setName(le_name.text()))
        baseCategory.addWidget("Name", le_name)

        # data type
        cbTypes = EnumComboBox([
            pin.__name__ for pin in getAllPinClasses() if pin.IsValuePin()
            if pin.__name__ != "AnyPin"
        ])
        cbTypes.setCurrentIndex(cbTypes.findText(self.dataType))
        cbTypes.setEditable(False)
        cbTypes.changeCallback.connect(self.setDataType)
        propertiesWidget.addWidget(baseCategory)

        # structure type
        cbStructure = EnumComboBox(
            [i.name for i in (PinStructure.Single, PinStructure.Array)])
        cbStructure.setEditable(False)
        cbStructure.setCurrentIndex(
            cbStructure.findText(self._rawVariable.structure.name))
        cbStructure.changeCallback.connect(self.onStructureChanged)
        propertiesWidget.addWidget(baseCategory)
        baseCategory.addWidget("Type", cbTypes)
        baseCategory.addWidget("Structure", cbStructure)

        valueCategory = CollapsibleFormWidget(headName="Value")

        # current value
        if self._rawVariable.structure == PinStructure.Single:
            if not type(self._rawVariable.value) in {list, set, dict, tuple}:

                def valSetter(x):
                    self._rawVariable.value = x

                w = createInputWidget(
                    self._rawVariable.dataType, valSetter,
                    getPinDefaultValueByType(self._rawVariable.dataType))
                if w:
                    w.setWidgetValue(self._rawVariable.value)
                    w.setObjectName(self._rawVariable.name)
                    valueCategory.addWidget(self._rawVariable.name, w)

        # access level
        cb = QComboBox()
        cb.addItem('public', 0)
        cb.addItem('private', 1)
        cb.addItem('protected', 2)

        def accessLevelChanged(x):
            self._rawVariable.accessLevel = AccessLevel[x]
            EditorHistory().saveState("Change variable access level",
                                      modify=True)

        cb.currentTextChanged.connect(accessLevelChanged)
        cb.setCurrentIndex(self._rawVariable.accessLevel)
        valueCategory.addWidget('Access level', cb)
        propertiesWidget.addWidget(valueCategory)
Exemple #3
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    def onUpdatePropertyView(self, formLayout):
        # name
        le_name = QLineEdit(self.name)
        le_name.returnPressed.connect(lambda: self.setName(le_name.text()))
        formLayout.addRow("Name", le_name)

        # data type
        cbTypes = VarTypeComboBox(self)
        formLayout.addRow("Type", cbTypes)

        # current value
        def valSetter(x):
            self.value = x

        w = InputWidgets.getInputWidget(
            self.dataType, valSetter,
            Pins.getPinDefaultValueByType(self.dataType), None)
        if w:
            w.setWidgetValue(self.value)
            w.setObjectName(self.name)
            formLayout.addRow(self.name, w)
        # access level
        cb = QComboBox()
        cb.addItem('public', 0)
        cb.addItem('private', 1)
        cb.addItem('protected', 2)

        def accessLevelChanged(x):
            self.accessLevel = x

        cb.currentIndexChanged[int].connect(accessLevelChanged)
        cb.setCurrentIndex(self.accessLevel)
        formLayout.addRow('Access level', cb)
Exemple #4
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    def createPropertiesWidget(self, propertiesWidget):
        baseCategory = CollapsibleFormWidget(headName="Base")
        # name
        le_name = QLineEdit(self.getName())
        le_name.setReadOnly(True)
        # if self.isRenamable():
        le_name.setReadOnly(False)
        le_name.returnPressed.connect(lambda: self.setName(le_name.text()))
        baseCategory.addWidget("Name", le_name)

        # type
        leType = QLineEdit(self.__class__.__name__)
        leType.setReadOnly(True)
        baseCategory.addWidget("Type", leType)

        # pos
        le_pos = QLineEdit("{0} x {1}".format(self.pos().x(), self.pos().y()))
        baseCategory.addWidget("Pos", le_pos)
        propertiesWidget.addWidget(baseCategory)

        appearanceCategory = CollapsibleFormWidget(headName="Appearance")
        pb = QPushButton("...")
        pb.clicked.connect(lambda: self.onChangeColor(True))
        appearanceCategory.addWidget("Color", pb)
        propertiesWidget.addWidget(appearanceCategory)

        infoCategory = CollapsibleFormWidget(headName="Info")

        doc = QTextBrowser()
        doc.setOpenExternalLinks(True)
        doc.setHtml(self.description())
        infoCategory.addWidget("", doc)
        propertiesWidget.addWidget(infoCategory)
Exemple #5
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    def onUpdatePropertyView(self, formLayout):
        # name
        le_name = QLineEdit(self.getName())
        le_name.setReadOnly(True)
        if self.label().IsRenamable():
            le_name.setReadOnly(False)
            le_name.returnPressed.connect(lambda: self.setName(le_name.text()))
        formLayout.addRow("Name", le_name)

        # uid
        leUid = QLineEdit(str(self.uid))
        leUid.setReadOnly(True)
        #formLayout.addRow("Uuid", leUid)

        # type
        leType = QLineEdit(self.__class__.__name__)
        leType.setReadOnly(True)
        formLayout.addRow("Type", leType)

        # pos
        #le_pos = QLineEdit("{0} x {1}".format(self.pos().x(), self.pos().y()))
        #formLayout.addRow("Pos", le_pos)

        # inputs
        if len([i for i in self.inputs.values()]) != 0:
            for inp in self.inputs.values():
                dataSetter = inp.call if inp.dataType == DataTypes.Exec else inp.setData
                if not inp.hasConnections():
                    w = getInputWidget(inp.dataType, dataSetter,
                                       inp.defaultValue(), inp.getUserStruct())
                    if w:
                        w.setWidgetValue(inp.currentData())
                        w.setObjectName(inp.getName())
                        formLayout.addRow(inp.name, w)
                        if inp.hasConnections():
                            w.setEnabled(False)
                            w.hide()
        if self.asGraphSides:
            # outputs

            if len([i for i in self.outputs.values()]) != 0:
                for out in self.outputs.values():
                    dataSetter = out.call if out.dataType == DataTypes.Exec else out.setData
                    w = getInputWidget(out.dataType, dataSetter,
                                       out.defaultValue(), out.getUserStruct())
                    if w:
                        w.setWidgetValue(out.currentData())
                        w.setObjectName(out.getName())
                        formLayout.addRow(out.name, w)
                        if out.hasConnections():
                            w.setEnabled(True)

        doc_lb = QLabel()
        doc_lb.setStyleSheet("background-color: black;")
        doc_lb.setText("Description")
        #formLayout.addRow("", doc_lb)
        doc = QTextBrowser()
        doc.setOpenExternalLinks(True)
        doc.setHtml(self.description())
Exemple #6
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class StringEditor(BaseEditor, object):

    attr_type = 'str'

    def __init__(self, parent=None, **kwargs):
        super(StringEditor, self).__init__(parent=parent, **kwargs)

        self._default_value = ""
        self._clean_value = kwargs.get('clean', True)

        self.value_line = QLineEdit(self)
        reg_exp = QRegExp('^([a-zA-Z0-9_]+)')
        self.main_layout.addWidget(self.value_line)

        self.value_line.textEdited.connect(self._validate_text)
        self.value_line.editingFinished.connect(self.OnValueUpdated)
        self.value_line.returnPressed.connect(self.OnValueUpdated)

    def get_value(self):
        return str(self.value_line.text())

    value = property(get_value)

    def initialize_editor(self):
        editor_value = self.default_value

        node_values = self.values
        if node_values:
            if len(node_values) > 1:
                pass
            elif len(node_values) == 1:
                if node_values[0]:
                    editor_value = node_values[0]

                self.value_line.blockSignals(True)
                self.value_line.setText(str(editor_value))
                self.value_line.blockSignals(False)

    def set_connected(self, conn):
        if conn != self._connection:
            self._connection = conn
            self.value_line.setText(conn)
            self.value_line.setEnabled(False)
            self.value_line.setProperty('class', 'Connected')

    def _validate_text(self, text):
        """
        Validates the given value and update the current text
        :param text: str, text to validate
        """

        current_text = self.value
        if self._clean_value:
            cursor_pos = self.value_line.cursorPosition()
            cleaned = string_utils.clean_string(text=text)
            self.value_line.blockSignals(True)
            self.value_line.setText(cleaned)
            self.value_line.blockSignals(False)
            self.value_line.setCursorPosition(cursor_pos)
Exemple #7
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    def createPropertiesWidget(self, propertiesWidget):
        baseCategory = CollapsibleFormWidget(headName="Base")
        # name
        le_name = QLineEdit(self._rawVariable.name)
        le_name.returnPressed.connect(lambda: self.setName(le_name.text()))
        baseCategory.addWidget("Name", le_name)

        # data type
        cbTypes = VarTypeComboBox(self)
        baseCategory.addWidget("Type", cbTypes)
        propertiesWidget.addWidget(baseCategory)

        valueCategory = CollapsibleFormWidget(headName="Value")

        # current value
        def valSetter(x):
            self._rawVariable.value = x

        w = createInputWidget(
            self._rawVariable.dataType, valSetter,
            getPinDefaultValueByType(self._rawVariable.dataType))
        if w:
            w.setWidgetValue(self._rawVariable.value)
            w.setObjectName(self._rawVariable.name)
            valueCategory.addWidget(self._rawVariable.name, w)

        # access level
        cb = QComboBox()
        cb.addItem('public', 0)
        cb.addItem('private', 1)
        cb.addItem('protected', 2)

        def accessLevelChanged(x):
            self._rawVariable.accessLevel = AccessLevel[x]

        cb.currentTextChanged.connect(accessLevelChanged)
        cb.setCurrentIndex(self._rawVariable.accessLevel)
        valueCategory.addWidget('Access level', cb)
        propertiesWidget.addWidget(valueCategory)
Exemple #8
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    def onUpdatePropertyView(self, formLayout):

        # name
        le_name = QLineEdit(self.getName())
        le_name.setReadOnly(True)
        if self.label().IsRenamable():
            le_name.setReadOnly(False)
            le_name.returnPressed.connect(lambda: self.setName(le_name.text()))
        formLayout.addRow("Name", le_name)

        # uid
        leUid = QLineEdit(str(self.uid))
        leUid.setReadOnly(True)
        formLayout.addRow("Uuid", leUid)

        # type
        leType = QLineEdit(self.__class__.__name__)
        leType.setReadOnly(True)
        formLayout.addRow("Type", leType)

        # pos
        le_pos = QLineEdit("{0} x {1}".format(self.pos().x(), self.pos().y()))
        formLayout.addRow("Pos", le_pos)

        pb = QPushButton("...")
        pb.clicked.connect(self.onChangeColor)
        formLayout.addRow("Color", pb)

        doc_lb = QLabel()
        doc_lb.setStyleSheet("background-color: black;")
        doc_lb.setText("Description")
        formLayout.addRow("", doc_lb)
        doc = QTextBrowser()
        doc.setOpenExternalLinks(True)
        doc.setHtml(self.description())
        formLayout.addRow("", doc)
Exemple #9
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class BaseFileFolderDialog(BaseDialog,
                           abstract_dialog.AbstractFileFolderDialog):
    """
    Base dialog classes for folders and files
    """

    def_title = 'Select File'
    def_size = (200, 125)
    def_use_app_browser = False

    def __init__(self, name='BaseFileFolder', parent=None, **kwargs):
        super(BaseFileFolderDialog, self).__init__(name=name, parent=parent)

        self.directory = None
        self.filters = None
        self._use_app_browser = kwargs.pop('use_app_browser',
                                           self.def_use_app_browser)

        self.set_filters('All Files (*.*)')

        # By default, we set the directory to the user folder
        self.set_directory(os.path.expanduser('~'))
        self.center()

    def open_app_browser(self):
        return

    def ui(self):
        super(BaseFileFolderDialog, self).ui()

        from tpDcc.libs.qt.widgets import directory

        self.places = dict()

        self.grid = layouts.GridLayout()
        sub_grid = layouts.GridLayout()
        self.grid.addWidget(QLabel('Path:'), 0, 0, Qt.AlignRight)

        self.path_edit = QLineEdit(self)
        self.path_edit.setReadOnly(True)
        self.filter_box = QComboBox(self)
        self.file_edit = QLineEdit(self)

        self.view = directory.FileListWidget(self)
        self.view.setWrapping(True)
        self.view.setFocusPolicy(Qt.StrongFocus)

        self.open_button = QPushButton('Select', self)
        self.cancel_button = QPushButton('Cancel', self)

        size = QSize(32, 24)
        self.up_button = QPushButton('Up')
        self.up_button.setToolTip('Go up')
        self.up_button.setMinimumSize(size)
        self.up_button.setMaximumSize(size)

        size = QSize(56, 24)
        self.refresh_button = QPushButton('Reload')
        self.refresh_button.setToolTip('Reload file list')
        self.refresh_button.setMinimumSize(size)
        self.refresh_button.setMaximumSize(size)

        self.show_hidden = QCheckBox('Hidden')
        self.show_hidden.setChecked(False)
        self.show_hidden.setToolTip('Toggle show hidden files')

        sub_grid.addWidget(self.up_button, 0, 1)
        sub_grid.addWidget(self.path_edit, 0, 2)
        sub_grid.addWidget(self.refresh_button, 0, 3)
        sub_grid.addWidget(self.show_hidden, 0, 4)
        self.grid.addLayout(sub_grid, 0, 1)
        self.grid.addWidget(self.get_drives_widget(), 1, 0)
        self.grid.addWidget(self.view, 1, 1)
        self.grid.addWidget(QLabel('File name:'), 7, 0, Qt.AlignRight)
        self.grid.addWidget(self.file_edit, 7, 1)
        self.filter_label = QLabel('Filter:')
        self.grid.addWidget(self.filter_label, 8, 0, Qt.AlignRight)
        self.grid.addWidget(self.filter_box, 8, 1)
        hbox = layouts.GridLayout()
        hbox.addWidget(self.open_button, 0, 0, Qt.AlignRight)
        hbox.addWidget(self.cancel_button, 0, 1, Qt.AlignRight)
        self.grid.addLayout(hbox, 9, 1, Qt.AlignRight)
        self.main_layout.addLayout(self.grid)
        self.setGeometry(200, 100, 600, 400)

        self.open_button.clicked.connect(self.accept)
        self.cancel_button.clicked.connect(self.reject)
        self.up_button.clicked.connect(self.go_up)
        self.refresh_button.clicked.connect(self.update_view)
        self.show_hidden.stateChanged.connect(self.update_view)
        self.view.directory_activated.connect(
            self.activate_directory_from_view)
        self.view.file_activated.connect(self.activate_file_from_view)
        self.view.file_selected.connect(self.select_file_item)
        self.view.folder_selected.connect(self.select_folder_item)
        self.view.up_requested.connect(self.go_up)
        self.view.update_requested.connect(self.update_view)

    def exec_(self, *args, **kwargs):
        if self._use_app_browser:
            return self.open_app_browser()
        else:
            self.update_view()
            self.filter_box.currentIndexChanged.connect(self.update_view)
            accepted = super(BaseFileFolderDialog, self).exec_()
            self.filter_box.currentIndexChanged.disconnect(self.update_view)
            return self.get_result() if accepted == 1 else None

    def set_filters(self, filters, selected=0):
        self.filter_box.clear()
        filter_types = filters.split(';;')
        for ft in filter_types:
            extensions = string.extract(ft, '(', ')')
            filter_name = string.rstrips(ft, '({})'.format(extensions))
            extensions = extensions.split(' ')
            self.filter_box.addItem(
                '{} ({})'.format(filter_name, ','.join(extensions)),
                extensions)
        if 0 <= selected < self.filter_box.count():
            self.filter_box.setCurrentIndex(selected)
        self.filters = filters

    def get_drives_widget(self):
        """
        Returns a QGroupBox widget that contains all disk drivers of the PC in a vertical layout
        :return: QGroupBox
        """

        w = QGroupBox('')
        w.setParent(self)
        box = layouts.VerticalLayout()
        box.setAlignment(Qt.AlignTop)
        places = [(getpass.getuser(),
                   os.path.realpath(os.path.expanduser('~')))]
        places += [
            (q, q) for q in
            [os.path.realpath(x.absolutePath()) for x in QDir().drives()]
        ]
        for label, loc in places:
            icon = QFileIconProvider().icon(QFileInfo(loc))
            drive_btn = QRadioButton(label)
            drive_btn.setIcon(icon)
            drive_btn.setToolTip(loc)
            drive_btn.setProperty('path', loc)
            drive_btn.clicked.connect(self.go_to_drive)
            self.places[loc] = drive_btn
            box.addWidget(drive_btn)
        w.setLayout(box)
        return w

    def go_to_drive(self):
        """
        Updates widget to show the content of the selected disk drive
        """

        sender = self.sender()
        self.set_directory(sender.property('path'), False)

    def get_result(self):
        tf = self.file_edit.text()
        sf = self.get_file_path(tf)
        return sf, os.path.dirname(sf), tf.split(os.pathsep)

    def get_filter_patterns(self):
        """
        Get list of filter patterns that are being used by the widget
        :return: list<str>
        """

        idx = self.filter_box.currentIndex()
        if idx >= 0:
            return self.filter_box.itemData(idx)
        else:
            return []

    def get_file_path(self, file_name):
        """
        Returns file path of the given file name taking account the selected directory
        :param file_name: str, name of the file without path
        :return: str
        """

        sname = file_name.split(os.pathsep)[0]
        return os.path.realpath(
            os.path.join(os.path.abspath(self.directory), sname))


#     def accept(self):
#         self._overlay.close()
#         super(BaseFileFolderDialog, self).accept()
#
#
#     def reject(self):
#         self._overlay.close()
#         super(BaseFileFolderDialog, self).reject()

    def update_view(self):
        """
        Updates file/folder view
        :return:
        """

        self.view.clear()
        qdir = QDir(self.directory)
        qdir.setNameFilters(self.get_filter_patterns())
        filters = QDir.Dirs | QDir.AllDirs | QDir.Files | QDir.NoDot | QDir.NoDotDot
        if self.show_hidden.isChecked():
            filters = filters | QDir.Hidden
        entries = qdir.entryInfoList(filters=filters,
                                     sort=QDir.DirsFirst | QDir.Name)
        file_path = self.get_file_path('..')
        if os.path.exists(file_path) and file_path != self.directory:
            icon = QFileIconProvider().icon(QFileInfo(self.directory))
            QListWidgetItem(icon, '..', self.view, 0)
        for info in entries:
            icon = QFileIconProvider().icon(info)
            suf = info.completeSuffix()
            name, tp = (info.fileName(), 0) if info.isDir() else (
                '%s%s' % (info.baseName(), '.%s' % suf if suf else ''), 1)
            QListWidgetItem(icon, name, self.view, tp)
        self.view.setFocus()

    def set_directory(self, path, check_drive=True):
        """
        Sets the directory that you want to explore
        :param path: str, valid path
        :param check_drive: bool,
        :return:
        """

        self.directory = os.path.realpath(path)
        self.path_edit.setText(self.directory)
        self.file_edit.setText('')

        # If necessary, update selected disk driver
        if check_drive:
            for loc in self.places:
                rb = self.places[loc]
                rb.setAutoExclusive(False)
                rb.setChecked(loc.lower() == self.directory.lower())
                rb.setAutoExclusive(True)

        self.update_view()
        self.up_button.setEnabled(not self.cant_go_up())

    def go_up(self):
        """
        Updates the current directory to go to its parent directory
        """

        self.set_directory(os.path.dirname(self.directory))

    def cant_go_up(self):
        """
        Checks whether we can naviage to current selected parent directory or not
        :return: bool
        """

        return os.path.dirname(self.directory) == self.directory

    def activate_directory_from_view(self, name):
        """
        Updates selected directory
        :param name: str, name of the directory
        """

        self.set_directory(os.path.join(self.directory, name))

    def activate_file_from_view(self, name):
        """
        Updates selected file text and returns its info by accepting it
        :param name: str, name of the file
        """

        self.select_file_item(name=name)
        self.accept()

    def select_file_item(self, name):
        """
        Updates selected file text and returns its info by accepting it
        :param name: str, name of the file
        """

        self.file_edit.setText(name)

    def select_folder_item(self, name):
        """
        Updates selected folder text and returns its info by accepting it
        :param name: str, name of the folder
        """

        self.file_edit.setText(name)
Exemple #10
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class LigandTable(QWidget):
    def __init__(
        self,
        parent=None,
        singleSelect=False,
        maxDenticity=None,
        include_substituents=False,
    ):
        super().__init__(parent)

        self._include_substituents = include_substituents

        layout = QGridLayout(self)

        self.table = QTableWidget()

        self.table.setColumnCount(3)
        self.table.setHorizontalHeaderLabels(
            ['name', 'denticity', 'coordinating elements'])

        self.add_ligands(maxDenticity)

        for i in range(0, 3):
            self.table.resizeColumnToContents(i)

        self.table.horizontalHeader().setStretchLastSection(False)
        self.table.horizontalHeader().setSectionResizeMode(
            0, QHeaderView.Fixed)
        self.table.horizontalHeader().setSectionResizeMode(
            1, QHeaderView.Fixed)
        self.table.horizontalHeader().setSectionResizeMode(
            2, QHeaderView.Stretch)

        self.table.setSortingEnabled(True)
        self.table.setSelectionBehavior(QTableWidget.SelectRows)
        if singleSelect:
            self.table.setSelectionMode(QTableWidget.SingleSelection)
        self.table.setEditTriggers(QTableWidget.NoEditTriggers)

        self.filterEdit = QLineEdit()
        self.filterEdit.textChanged.connect(self.apply_filter)
        self.filterEdit.setClearButtonEnabled(True)

        self.filter_columns = QComboBox()
        self.filter_columns.addItem("name")
        self.filter_columns.addItem("denticity")
        self.filter_columns.addItem("coordinating elements")
        self.filter_columns.currentTextChanged.connect(
            self.change_filter_method)

        self.name_regex_option = QComboBox()
        self.name_regex_option.addItem("case-insensitive")
        self.name_regex_option.addItem("case-sensitive")
        self.name_regex_option.currentTextChanged.connect(self.apply_filter)
        self.name_regex_option.setVisible(
            self.filter_columns.currentText() == "name")

        self.coordinating_elements_method = QComboBox()
        self.coordinating_elements_method.addItem("exactly")
        self.coordinating_elements_method.addItem("at least")
        self.coordinating_elements_method.currentTextChanged.connect(
            self.apply_filter)
        self.coordinating_elements_method.setVisible(
            self.filter_columns.currentText() == "coordinating elements")

        layout.addWidget(self.table, 0, 0, 1, 4)
        layout.addWidget(QLabel("filter based on"), 1, 0)
        layout.addWidget(self.filter_columns, 1, 1)
        layout.addWidget(self.coordinating_elements_method, 1, 2)
        layout.addWidget(self.name_regex_option, 1, 2)
        layout.addWidget(self.filterEdit, 1, 3)

        self.change_filter_method("name")

    def add_ligands(self, maxDenticity=None):
        from AaronTools.component import Component

        names = []

        for lib in [Component.AARON_LIBS, Component.BUILTIN]:
            if not os.path.exists(lib):
                continue
            for lig in os.listdir(lib):
                name, ext = os.path.splitext(lig)
                if not any(".%s" % x == ext for x in read_types):
                    continue

                if name in names:
                    continue

                names.append(name)

                geom = Geometry(
                    os.path.join(lib, lig),
                    refresh_connected=False,
                    refresh_ranks=False,
                )

                key_atoms = [geom.atoms[i] for i in geom.other["key_atoms"]]

                if maxDenticity and len(key_atoms) > maxDenticity:
                    continue

                row = self.table.rowCount()
                self.table.insertRow(row)
                self.table.setItem(row, 0, QTableWidgetItem(name))

                #this is an integer, so I need to initialize it then set the data
                denticity = QTableWidgetItem()
                denticity.setData(Qt.DisplayRole, len(key_atoms))
                self.table.setItem(row, 1, denticity)

                self.table.setItem(
                    row, 2,
                    QTableWidgetItem(", ".join(
                        sorted([atom.element for atom in key_atoms]))))

        if self._include_substituents:
            from AaronTools.substituent import Substituent

            for lib in [Substituent.AARON_LIBS, Substituent.BUILTIN]:
                if not os.path.exists(lib):
                    continue
                for sub in os.listdir(lib):
                    name, ext = os.path.splitext(sub)
                    if not any(".%s" % x == ext for x in read_types):
                        continue

                    if name in names:
                        continue

                    names.append(name)

                    geom = Geometry(
                        os.path.join(lib, sub),
                        refresh_connected=False,
                        refresh_ranks=False,
                    )

                    key_atoms = [geom.atoms[0]]

                    if maxDenticity and len(key_atoms) > maxDenticity:
                        continue

                    row = self.table.rowCount()
                    self.table.insertRow(row)
                    self.table.setItem(row, 0, QTableWidgetItem(name))

                    #this is an integer, so I need to initialize it then set the data
                    denticity = QTableWidgetItem()
                    denticity.setData(Qt.DisplayRole, len(key_atoms))
                    self.table.setItem(row, 1, denticity)

                    self.table.setItem(
                        row, 2,
                        QTableWidgetItem(", ".join(
                            sorted([atom.element for atom in key_atoms]))))

        self.ligand_list = names

    def change_filter_method(self, text):
        if text == "coordinating elements":
            self.filterEdit.setToolTip("comma and/or space delimited elements")
            self.coordinating_elements_method.setVisible(True)
            self.name_regex_option.setVisible(False)
        elif text == "name":
            self.filterEdit.setToolTip("name regex")
            self.coordinating_elements_method.setVisible(False)
            self.name_regex_option.setVisible(True)
        elif text == "denticity":
            self.filterEdit.setToolTip("number of key atoms")
            self.coordinating_elements_method.setVisible(False)
            self.name_regex_option.setVisible(False)

        self.apply_filter()

    def apply_filter(self, *args):
        text = self.filterEdit.text()
        if text:
            if self.filter_columns.currentText() == "name":
                m = QRegularExpression(text)
                if m.isValid():
                    if self.name_regex_option.currentText(
                    ) == "case-insensitive":
                        m.setPatternOptions(
                            QRegularExpression.CaseInsensitiveOption)

                    m.optimize()
                    filter = lambda row_num: m.match(
                        self.table.item(row_num, 0).text()).hasMatch()
                else:
                    return

            elif self.filter_columns.currentText() == "denticity":
                if text.isdigit():
                    filter = lambda row_num: int(
                        self.table.item(row_num, 1).text()) == int(text)
                else:
                    filter = lambda row: True

            elif self.filter_columns.currentText() == "coordinating elements":
                method = self.coordinating_elements_method.currentText()

                def filter(row_num):
                    row_key_atoms = [
                        item.strip() for item in self.table.item(
                            row_num, 2).text().split(',')
                    ]
                    search_atoms = []
                    for item in text.split():
                        for ele in item.split(','):
                            if ele.strip() != "":
                                search_atoms.append(ele)

                    if method == "exactly":
                        if all([row_key_atoms.count(element) == search_atoms.count(element) for element in set(search_atoms)]) and \
                            all([row_key_atoms.count(element) == search_atoms.count(element) for element in set(row_key_atoms)]):
                            return True
                        else:
                            return False

                    elif method == "at least":
                        if all([
                                row_key_atoms.count(element) >=
                                search_atoms.count(element)
                                for element in set(search_atoms)
                        ]):
                            return True
                        else:
                            return False

        else:
            filter = lambda row: True

        for i in range(0, self.table.rowCount()):
            self.table.setRowHidden(i, not filter(i))
Exemple #11
0
class Client(QDialog):
    def __init__(self, parent: QWidget = None):
        super().__init__(parent)

        self._in = QDataStream()
        self.blockSize = 0

        self.currentFortune = ""

        self.hostLineEdit = QLineEdit("fortune")
        self.getFortuneButton = QPushButton(self.tr("Get Fortune"))
        self.statusLabel = QLabel(
            self.tr(
                "This examples requires that you run the Local Fortune Server example as well."
            )
        )
        self.socket = QLocalSocket()

        self.setWindowFlags(self.windowFlags() & ~Qt.WindowContextHelpButtonHint)
        hostLabel = QLabel(self.tr("&Server name:"))
        hostLabel.setBuddy(self.hostLineEdit)

        self.statusLabel.setWordWrap(True)

        self.getFortuneButton.setDefault(True)
        quitButton = QPushButton(self.tr("Quit"))

        buttonBox = QDialogButtonBox()
        buttonBox.addButton(self.getFortuneButton, QDialogButtonBox.ActionRole)
        buttonBox.addButton(quitButton, QDialogButtonBox.RejectRole)

        self._in.setDevice(self.socket)
        self._in.setVersion(QDataStream.Qt_5_10)

        self.hostLineEdit.textChanged.connect(self.enableGetFortuneButton)

        self.getFortuneButton.clicked.connect(self.requestNewFortune)
        quitButton.clicked.connect(self.close)
        self.socket.readyRead.connect(self.readFortune)
        self.socket.errorOccurred.connect(self.displayError)

        mainLayout = QGridLayout(self)
        mainLayout.addWidget(hostLabel, 0, 0)
        mainLayout.addWidget(self.hostLineEdit, 0, 1)
        mainLayout.addWidget(self.statusLabel, 2, 0, 1, 2)
        mainLayout.addWidget(buttonBox, 3, 0, 1, 2)

        self.setWindowTitle(QGuiApplication.applicationDisplayName())
        self.hostLineEdit.setFocus()

    @Slot()
    def requestNewFortune(self):
        self.getFortuneButton.setEnabled(False)
        self.blockSize = 0
        self.socket.abort()
        self.socket.connectToServer(self.hostLineEdit.text())

    @Slot()
    def readFortune(self):
        if self.blockSize == 0:
            # Relies on the fact that QDataStream serializes a quint32 into
            # sizeof(quint32) bytes
            if self.socket.bytesAvailable() < 4:  #  (int)sizeof(quint32))
                return
            self.blockSize = self._in.readUInt32()

        if self.socket.bytesAvailable() < self.blockSize or self._in.atEnd():
            return

        nextFortune = ""
        nextFortune = self._in.readQString()

        if nextFortune == self.currentFortune:
            QTimer.singleShot(0, self.requestNewFortune)
            return

        currentFortune = nextFortune
        self.statusLabel.setText(currentFortune)
        self.getFortuneButton.setEnabled(True)

    @Slot(QLocalSocket.LocalSocketError)
    def displayError(self, socketError):
        if socketError == QLocalSocket.ServerNotFoundError:

            QMessageBox.information(
                self,
                self.tr("Local Fortune Client"),
                self.tr(
                    "The host was not found. Please make sure "
                    "that the server is running and that the "
                    "server name is correct."
                ),
            )
        elif socketError == QLocalSocket.ConnectionRefusedError:
            QMessageBox.information(
                self,
                self.tr("Local Fortune Client"),
                self.tr(
                    "The connection was refused by the peer. "
                    "Make sure the fortune server is running, "
                    "and check that the server name is correct."
                ),
            )
        elif socketError == QLocalSocket.PeerClosedError:
            return
        else:
            QMessageBox.information(
                self,
                self.tr("Local Fortune Client"),
                self.tr(
                    "The following error occurred: %s." % (self.socket.errorString())
                ),
            )

        self.getFortuneButton.setEnabled(True)

    @Slot()
    def enableGetFortuneButton(self):
        self.getFortuneButton.setEnabled(bool(self.hostLineEdit.ext()))
Exemple #12
0
class CSSEditor:
    """
    Make sure to instanciate *after* creating the top level widgets of your QApplication
    """
    def __init__(self, project_name):
        self.project_name = project_name
        self._app = QApplication.instance()
        self._css_filepath = None

        self.main_window = QWidget()
        self.main_window.setWindowFlags(Qt.Tool)
        self.main_window.setWindowTitle("CSS Editor - " + self.project_name)

        self.variables = Variables()
        self.variables.changed.connect(self._variables_changed)
        self.variables.changed.connect(self._render_and_apply)

        self.template = CSSTextEdit()
        self.template.changed.connect(self._template_changed)
        self.template.changed.connect(self._render_and_apply)

        self.save = QPushButton('Save stylesheet to')
        self.save.clicked.connect(self._save_stylesheet)

        self.save_destination = QLineEdit()
        self.save_destination.textChanged.connect(self._destination_changed)

        self.splitter = QSplitter()
        self.splitter.setOrientation(Qt.Vertical)
        self.splitter.addWidget(self.variables)
        self.splitter.addWidget(self.template)

        layout = QGridLayout(self.main_window)
        layout.addWidget(self.splitter, 0, 0, 1, 2)
        layout.addWidget(self.save, 1, 0)
        layout.addWidget(self.save_destination, 1, 1)

        self.main_window.resize(800, 600)

        self._project_dir = self._ensure_project_dir()
        self._top_level_widgets = [
            widget for widget in QApplication.topLevelWidgets() if
            widget.windowTitle() != self.main_window.windowTitle()
        ]
        self._variables = dict()
        self._template = None
        self._stylesheet = ""

        self._app.aboutToQuit.connect(self._save_editor_state)
        self._open()
        self.save_destination.setText(self.css_filepath)
        self.main_window.show()

    @property
    def css_filepath(self):
        if self._css_filepath is None:
            return self._project_dir + self.project_name + '.css'

        return self._css_filepath

    def _ensure_project_dir(self):
        dir_ = os.path.expanduser('~/CSSEditor/' + self.project_name + '/')
        if not os.path.isdir(dir_):
            os.makedirs(dir_)

        return dir_

    def _open(self):
        self.variables.blockSignals(True)
        self.template.blockSignals(True)

        try:
            with open(self._project_dir + EDITOR_STATE, 'r') as qsseditor_file:
                qsseditor = json.load(qsseditor_file)
                WindowPosition.restore(self.main_window, qsseditor['window'])
                self.splitter.setSizes(qsseditor['splitter'])
                self._css_filepath = qsseditor.get('save_destination', self.css_filepath)
                self.save_destination.setText(self._css_filepath)

            with open(self._project_dir + THEME_VARIABLES, 'r') as f_variables:
                self.variables.variables = json.load(f_variables)

            with open(self._project_dir + THEME_TEMPLATE, 'r') as f_template:
                self.template.set_plain_text(f_template.read())
        except Exception as e:
            pass
        self.variables.blockSignals(False)
        self.template.blockSignals(False)

        self._template_changed()
        self._variables_changed()
        self._render_and_apply()

    def _destination_changed(self):
        self._css_filepath = self.save_destination.text()
        self._save_editor_state()

    def _save_editor_state(self):
        with open(self._project_dir + EDITOR_STATE, 'w+') as f_qsseditor:
            json.dump({
                'window': WindowPosition.save(self.main_window),
                'splitter': self.splitter.sizes(),
                'save_destination': self.css_filepath
            }, f_qsseditor)

    def _template_changed(self):
        template = self.template.plain_text()
        with open(self._project_dir + THEME_TEMPLATE, 'w+') as f_template:
            f_template.write(template)

        try:
            self._template = jinja2.Template(template)
        except TemplateSyntaxError:
            pass

    def _variables_changed(self):
        with open(self._project_dir + THEME_VARIABLES, 'w+') as f_variables:
            f_variables.write(json.dumps(self.variables.variables, indent=2))

        self._variables = dict()

        for variable_name, variable_value in self.variables.variables.items():
            if isinstance(variable_value, list) and len(variable_value) == 3:
                self._variables[variable_name] = 'rgb({})'.format(', '.join([str(channel) for channel in variable_value]))

                for variant in COLOR_VARIANTS:
                    channels = [str(int(channel * variant * 0.01)) for channel in variable_value]
                    self._variables['{}{:02d}'.format(variable_name, variant)] = 'rgb({})'.format(', '.join(channels))

            else:
                self._variables[variable_name] = variable_value

    def _apply_style(self, style):
        for widget in self._top_level_widgets:
            widget.setStyleSheet(style)

    def _render_and_apply(self):
        self._apply_style("")

        if self._template is None:
            return

        self._stylesheet = self._template.render(**self._variables)
        self._apply_style(self._stylesheet)

    def _save_stylesheet(self):
        stylesheet = [
            "/* GUI Bedos - CSS Template */",
            "/****************************/",
            "",
            "/* VARIABLES",
            json.dumps(self.variables.variables, indent=2),
            "/****************************/",
            "",
            "/* TEMPLATE",
            self.template.plain_text().replace('*/', '*|'),
            "/****************************/",
            "",
            "/* ACTUAL CSS */",
            "",
            self._stylesheet
        ]
        with open(self.css_filepath, 'w+') as f_stylesheet:
            f_stylesheet.write('\n'.join(stylesheet))
Exemple #13
0
    def addAttributeSlot(self):
        """ Adds a new attribute (column) to the table """

        dialog = QDialog(self)
        dialog.setModal(True)
        dialog.setWindowTitle('Add Attribute')

        layout = QVBoxLayout()
        dialog.setLayout(layout)

        form = QFormLayout()
        nameBox = QLineEdit()
        typeCombo = QComboBox()
        for attrType in _attrTypes:
            typeName = partio.TypeName(attrType)
            typeCombo.addItem(typeName)
        typeCombo.setCurrentIndex(partio.FLOAT)
        countBox = QLineEdit()
        countBox.setValidator(QIntValidator())
        countBox.setText('1')
        fixedCheckbox = QCheckBox()
        valueBox = QLineEdit()
        valueBox.setText('0')
        form.addRow('Name:', nameBox)
        form.addRow('Type:', typeCombo)
        form.addRow('Count:', countBox)
        form.addRow('Fixed:', fixedCheckbox)
        form.addRow('Default Value:', valueBox)
        layout.addLayout(form)

        buttons = QHBoxLayout()
        layout.addLayout(buttons)

        add = QPushButton('Add')
        add.clicked.connect(dialog.accept)
        buttons.addWidget(add)

        cancel = QPushButton('Cancel')
        cancel.clicked.connect(dialog.reject)
        buttons.addWidget(cancel)

        if not dialog.exec_():
            return

        name = str(nameBox.text())
        if not name:
            print 'Please supply a name for the new attribute' # TODO: prompt
            return

        attrType = typeCombo.currentIndex()
        count = int(countBox.text())
        fixed = fixedCheckbox.isChecked()
        values = list(str(valueBox.text()).strip().split())
        for i in range(count):
            if i < len(values):
                value = values[i]
            else:
                value = values[-1]
            if attrType == partio.INT or attrType == partio.INDEXEDSTR:
                values[i] = int(value)
            elif attrType == partio.FLOAT or attrType == partio.VECTOR:
                values[i] = float(value) # pylint:disable=R0204
            else:
                values[i] = 0.0 # pylint:disable=R0204
        value = tuple(values)

        self.data.addAttribute(name, attrType, count, fixed, value)
Exemple #14
0
    def addAttributeSlot(self):
        """ Adds a new attribute (column) to the table """

        dialog = QDialog(self)
        dialog.setModal(True)
        dialog.setWindowTitle('Add Attribute')

        layout = QVBoxLayout()
        dialog.setLayout(layout)

        form = QFormLayout()
        nameBox = QLineEdit()
        typeCombo = QComboBox()
        for attrType in _attrTypes:
            typeName = partio.TypeName(attrType)
            typeCombo.addItem(typeName)
        typeCombo.setCurrentIndex(partio.FLOAT)
        countBox = QLineEdit()
        countBox.setValidator(QIntValidator())
        countBox.setText('1')
        fixedCheckbox = QCheckBox()
        valueBox = QLineEdit()
        valueBox.setText('0')
        form.addRow('Name:', nameBox)
        form.addRow('Type:', typeCombo)
        form.addRow('Count:', countBox)
        form.addRow('Fixed:', fixedCheckbox)
        form.addRow('Default Value:', valueBox)
        layout.addLayout(form)

        buttons = QHBoxLayout()
        layout.addLayout(buttons)

        add = QPushButton('Add')
        add.clicked.connect(dialog.accept)
        buttons.addWidget(add)

        cancel = QPushButton('Cancel')
        cancel.clicked.connect(dialog.reject)
        buttons.addWidget(cancel)

        if not dialog.exec_():
            return

        name = str(nameBox.text())
        if not name:
            print('Please supply a name for the new attribute')  # TODO: prompt
            return

        attrType = typeCombo.currentIndex()
        count = int(countBox.text())
        fixed = fixedCheckbox.isChecked()
        values = list(str(valueBox.text()).strip().split())
        for i in range(count):
            if i < len(values):
                value = values[i]
            else:
                value = values[-1]
            if attrType == partio.INT or attrType == partio.INDEXEDSTR:
                values[i] = int(value)
            elif attrType == partio.FLOAT or attrType == partio.VECTOR:
                values[i] = float(value)  # pylint:disable=R0204
            else:
                values[i] = 0.0  # pylint:disable=R0204
        value = tuple(values)

        self.data.addAttribute(name, attrType, count, fixed, value)
Exemple #15
0
class EditStructure(ToolInstance):

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

    def __init__(self, session, name):       
        super().__init__(session, name)
        
        self.settings = _EditStructureSettings(session, "Structure Modification")
        
        self.tool_window = MainToolWindow(self)        

        self.close_previous_bool = self.settings.modify

        self._build_ui()

    def _build_ui(self):
        layout = QGridLayout()
        
        self.alchemy_tabs = QTabWidget()
        
        #substitute
        substitute_tab = QWidget()
        substitute_layout = QGridLayout(substitute_tab) 

        sublabel = QLabel("substituent name:")
        substitute_layout.addWidget(sublabel, 0, 0, Qt.AlignVCenter)
        
        self.subname = QLineEdit()
        # self.subname.setText("Et")
        sub_completer = NameCompleter(Substituent.list(), self.subname)
        self.subname.setCompleter(sub_completer)
        self.subname.setToolTip("name of substituent in the AaronTools library or your personal library\nseparate names with commas and uncheck 'modify selected structure' to create several structures")
        substitute_layout.addWidget(self.subname, 0, 1, Qt.AlignVCenter)
        
        open_sub_lib = QPushButton("from library...")
        open_sub_lib.clicked.connect(self.open_sub_selector)
        substitute_layout.addWidget(open_sub_lib, 0, 2, Qt.AlignTop)        
        
        substitute_layout.addWidget(QLabel("modify selected structure:"), 1, 0, 1, 1, Qt.AlignVCenter)
        
        self.close_previous_sub = QCheckBox()
        self.close_previous_sub.setToolTip("checked: selected structure will be modified\nunchecked: new model will be created for the modified structure")
        self.close_previous_sub.setChecked(self.settings.modify)
        self.close_previous_sub.stateChanged.connect(self.close_previous_change)
        substitute_layout.addWidget(self.close_previous_sub, 1, 1, 1, 2, Qt.AlignTop)    
        
        substitute_layout.addWidget(QLabel("relax substituent:"), 2, 0, 1, 1, Qt.AlignVCenter)
        
        self.minimize = QCheckBox()
        self.minimize.setToolTip("spin the added substituents to try to minimize the LJ potential energy")
        self.minimize.setChecked(self.settings.minimize)
        substitute_layout.addWidget(self.minimize, 2, 1, 1, 1, Qt.AlignTop)
        
        substitute_layout.addWidget(QLabel("guess previous substituent:"), 3, 0, 1, 1, Qt.AlignVCenter)
        
        self.guess_old = QCheckBox()
        self.guess_old.setToolTip("checked: leave the longest connected fragment in the residue\nunchecked: previous substituent must be selected")
        self.guess_old.setChecked(self.settings.guess)
        self.guess_old.stateChanged.connect(lambda state, settings=self.settings: settings.__setattr__("guess", True if state == Qt.Checked else False))
        substitute_layout.addWidget(self.guess_old, 3, 1, 1, 2, Qt.AlignTop)
        
        substitute_layout.addWidget(QLabel("new residue:"), 5, 0, 1, 1, Qt.AlignVCenter)

        self.new_residue = QCheckBox()
        self.new_residue.setToolTip("put the new substituent in its own residue instead\nof adding it to the residue of the old substituent")
        self.new_residue.setChecked(self.settings.new_residue)
        self.new_residue.stateChanged.connect(lambda state, settings=self.settings: settings.__setattr__("new_residue", True if state == Qt.Checked else False))
        substitute_layout.addWidget(self.new_residue, 5, 1, 1, 2, Qt.AlignTop)
        
        substitute_layout.addWidget(QLabel("use distance names:"), 4, 0, 1, 1, Qt.AlignVCenter)
        
        self.use_greek = QCheckBox()
        self.use_greek.setChecked(self.settings.use_greek)
        self.use_greek.setToolTip("indicate distance from point of attachment with atom name")
        substitute_layout.addWidget(self.use_greek, 4, 1, 1, 1, Qt.AlignTop)

        substitute_layout.addWidget(QLabel("change residue name:"), 6, 0, 1, 1, Qt.AlignVCenter)
        
        self.new_sub_name = QLineEdit()
        self.new_sub_name.setToolTip("change name of modified residues")
        self.new_sub_name.setPlaceholderText("leave blank to keep current")
        substitute_layout.addWidget(self.new_sub_name, 6, 1, 1, 2, Qt.AlignTop)

        substitute_button = QPushButton("substitute current selection")
        substitute_button.clicked.connect(self.do_substitute)
        substitute_layout.addWidget(substitute_button, 7, 0, 1, 3, Qt.AlignTop)
        self.substitute_button = substitute_button
        
        substitute_layout.setRowStretch(0, 0)
        substitute_layout.setRowStretch(1, 0)
        substitute_layout.setRowStretch(2, 0)
        substitute_layout.setRowStretch(3, 0)
        substitute_layout.setRowStretch(4, 0)
        substitute_layout.setRowStretch(5, 0)
        substitute_layout.setRowStretch(6, 0)
        substitute_layout.setRowStretch(7, 1)
        
        
        #map ligand
        maplig_tab = QWidget()
        maplig_layout = QGridLayout(maplig_tab)
        
        liglabel = QLabel("ligand name:")
        maplig_layout.addWidget(liglabel, 0, 0, Qt.AlignVCenter)
        
        self.ligname = QLineEdit()
        lig_completer = NameCompleter(Component.list(), self.ligname)
        self.ligname.setCompleter(lig_completer)
        self.ligname.setToolTip("name of ligand in the AaronTools library or your personal library\nseparate names with commas and uncheck 'modify selected structure' to create several structures")
        maplig_layout.addWidget(self.ligname, 0, 1, Qt.AlignVCenter)
        
        open_lig_lib = QPushButton("from library...")
        open_lig_lib.clicked.connect(self.open_lig_selector)
        maplig_layout.addWidget(open_lig_lib, 0, 2, Qt.AlignTop)        
        
        maplig_layout.addWidget(QLabel("modify selected structure:"), 1, 0, 1, 1, Qt.AlignVCenter)
        
        self.close_previous_lig = QCheckBox()
        self.close_previous_lig.setToolTip("checked: selected structure will be modified\nunchecked: new model will be created for the modified structure")
        self.close_previous_lig.setChecked(self.settings.modify)
        self.close_previous_lig.stateChanged.connect(self.close_previous_change)
        maplig_layout.addWidget(self.close_previous_lig, 1, 1, 1, 2, Qt.AlignTop)

        maplig_button = QPushButton("swap ligand with selected coordinating atoms")
        maplig_button.clicked.connect(self.do_maplig)
        maplig_layout.addWidget(maplig_button, 2, 0, 1, 3, Qt.AlignTop)
        self.maplig_button = maplig_button

        start_structure_button = QPushButton("place in:")
        self.lig_model_selector = ModelComboBox(self.session, addNew=True)
        start_structure_button.clicked.connect(self.do_new_lig)
        maplig_layout.addWidget(start_structure_button, 3, 0, 1, 1, Qt.AlignTop)
        maplig_layout.addWidget(self.lig_model_selector, 3, 1, 1, 2, Qt.AlignTop)

        maplig_layout.setRowStretch(0, 0)
        maplig_layout.setRowStretch(1, 0)
        maplig_layout.setRowStretch(2, 0)
        maplig_layout.setRowStretch(3, 1)
        
        
        #close ring
        closering_tab = QWidget()
        closering_layout = QGridLayout(closering_tab)
        
        ringlabel = QLabel("ring name:")
        closering_layout.addWidget(ringlabel, 0, 0, Qt.AlignVCenter)
        
        self.ringname = QLineEdit()
        ring_completer = NameCompleter(Ring.list(), self.ringname)
        self.ringname.setCompleter(ring_completer)
        self.ringname.setToolTip("name of ring in the AaronTools library or your personal library\nseparate names with commas and uncheck 'modify selected structure' to create several structures")
        closering_layout.addWidget(self.ringname, 0, 1, Qt.AlignVCenter)
        
        open_ring_lib = QPushButton("from library...")
        open_ring_lib.clicked.connect(self.open_ring_selector)
        closering_layout.addWidget(open_ring_lib, 0, 2, Qt.AlignTop)        
        
        closering_layout.addWidget(QLabel("modify selected structure:"), 1, 0, 1, 1, Qt.AlignVCenter) 
        
        self.close_previous_ring = QCheckBox()
        self.close_previous_ring.setToolTip("checked: selected structure will be modified\nunchecked: new model will be created for the modified structure")
        self.close_previous_ring.setChecked(self.settings.modify)
        self.close_previous_ring.stateChanged.connect(self.close_previous_change)
        closering_layout.addWidget(self.close_previous_ring, 1, 1, 1, 2, Qt.AlignTop)

        closering_layout.addWidget(QLabel("try multiple:"), 2, 0, 1, 1, Qt.AlignVCenter)

        self.minimize_ring = QCheckBox()
        self.minimize_ring.setToolTip("try to use other versions of this ring in the library to find the one that fits best")
        self.minimize_ring.setChecked(self.settings.minimize_ring)
        closering_layout.addWidget(self.minimize_ring, 2, 1, 1, 2, Qt.AlignTop)

        closering_layout.addWidget(QLabel("new residue name:"), 3, 0, 1, 1, Qt.AlignVCenter)
        
        self.new_ring_name = QLineEdit()
        self.new_ring_name.setToolTip("change name of modified residues")
        self.new_ring_name.setPlaceholderText("leave blank to keep current")
        closering_layout.addWidget(self.new_ring_name, 3, 1, 1, 2, Qt.AlignTop)

        closering_button = QPushButton("put a ring on current selection")
        closering_button.clicked.connect(self.do_fusering)

        closering_layout.addWidget(closering_button, 4, 0, 1, 3, Qt.AlignTop)
        self.closering_button = closering_button

        start_structure_button = QPushButton("place in:")
        self.ring_model_selector = ModelComboBox(self.session, addNew=True)
        start_structure_button.clicked.connect(self.do_new_ring)
        closering_layout.addWidget(start_structure_button, 5, 0, 1, 1, Qt.AlignTop)
        closering_layout.addWidget(self.ring_model_selector, 5, 1, 1, 2, Qt.AlignTop)

        closering_layout.setRowStretch(0, 0)
        closering_layout.setRowStretch(1, 0)
        closering_layout.setRowStretch(2, 0)
        closering_layout.setRowStretch(3, 0)
        closering_layout.setRowStretch(4, 0)
        closering_layout.setRowStretch(5, 1)


        #change element
        changeelement_tab = QWidget()
        changeelement_layout = QFormLayout(changeelement_tab)
        
        self.element = ElementButton("C", single_state=True)
        self.element.clicked.connect(self.open_ptable)
        changeelement_layout.addRow("element:", self.element)
        
        self.vsepr = QComboBox()
        self.vsepr.addItems([
            "do not change",                  # 0
            
            "linear (1 bond)",                # 1
            
            "linear (2 bonds)",               # 2 
            "trigonal planar (2 bonds)",      # 3
            "tetrahedral (2 bonds)",          # 4 
            
            "trigonal planar",                # 5
            "tetrahedral (3 bonds)",          # 6
            "T-shaped",                       # 7
            
            "trigonal pyramidal",             # 8
            "tetrahedral",                    # 9
            "sawhorse",                       #10
            "seesaw",                         #11
            "square planar",                  #12
            
            "trigonal bipyramidal",           #13
            "square pyramidal",               #14
            "pentagonal",                     #15
            
            "octahedral",                     #16
            "hexagonal",                      #17
            "trigonal prismatic",             #18
            "pentagonal pyramidal",           #19
            
            "capped octahedral",              #20
            "capped trigonal prismatic",      #21
            "heptagonal",                     #22
            "hexagonal pyramidal",            #23
            "pentagonal bipyramidal",         #24
            
            "biaugmented trigonal prismatic", #25
            "cubic",                          #26
            "elongated trigonal bipyramidal", #27
            "hexagonal bipyramidal",          #28
            "heptagonal pyramidal",           #29
            "octagonal",                      #30
            "square antiprismatic",           #31
            "trigonal dodecahedral",          #32
            
            "capped cube",                    #33
            "capped square antiprismatic",    #34
            "enneagonal",                     #35
            "heptagonal bipyramidal",         #36
            "hula-hoop",                      #37
            "triangular cupola",              #38
            "tridiminished icosahedral",      #39
            "muffin",                         #40
            "octagonal pyramidal",            #41
            "tricapped trigonal prismatic",   #42
        ])
        
        self.vsepr.setCurrentIndex(9)
        
        self.vsepr.insertSeparator(33)
        self.vsepr.insertSeparator(25)
        self.vsepr.insertSeparator(20)
        self.vsepr.insertSeparator(16)
        self.vsepr.insertSeparator(13)
        self.vsepr.insertSeparator(8)
        self.vsepr.insertSeparator(5)
        self.vsepr.insertSeparator(2)
        self.vsepr.insertSeparator(1)
        self.vsepr.insertSeparator(0)
        changeelement_layout.addRow("geometry:", self.vsepr)
        
        self.change_bonds = QCheckBox()
        self.change_bonds.setChecked(self.settings.change_bonds)
        changeelement_layout.addRow("adjust bond lengths:", self.change_bonds)
        
        change_element_button = QPushButton("change selected elements")
        change_element_button.clicked.connect(self.do_change_element)
        changeelement_layout.addRow(change_element_button)
        self.change_element_button = change_element_button

        start_structure_button = QPushButton("place in:")
        self.model_selector = ModelComboBox(self.session, addNew=True)
        start_structure_button.clicked.connect(self.do_new_atom)
        changeelement_layout.addRow(start_structure_button, self.model_selector)
        
        delete_atoms_button = QPushButton("delete selected atoms")
        delete_atoms_button.clicked.connect(self.delete_atoms)
        changeelement_layout.addRow(delete_atoms_button)

        self.alchemy_tabs.addTab(substitute_tab, "substitute")
        self.alchemy_tabs.addTab(maplig_tab, "swap ligand")
        self.alchemy_tabs.addTab(closering_tab, "fuse ring")
        self.alchemy_tabs.addTab(changeelement_tab, "change element")

        layout.addWidget(self.alchemy_tabs)

        self.tool_window.ui_area.setLayout(layout)

        self.tool_window.manage(None)
    
    def close_previous_change(self, state):
        if state == Qt.Checked:
            self.settings.modify = True
            for checkbox in [self.close_previous_lig, self.close_previous_sub, self.close_previous_ring]:
                checkbox.setChecked(True)
            self.close_previous_bool = True
        else:
            self.settings.modify = False
            for checkbox in [self.close_previous_lig, self.close_previous_sub, self.close_previous_ring]:
                checkbox.setChecked(False)
            self.close_previous_bool = False
    
    def do_substitute(self):
        subnames = self.subname.text()
        
        new_name = self.new_sub_name.text()

        use_attached = not self.guess_old.isChecked()
        
        minimize = self.minimize.isChecked()
        
        new_residue = self.new_residue.isChecked()

        use_greek = self.use_greek.isChecked()
        
        self.settings.minimize = minimize
        self.settings.use_greek = use_greek

        if len(new_name.strip()) > 0:
            run(
                self.session, 
                "substitute sel substituents %s newName %s guessAttachment %s modify %s minimize %s useRemoteness %s newResidue %s" %
                (
                    subnames,
                    new_name,
                    not use_attached,
                    self.close_previous_bool,
                    minimize,
                    use_greek,
                    new_residue,
                )
            )

        else:
            run(
                self.session,
                "substitute sel substituents %s guessAttachment %s modify %s minimize %s useRemoteness %s newResidue %s" %
                (
                    subnames,
                    not use_attached,
                    self.close_previous_bool,
                    minimize,
                    use_greek,
                    new_residue,
                )
            )

    def open_sub_selector(self):
        self.tool_window.create_child_window("select substituents", window_class=SubstituentSelection, textBox=self.subname)

    def do_maplig(self):
        lignames = self.ligname.text()
        selection = selected_atoms(self.session)
        
        if len(selection) < 1:
            raise RuntimeWarning("nothing selected")
        
        models = {}
        for atom in selection:
            if atom.structure not in models:
                models[atom.structure] = [AtomSpec(atom.atomspec)]
            else:
                models[atom.structure].append(AtomSpec(atom.atomspec))        
        
        first_pass = True
        new_structures = []
        for ligname in lignames.split(','):
            ligname = ligname.strip()
            lig = Component(ligname)
            for model in models:
                if self.close_previous_bool and first_pass:
                    rescol = ResidueCollection(model)
                elif self.close_previous_bool and not first_pass:
                    raise RuntimeError("only the first model can be replaced")
                else:
                    model_copy = model.copy()
                    rescol = ResidueCollection(model_copy)
                    for i, atom in enumerate(model.atoms):
                        rescol.atoms[i].atomspec = atom.atomspec
                        rescol.atoms[i].add_tag(atom.atomspec)
                        rescol.atoms[i].chix_atom = atom

                target = rescol.find(models[model])
                if len(target) % len(lig.key_atoms) == 0:
                    k = 0
                    ligands = []
                    while k != len(target):
                        res_lig = ResidueCollection(lig.copy(), comment=lig.comment)
                        res_lig.parse_comment()
                        res_lig = Component(res_lig, key_atoms = ",".join([str(k + 1) for k in res_lig.other["key_atoms"]]))
                        ligands.append(res_lig)
                        k += len(lig.key_atoms)
                else:
                    raise RuntimeError("number of key atoms no not match: %i now, new ligand has %i" % (len(target), len(lig.key_atoms)))
                
                rescol.map_ligand(ligands, target)

                for center_atom in rescol.center:
                    center_atom.connected = set([])
                    for atom in rescol.atoms:
                        if atom not in rescol.center:
                            if center_atom.is_connected(atom):
                                atom.connected.add(center_atom)
                                center_atom.connected.add(atom)
                
                if self.close_previous_bool:    
                    rescol.update_chix(model)
                else:
                    struc = rescol.get_chimera(self.session)
                    new_structures.append(struc)
            
            first_pass = False
        
        if not self.close_previous_bool:
            self.session.models.add(new_structures)

    def open_lig_selector(self):
        self.tool_window.create_child_window("select ligands", window_class=LigandSelection, textBox=self.ligname)
    
    def do_fusering(self):
        ring_names = self.ringname.text()
        
        new_name = self.new_ring_name.text()

        minimize_ring = self.minimize_ring.isChecked()
        self.settings.minimize_ring = minimize_ring

        if len(new_name.strip()) > 0:
            run(
                self.session,
                "fuseRing sel rings %s newName %s modify %s minimize %s" % (
                    ring_names,
                    new_name,
                    self.close_previous_bool,
                    minimize_ring,
                )
            )

        else:
            run(
                self.session,
                "fuseRing sel rings %s modify %s minimize %s" % (
                    ring_names,
                    self.close_previous_bool,
                    minimize_ring,
                )
            )

    def open_ring_selector(self):
        self.tool_window.create_child_window("select rings", window_class=RingSelection, textBox=self.ringname)

    def open_ptable(self):
        self.tool_window.create_child_window("select element", window_class=_PTable, button=self.element)
    
    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 do_change_element(self):
        element = self.element.text()
        adjust_bonds = self.change_bonds.isChecked()
        self.settings.change_bonds = adjust_bonds
        vsepr = self.vsepr.currentText()
        
        if vsepr == "do not change":
            vsepr = False
        elif vsepr == "linear (1 bond)":
            vsepr = "linear 1"
            goal = 1
        elif vsepr == "linear (2 bonds)":
            vsepr = "linear 2"
            goal = 2
        elif vsepr == "trigonal planar (2 bonds)":
            vsepr = "bent 2 planar"
            goal = 2
        elif vsepr == "tetrahedral (2 bonds)":
            vsepr = "bent 2 tetrahedral"
            goal = 2
        elif vsepr == "trigonal planar":
            goal = 3
        elif vsepr == "tetrahedral (3 bonds)":
            vsepr = "bent 3 tetrahedral"
            goal = 3
        else:
            goal = len(Atom.get_shape(vsepr)) - 1
        
        sel = selected_atoms(self.session)
        models, _ = guessAttachmentTargets(sel, self.session, allow_adjacent=False)
        for model in models:
            conv_res = list(models[model].keys())
            for res in models[model]:
                for target in models[model][res]:
                    for neighbor in target.neighbors:
                        if neighbor.residue not in conv_res:
                            conv_res.append(neighbor.residue)
            
                    for pbg in self.session.models.list(type=PseudobondGroup):
                        for pbond in pbg.pseudobonds:
                            if target in pbond.atoms and all(atom.structure is model for atom in pbond.atoms):
                                other_atom = pbond.other_atom(target)
                                if other_atom.residue not in conv_res:
                                    conv_res.append(other_atom.residue)
            
            rescol = ResidueCollection(model, convert_residues=conv_res)
            for res in models[model]:
                residue = [resi for resi in rescol.residues if resi.chix_residue is res][0]
                
                for target in models[model][res]:
                    targ = rescol.find_exact(AtomSpec(target.atomspec))[0]
                    adjust_hydrogens = vsepr
                    if vsepr is not False:
                        cur_bonds = len(targ.connected)
                        change_Hs = goal - cur_bonds
                        adjust_hydrogens = (change_Hs, vsepr)

                    residue.change_element(targ, 
                                           element, 
                                           adjust_bonds=adjust_bonds, 
                                           adjust_hydrogens=adjust_hydrogens,
                    )
                
                residue.update_chix(res)    
    
    def do_new_ring(self):
        rings = self.ringname.text()
        
        for ring in rings.split(","):
            ring = ring.strip()
            
            rescol = ResidueCollection(Ring(ring))
        
            model = self.ring_model_selector.currentData()
            if model is None:
                chix = rescol.get_chimera(self.session)
                self.session.models.add([chix])
                apply_seqcrow_preset(chix, fallback="Ball-Stick-Endcap")
                self.ring_model_selector.setCurrentIndex(self.ring_model_selector.count()-1)
    
            else:
                res = model.new_residue("new", "a", len(model.residues)+1)
                rescol.residues[0].update_chix(res)
                run(self.session, "select add %s" % " ".join([atom.atomspec for atom in res.atoms]))
    
    def do_new_lig(self):
        ligands = self.ligname.text()
        
        for lig in ligands.split(","):
            lig = lig.strip()
            
            rescol = ResidueCollection(Component(lig))
        
            model = self.lig_model_selector.currentData()
            if model is None:
                chix = rescol.get_chimera(self.session)
                self.session.models.add([chix])
                apply_seqcrow_preset(chix, fallback="Ball-Stick-Endcap")
                self.lig_model_selector.setCurrentIndex(self.lig_model_selector.count()-1)
    
            else:
                res = model.new_residue("new", "a", len(model.residues)+1)
                rescol.residues[0].update_chix(res)
                run(self.session, "select add %s" % " ".join([atom.atomspec for atom in res.atoms]))

    def do_new_atom(self):
        element = self.element.text()
        adjust_bonds = self.change_bonds.isChecked()
        self.settings.change_bonds = adjust_bonds
        vsepr = self.vsepr.currentText()
        
        if vsepr == "do not change":
            vsepr = False
        elif vsepr == "linear (1 bond)":
            vsepr = "linear 1"
        elif vsepr == "linear (2 bonds)":
            vsepr = "linear 2"
        elif vsepr == "trigonal planar (2 bonds)":
            vsepr = "bent 2 planar"
        elif vsepr == "tetrahedral (2 bonds)":
            vsepr = "bent 2 tetrahedral"
        elif vsepr == "tetrahedral (3 bonds)":
            vsepr = "bent 3 tetrahedral"
        
        if vsepr:
            atoms = Atom.get_shape(vsepr)
            atoms[0].element = element
            for atom in atoms[1:]:
                atom.element = "H"
            if adjust_bonds:
                # this works b/c all atoms are 1 angstrom from the center
                # just multiply by the distance we want
                expected_dist = RADII[element] + RADII["H"]
                for atom in atoms[1:]:
                    atom.coords *= expected_dist
            for atom in atoms[1:]:
                atoms[0].connected.add(atom)
                atom.connected.add(atoms[0])
        else:
            atoms = [Atom(element=element, coords=np.zeros(3))]

        rescol = ResidueCollection(atoms, name="new", refresh_connected=False)

        model = self.model_selector.currentData()
        if model is None:
            chix = rescol.get_chimera(self.session)
            self.session.models.add([chix])
            apply_seqcrow_preset(chix, fallback="Ball-Stick-Endcap")
            self.model_selector.setCurrentIndex(self.model_selector.count()-1)

        else:
            res = model.new_residue("new", "a", len(model.residues)+1)
            rescol.residues[0].update_chix(res)
            run(self.session, "select add %s" % " ".join([atom.atomspec for atom in res.atoms]))
    
    def delete_atoms(self, *args):
        atoms = selected_atoms(self.session)
        for atom in atoms:
            atom.delete()
    
    def delete(self):
        self.ring_model_selector.deleteLater()
        self.lig_model_selector.deleteLater()
        self.model_selector.deleteLater()

        return super().delete()    
    
    def close(self):
        self.ring_model_selector.deleteLater()
        self.lig_model_selector.deleteLater()
        self.model_selector.deleteLater()

        return super().close()
class TestRunner(ToolInstance):
    def __init__(self, session, name):
        super().__init__(session, name)
        self.tool_window = MainToolWindow(self)

        self._build_ui()

    def _build_ui(self):
        """
        ui should have:
            * table with a list of available tests and show results after they are done
            * way to filter tests
            * button to run tests
        """
        layout = QFormLayout()

        # table to list test classes and the results
        self.table = QTableWidget()
        self.table.setColumnCount(2)
        self.table.setHorizontalHeaderLabels(["test", "result"])
        self.table.horizontalHeader().setSectionResizeMode(
            0,
            self.table.horizontalHeader().Interactive)
        self.table.setEditTriggers(QTableWidget.NoEditTriggers)
        self.table.horizontalHeader().setSectionResizeMode(
            1,
            self.table.horizontalHeader().Stretch)
        self.table.setSizePolicy(QSizePolicy.MinimumExpanding,
                                 QSizePolicy.MinimumExpanding)
        self.table.setSelectionBehavior(self.table.SelectRows)
        layout.addRow(self.table)

        self.filter = QLineEdit()
        self.filter.setPlaceholderText("filter test names")
        self.filter.setClearButtonEnabled(True)
        self.filter.textChanged.connect(self.apply_filter)
        layout.addRow(self.filter)

        self.profile = QCheckBox()
        self.profile.setToolTip("profile functions called during testing "
                                "using cProfile")
        layout.addRow("profile calls:", self.profile)

        self.run_button = QPushButton("run tests")
        self.run_button.clicked.connect(self.run_tests)
        self.run_button.setToolTip(
            "if no tests are selected on the table, run all tests\n" +
            "otherwise, run selected tests")
        layout.addRow(self.run_button)

        self.fill_table()
        self.table.resizeColumnToContents(0)

        self.tool_window.ui_area.setLayout(layout)

        self.tool_window.manage(None)

    def apply_filter(self, text=None):
        """filter table to only show tests matching text"""
        if text is None:
            text = self.filter.text()

        if text:
            text = text.replace("(", "\(")
            text = text.replace(")", "\)")
            m = QRegularExpression(text)
            m.setPatternOptions(QRegularExpression.CaseInsensitiveOption)
            if m.isValid():
                m.optimize()
                filter = lambda row_num: m.match(
                    self.table.item(row_num, 0).text()).hasMatch()
            else:
                return

        else:
            filter = lambda row: True

        for i in range(0, self.table.rowCount()):
            self.table.setRowHidden(i, not filter(i))

    def fill_table(self):
        """adds test names to the table"""
        mgr = self.session.test_manager

        for name in mgr.tests.keys():
            row = self.table.rowCount()
            self.table.insertRow(row)
            test_name = QTableWidgetItem()
            test_name.setData(Qt.DisplayRole, name)
            self.table.setItem(row, 0, test_name)

    def run_tests(self):
        """run the tests selected on the table and show the results"""
        from TestManager.commands.test import test

        test_list = []

        use_selected = True
        for row in self.table.selectionModel().selectedRows():
            if self.table.isRowHidden(row.row()):
                continue

            test_name = self.table.item(row.row(), 0).text()
            test_list.append(test_name)

        if not test_list:
            use_selected = False
            for i in range(0, self.table.rowCount()):
                if self.table.isRowHidden(i):
                    continue

                test_name = self.table.item(i, 0).text()
                test_list.append(test_name)

            if not test_list:
                test_list = ["all"]

        results, stats = test(self.session,
                              test_list,
                              profile=self.profile.checkState() == Qt.Checked)

        cell_widgets = []

        for name in results:
            widget = QWidget()
            widget_layout = QHBoxLayout(widget)
            widget_layout.setContentsMargins(0, 0, 0, 0)

            success_button = get_button("success")
            fail_button = get_button("fail")
            skip_button = get_button("skip")
            error_button = get_button("error")
            expected_fail_button = get_button("expected fail")
            unexpected_success_button = get_button("unexpected success")

            success_count = 0
            fail_count = 0
            error_count = 0
            unexpected_success_count = 0
            expected_fail_count = 0
            skip_count = 0

            success_tooltip = "Successes:\n"
            fail_tooltip = "Failed tests:\n"
            error_tooltip = "Errors during test:\n"
            unexpected_success_tooltip = "Unexpected successes:\n"
            expected_fail_tooltip = "Expected fails:\n"
            skip_tooltip = "Skipped tests:\n"

            for case in results[name]:
                result, msg = results[name][case]
                if result == "success":
                    success_count += 1
                    success_tooltip += "%s.%s: %s\n" % (
                        case.__class__.__qualname__, case._testMethodName, msg)

                elif result == "fail":
                    fail_count += 1
                    fail_tooltip += "%s.%s failed: %s\n" % (
                        case.__class__.__qualname__, case._testMethodName, msg)

                elif result == "error":
                    error_count += 1
                    error_tooltip += "error during %s.%s: %s\n" % (
                        case.__class__.__qualname__, case._testMethodName, msg)

                elif result == "expected_failure":
                    expected_fail_count += 1
                    expected_fail_tooltip += "intended failure during %s.%s: %s\n" % (
                        case.__class__.__qualname__, case._testMethodName, msg)

                elif result == "skip":
                    skip_count += 1
                    skip_tooltip += "%s.%s\n" % (case.__class__.__qualname__,
                                                 case._testMethodName)

                elif result == "unexpected_success":
                    unexpected_success_count += 1
                    unexpected_success_tooltip += "%s.%s should not have worked, but did\n" % (
                        case.__class__.__qualname__, case._testMethodName)

            success_tooltip = success_tooltip.strip()
            fail_tooltip = fail_tooltip.strip()
            error_tooltip = error_tooltip.strip()
            expected_fail_tooltip = expected_fail_tooltip.strip()
            skip_tooltip = skip_tooltip.strip()
            unexpected_success_tooltip = unexpected_success_tooltip.strip()

            icon_count = 0
            if success_count:
                success_button.setText("%i" % success_count)
                success_button.setToolTip(success_tooltip)
                success_button.clicked.connect(
                    lambda *args, t_name=name, res=success_tooltip: self.
                    tool_window.create_child_window(
                        "successes for %s" % t_name,
                        text=res,
                        window_class=ResultsWindow,
                    ))
                widget_layout.insertWidget(icon_count, success_button, 1)
                icon_count += 1

            if fail_count:
                fail_button.setText("%i" % fail_count)
                fail_button.setToolTip(fail_tooltip)
                fail_button.clicked.connect(
                    lambda *args, res=fail_tooltip: self.tool_window.
                    create_child_window(
                        "failures for %s" % name,
                        text=res,
                        window_class=ResultsWindow,
                    ))
                widget_layout.insertWidget(icon_count, fail_button, 1)
                icon_count += 1

            if error_count:
                error_button.setText("%i" % error_count)
                error_button.setToolTip(error_tooltip)
                error_button.clicked.connect(
                    lambda *args, res=error_tooltip: self.tool_window.
                    create_child_window(
                        "errors for %s" % name,
                        text=res,
                        window_class=ResultsWindow,
                    ))
                widget_layout.insertWidget(icon_count, error_button, 1)
                icon_count += 1

            if unexpected_success_count:
                unexpected_success_button.setText("%i" %
                                                  unexpected_success_count)
                unexpected_success_button.setToolTip(
                    unexpected_success_tooltip)
                unexpected_success_button.clicked.connect(
                    lambda *args, res=unexpected_success_tooltip: self.
                    tool_window.create_child_window(
                        "unexpected successes for %s" % name,
                        text=res,
                        window_class=ResultsWindow,
                    ))
                widget_layout.insertWidget(icon_count,
                                           unexpected_success_button, 1)
                icon_count += 1

            if expected_fail_count:
                expected_fail_button.setText("%i" % expected_fail_count)
                expected_fail_button.setToolTip(expected_fail_tooltip)
                expected_fail_button.clicked.connect(
                    lambda *args, res=expected_fail_tooltip: self.tool_window.
                    create_child_window(
                        "expected failures for %s" % name,
                        text=res,
                        window_class=ResultsWindow,
                    ))
                widget_layout.insertWidget(icon_count, expected_fail_button, 1)
                icon_count += 1

            if skip_count:
                skip_button.setText("%i" % skip_count)
                skip_button.setToolTip(skip_tooltip)
                skip_button.clicked.connect(
                    lambda *args, res=skip_tooltip: self.tool_window.
                    create_child_window(
                        "skipped tests for %s" % name,
                        text=res,
                        window_class=ResultsWindow,
                    ))
                widget_layout.insertWidget(icon_count, skip_button, 1)

            cell_widgets.append(widget)

        widget_count = 0
        if use_selected:
            for row in self.table.selectionModel().selectedRows():
                if self.table.isRowHidden(row.row()):
                    continue

                self.table.setCellWidget(row.row(), 1,
                                         cell_widgets[widget_count])
                self.table.resizeRowToContents(row.row())
                widget_count += 1

        else:
            for i in range(0, self.table.rowCount()):
                if self.table.isRowHidden(i):
                    continue

                self.table.setCellWidget(i, 1, cell_widgets[widget_count])
                # self.table.resizeRowToContents(i)
                widget_count += 1

        if self.profile.checkState() == Qt.Checked:
            self.tool_window.create_child_window("stats",
                                                 text=stats,
                                                 window_class=ResultsWindow)
Exemple #17
0
class EditableTabBar(QTabBar, object):
    """
    Basic implementation of an editable tab bar
    """

    addTabClicked = Signal()
    tabRenamed = Signal(object, object, object)

    def __init__(self, parent=None):
        super(EditableTabBar, self).__init__(parent=parent)

        self._is_editable = True

        self._editor = QLineEdit(self)
        self._editor.setWindowFlags(Qt.Popup)
        self._editor.setFocusProxy(self)
        self._editor.editingFinished.connect(self.handle_editing_finished)
        self._editor.installEventFilter(self)

        self.add_tab_btn = EditableAddButton(parent=self)
        self._move_add_tab_btn()

        self.setDrawBase(False)

        self.add_tab_btn.clicked.connect(self.addTabClicked.emit)

    def is_editable(self):
        """
        Returns whether the tab bar enables rename mode when the user double clicks on the tab
        :return: bool
        """

        return self._is_editable

    def set_is_editable(self, flag):
        """
        Sets whether the tabs are editable or not
        :param flag: bool
        """

        self._is_editable = bool(flag)

    def edit_tab(self, index):
        """
        Function that is called when the tab is going to be edited
        :param index:
        :return:
        """

        if not self._is_editable:
            return

        rect = self.tabRect(index)
        self._editor.setFixedSize(rect.size())
        self._editor.move(self.parent().mapToGlobal(rect.topLeft()))
        self._editor.setText(self.tabText(index))
        self._editor.selectAll()
        if not self._editor.isVisible():
            self._editor.show()

    def handle_editing_finished(self):
        """
        Function that is called when the tab edit has been completed
        """

        index = self.currentIndex()
        if index >= 0:
            self._editor.hide()
            for i in range(self.count()):
                if self.tabText(i) == self._editor.text():
                    LOGGER.warning(
                        'Impossible to rename category because exists a tab with the same name!'
                    )
                    return
            old_name = self.tabText(index)
            self.setTabText(index, self._editor.text())
            self.tabRenamed.emit(index, self.tabText(index), old_name)

    def sizeHint(self):
        """
        Return the size of the tab bar with increased width for the add tab button
        :return: QSize, size of the tab bar
        """

        size_hint = super(EditableTabBar, self).sizeHint()
        return QSize(size_hint.width() + 25, size_hint.height())

    def resizeEvent(self, event):
        """
        Resize the widget and make sure the add tab button is in the correct location
        """

        super(EditableTabBar, self).resizeEvent(event)
        self._move_add_tab_btn()

    def tabLayoutChange(self):
        """
        This virtual handler is called whenever the tab layout changes.
        If anything changes make sure the add char btn is in the correct location
        """

        super(EditableTabBar, self).tabLayoutChange()
        self._move_add_tab_btn()

    def eventFilter(self, widget, event):
        if ((event.type() == QEvent.MouseButtonPress
             and not self._editor.geometry().contains(event.globalPos()))
                or (event.type() == QEvent.KeyPress
                    and event.key() == Qt.Key_Escape)):
            self._editor.hide()
            return True
        return QTabBar.eventFilter(self, widget, event)

    def mouseDoubleClickEvent(self, event):
        index = self.tabAt(event.pos())
        if index >= 0:
            if not self._is_editable:
                return
            self.edit_tab(index)

    def _move_add_tab_btn(self):
        """
        Move the add tab button to the correct location
        """

        # Find the width of all of the tabs
        size = sum([self.tabRect(i).width() for i in range(self.count())])
        # Set the add tab button location in a visible area
        h = self.geometry().top()
        w = self.width()
        if size > w:
            self.add_tab_btn.move(w - 50, h)
        else:
            self.add_tab_btn.move(size, h)
Exemple #18
0
class LibAdd(ToolInstance):

    help = "https://github.com/QChASM/SEQCROW/wiki/Add-to-Personal-Library-Tool"
    SESSION_ENDURING = False
    SESSION_SAVE = False

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

        from chimerax.ui import MainToolWindow
        self.tool_window = MainToolWindow(self)

        self.key_atomspec = []

        self._build_ui()

    def _build_ui(self):
        layout = QGridLayout()

        library_tabs = QTabWidget()

        #ligand tab
        ligand_tab = QWidget()
        ligand_layout = QFormLayout(ligand_tab)

        self.ligand_name = QLineEdit()
        self.ligand_name.setText("")
        self.ligand_name.setPlaceholderText("leave blank to preview")
        self.ligand_name.setToolTip(
            "name of ligand you are adding to your ligand library\nleave blank to open a new model with just the ligand"
        )
        ligand_layout.addRow("ligand name:", self.ligand_name)

        ligand_key_atoms = QPushButton("set key atoms to current selection")
        ligand_key_atoms.clicked.connect(self.update_key_atoms)
        ligand_key_atoms.setToolTip(
            "the current selection will be the key atoms for the ligand\nleave blank to automatically determine key atoms"
        )
        ligand_layout.addRow(ligand_key_atoms)

        libadd_ligand = QPushButton("add current selection to library")
        libadd_ligand.clicked.connect(self.libadd_ligand)
        ligand_layout.addRow(libadd_ligand)

        #substituent tab
        sub_tab = QWidget()
        sub_layout = QFormLayout(sub_tab)

        self.sub_name = QLineEdit()
        self.sub_name.setText("")
        self.sub_name.setPlaceholderText("leave blank to preview")
        self.sub_name.setToolTip(
            "name of substituent you are adding to your substituent library\nleave blank to open a new model with just the substituent"
        )
        sub_layout.addRow("substituent name:", self.sub_name)

        self.sub_confs = QSpinBox()
        self.sub_confs.setMinimum(1)
        sub_layout.addRow("number of conformers:", self.sub_confs)

        self.sub_angle = QSpinBox()
        self.sub_angle.setRange(0, 180)
        self.sub_angle.setSingleStep(30)
        sub_layout.addRow("angle between conformers:", self.sub_angle)

        libadd_sub = QPushButton("add current selection to library")
        libadd_sub.clicked.connect(self.libadd_substituent)
        sub_layout.addRow(libadd_sub)

        #ring tab
        ring_tab = QWidget()
        ring_layout = QFormLayout(ring_tab)

        self.ring_name = QLineEdit()
        self.ring_name.setText("")
        self.ring_name.setPlaceholderText("leave blank to preview")
        self.ring_name.setToolTip(
            "name of ring you are adding to your ring library\nleave blank to open a new model with just the ring"
        )
        ring_layout.addRow("ring name:", self.ring_name)

        libadd_ring = QPushButton("add ring with selected walk to library")
        libadd_ring.clicked.connect(self.libadd_ring)
        ring_layout.addRow(libadd_ring)

        library_tabs.addTab(sub_tab, "substituent")
        library_tabs.addTab(ring_tab, "ring")
        library_tabs.addTab(ligand_tab, "ligand")
        self.library_tabs = library_tabs

        layout.addWidget(library_tabs)

        whats_this = QLabel()
        whats_this.setText(
            "<a href=\"req\" style=\"text-decoration: none;\">what's this?</a>"
        )
        whats_this.setTextFormat(Qt.RichText)
        whats_this.setTextInteractionFlags(Qt.TextBrowserInteraction)
        whats_this.linkActivated.connect(self.open_link)
        whats_this.setToolTip(
            "click for more information about AaronTools libraries")
        layout.addWidget(whats_this)

        self.tool_window.ui_area.setLayout(layout)

        self.tool_window.manage(None)

    def update_key_atoms(self):
        selection = selected_atoms(self.session)
        if not selection.single_structure:
            raise RuntimeError("selected atoms must be on the same model")

        else:
            self.key_atomspec = selection

        self.tool_window.status("key atoms set to %s" %
                                " ".join(atom.atomspec for atom in selection))

    def libadd_ligand(self):
        """add ligand to library or open it in a new model"""
        selection = selected_atoms(self.session)

        if not selection.single_structure:
            raise RuntimeError("selected atoms must be on the same model")

        rescol = ResidueCollection(selection[0].structure)
        ligand_atoms = [
            atom for atom in rescol.atoms if atom.chix_atom in selection
        ]

        key_chix_atoms = [
            atom for atom in self.key_atomspec if not atom.deleted
        ]
        if len(key_chix_atoms) < 1:
            key_atoms = set([])
            for atom in ligand_atoms:
                for atom2 in atom.connected:
                    if atom2 not in ligand_atoms:
                        key_atoms.add(atom)

        else:
            key_atoms = rescol.find(
                [AtomSpec(atom.atomspec) for atom in key_chix_atoms])

        if len(key_atoms) < 1:
            raise RuntimeError("no key atoms could be determined")

        lig_name = self.ligand_name.text()
        ligand = Component(ligand_atoms, name=lig_name, key_atoms=key_atoms)
        ligand.comment = "K:%s" % ",".join(
            [str(ligand.atoms.index(atom) + 1) for atom in key_atoms])

        if len(lig_name) == 0:
            chimerax_ligand = ResidueCollection(ligand).get_chimera(
                self.session)
            chimerax_ligand.name = "ligand preview"
            self.session.models.add([chimerax_ligand])
            bild_obj = key_atom_highlight(ligand, [0.2, 0.5, 0.8, 0.5],
                                          self.session)
            self.session.models.add(bild_obj, parent=chimerax_ligand)

        else:
            check_aaronlib_dir()
            filename = os.path.join(AARONLIB, "Ligands", lig_name + ".xyz")
            if os.path.exists(filename):
                exists_warning = QMessageBox()
                exists_warning.setIcon(QMessageBox.Warning)
                exists_warning.setText(
                    "%s already exists.\nWould you like to overwrite?" %
                    filename)
                exists_warning.setStandardButtons(QMessageBox.Yes
                                                  | QMessageBox.No)

                rv = exists_warning.exec_()
                if rv == QMessageBox.Yes:
                    ligand.write(outfile=filename)
                    self.tool_window.status("%s added to ligand library" %
                                            lig_name)

                else:
                    self.tool_window.status(
                        "%s has not been added to ligand library" % lig_name)

            else:
                ligand.write(outfile=filename)
                self.tool_window.status("%s added to ligand library" %
                                        lig_name)

    def libadd_ring(self):
        """add ring to library or open it in a new model"""
        selection = self.session.seqcrow_ordered_selection_manager.selection

        if not selection.single_structure:
            raise RuntimeError("selected atoms must be on the same model")

        rescol = ResidueCollection(selection[0].structure)
        walk_atoms = rescol.find(
            [AtomSpec(atom.atomspec) for atom in selection])

        if len(walk_atoms) < 1:
            raise RuntimeError("no walk direction could be determined")

        ring_name = self.ring_name.text()
        ring = Ring(rescol, name=ring_name, end=walk_atoms)
        ring.comment = "E:%s" % ",".join(
            [str(rescol.atoms.index(atom) + 1) for atom in walk_atoms])

        if len(ring_name) == 0:
            chimerax_ring = ResidueCollection(ring).get_chimera(self.session)
            chimerax_ring.name = "ring preview"
            self.session.models.add([chimerax_ring])
            bild_obj = show_walk_highlight(ring, chimerax_ring,
                                           [0.9, 0.4, 0.3, 0.9], self.session)
            self.session.models.add(bild_obj, parent=chimerax_ring)

        else:
            check_aaronlib_dir()
            filename = os.path.join(AARONLIB, "Rings", ring_name + ".xyz")
            if os.path.exists(filename):
                exists_warning = QMessageBox()
                exists_warning.setIcon(QMessageBox.Warning)
                exists_warning.setText(
                    "%s already exists.\nWould you like to overwrite?" %
                    filename)
                exists_warning.setStandardButtons(QMessageBox.Yes
                                                  | QMessageBox.No)

                rv = exists_warning.exec_()
                if rv == QMessageBox.Yes:
                    ring.write(outfile=filename)
                    self.tool_window.status("%s added to ring library" %
                                            ring_name)

                else:
                    self.tool_window.status(
                        "%s has not been added to ring library" % ring_name)

            else:
                ring.write(outfile=filename)
                self.tool_window.status("%s added to ring library" % ring_name)

    def libadd_substituent(self):
        """add ligand to library or open it in a new model"""
        selection = selected_atoms(self.session)

        if not selection.single_structure:
            raise RuntimeError("selected atoms must be on the same model")

        residues = []
        for atom in selection:
            if atom.residue not in residues:
                residues.append(atom.residue)

        rescol = ResidueCollection(selection[0].structure,
                                   convert_residues=residues)

        substituent_atoms = [
            atom for atom in rescol.atoms if atom.chix_atom in selection
        ]

        start = None
        avoid = None
        for atom in substituent_atoms:
            for atom2 in atom.connected:
                if atom2 not in substituent_atoms:
                    if start is None:
                        start = atom
                        avoid = atom2
                    else:
                        raise RuntimeError(
                            "substituent must only have one connection to the molecule"
                        )

        if start is None:
            raise RuntimeError(
                "substituent is not connected to a larger molecule")

        substituent_atoms.remove(start)
        substituent_atoms.insert(0, start)

        sub_name = self.sub_name.text()
        confs = self.sub_confs.value()
        angle = self.sub_angle.value()

        comment = "CF:%i,%i" % (confs, angle)
        if len(sub_name) == 0:
            sub = Substituent(substituent_atoms,
                              name="test",
                              conf_num=confs,
                              conf_angle=angle)
        else:
            sub = Substituent(substituent_atoms,
                              name=sub_name,
                              conf_num=confs,
                              conf_angle=angle)

        sub.comment = comment

        #align substituent bond to x axis
        sub.coord_shift(-avoid.coords)
        x_axis = np.array([1., 0., 0.])
        n = np.linalg.norm(start.coords)
        vb = start.coords / n
        d = np.linalg.norm(vb - x_axis)
        theta = np.arccos((d**2 - 2) / -2)
        vx = np.cross(vb, x_axis)
        sub.rotate(vx, theta)

        add = False
        if len(sub_name) == 0:
            chimerax_sub = ResidueCollection(sub).get_chimera(self.session)
            chimerax_sub.name = "substituent preview"
            self.session.models.add([chimerax_sub])
            bild_obj = ghost_connection_highlight(
                sub, [0.60784, 0.145098, 0.70196, 0.5], self.session)
            self.session.models.add(bild_obj, parent=chimerax_sub)

        else:
            check_aaronlib_dir()
            filename = os.path.join(AARONLIB, "Subs", sub_name + ".xyz")
            if os.path.exists(filename):
                exists_warning = QMessageBox()
                exists_warning.setIcon(QMessageBox.Warning)
                exists_warning.setText(
                    "%s already exists.\nWould you like to overwrite?" %
                    filename)
                exists_warning.setStandardButtons(QMessageBox.Yes
                                                  | QMessageBox.No)

                rv = exists_warning.exec_()
                if rv == QMessageBox.Yes:
                    add = True

                else:
                    self.tool_window.status(
                        "%s has not been added to substituent library" %
                        sub_name)

            else:
                add = True

        if add:
            sub.write(outfile=filename)
            self.tool_window.status("%s added to substituent library" %
                                    sub_name)
            register_selectors(self.session.logger, sub_name)
            if self.session.ui.is_gui:
                if (sub_name not in ELEMENTS and sub_name[0].isalpha()
                        and (len(sub_name) > 1
                             and not any(not (c.isalnum() or c in "+-")
                                         for c in sub_name[1:]))):
                    add_submenu = self.session.ui.main_window.add_select_submenu
                    add_selector = self.session.ui.main_window.add_menu_selector
                    substituent_menu = add_submenu(['Che&mistry'],
                                                   'Substituents')
                    add_selector(substituent_menu, sub_name, sub_name)

    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 open_link(self, *args):
        if self.library_tabs.currentIndex() == 0:
            link = "https://github.com/QChASM/AaronTools.py/wiki/AaronTools-Libraries#substituents"
        elif self.library_tabs.currentIndex() == 1:
            link = "https://github.com/QChASM/AaronTools.py/wiki/AaronTools-Libraries#rings"
        elif self.library_tabs.currentIndex() == 2:
            link = "https://github.com/QChASM/AaronTools.py/wiki/AaronTools-Libraries#ligands"

        run(self.session, "open %s" % link)
Exemple #19
0
class DockTitleBar(QWidget, object):
    def __init__(self, dock_widget, renamable=False):
        super(DockTitleBar, self).__init__(dock_widget)

        self._renamable = renamable

        main_layout = QHBoxLayout()
        main_layout.setContentsMargins(0, 0, 0, 1)
        self.setLayout(main_layout)

        self._buttons_box = QGroupBox('')
        self._buttons_box.setObjectName('Docked')
        self._buttons_layout = QHBoxLayout()
        self._buttons_layout.setSpacing(1)
        self._buttons_layout.setMargin(2)
        self._buttons_box.setLayout(self._buttons_layout)
        main_layout.addWidget(self._buttons_box)

        self._title_label = QLabel(self)
        self._title_label.setStyleSheet('background: transparent')
        self._title_edit = QLineEdit(self)
        self._title_edit.setVisible(False)

        self._button_size = QSize(14, 14)

        self._dock_btn = QToolButton(self)
        self._dock_btn.setIcon(resources.icon('restore_window', theme='color'))
        self._dock_btn.setMaximumSize(self._button_size)
        self._dock_btn.setAutoRaise(True)
        self._close_btn = QToolButton(self)
        self._close_btn.setIcon(resources.icon('close_window', theme='color'))
        self._close_btn.setMaximumSize(self._button_size)
        self._close_btn.setAutoRaise(True)

        self._buttons_layout.addSpacing(2)
        self._buttons_layout.addWidget(self._title_label)
        self._buttons_layout.addWidget(self._title_edit)
        self._buttons_layout.addStretch()
        self._buttons_layout.addSpacing(5)
        self._buttons_layout.addWidget(self._dock_btn)
        self._buttons_layout.addWidget(self._close_btn)

        self._buttons_box.mouseDoubleClickEvent = self.mouseDoubleClickEvent
        self._buttons_box.mousePressEvent = self.mousePressEvent
        self._buttons_box.mouseMoveEvent = self.mouseMoveEvent
        self._buttons_box.mouseReleaseEvent = self.mouseReleaseEvent

        dock_widget.featuresChanged.connect(self._on_dock_features_changed)
        self._title_edit.editingFinished.connect(self._on_finish_edit)
        self._dock_btn.clicked.connect(self._on_dock_btn_clicked)
        self._close_btn.clicked.connect(self._on_close_btn_clicked)

        self._on_dock_features_changed(dock_widget.features())
        self.set_title(dock_widget.windowTitle())
        dock_widget.installEventFilter(self)
        dock_widget.topLevelChanged.connect(self._on_change_floating_style)

    @property
    def renamable(self):
        return self._renamable

    @renamable.setter
    def renamable(self, flag):
        self._renamable = flag

    def eventFilter(self, obj, event):
        if event.type() == QEvent.WindowTitleChange:
            self.set_title(obj.windowTitle())
        return super(DockTitleBar, self).eventFilter(obj, event)

    def mouseMoveEvent(self, event):
        event.ignore()

    def mousePressEvent(self, event):
        event.ignore()

    def mouseReleaseEvent(self, event):
        event.ignore()

    def mouseDoubleClickEvent(self, event):
        if event.pos().x() <= self._title_label.width() and self._renamable:
            self._start_edit()
        else:
            super(DockTitleBar, self).mouseDoubleClickEvent(event)

    def update(self, *args, **kwargs):
        self._on_change_floating_style(self.parent().isFloating())
        super(DockTitleBar, self).update(*args, **kwargs)

    def set_title(self, title):
        self._title_label.setText(title)
        self._title_edit.setText(title)

    def add_button(self, button):
        button.setAutoRaise(True)
        button.setMaximumSize(self._button_size)
        self._buttons_layout.insertWidget(5, button)

    def _start_edit(self):
        self._title_label.hide()
        self._title_edit.show()
        self._title_edit.setFocus()

    def _finish_edit(self):
        self._title_edit.hide()
        self._title_label.show()
        self.parent().setWindowTitle(self._title_edit.text())

    def _on_dock_features_changed(self, features):
        if not features & QDockWidget.DockWidgetVerticalTitleBar:
            self._close_btn.setVisible(features
                                       & QDockWidget.DockWidgetClosable)
            self._dock_btn.setVisible(features
                                      & QDockWidget.DockWidgetFloatable)
        else:
            raise ValueError('Vertical title bar is not supported!')

    def _on_finish_edit(self):
        self._finish_edit()

    def _on_dock_btn_clicked(self):
        self.parent().setFloating(not self.parent().isFloating())

    def _on_close_btn_clicked(self):
        self.parent().toggleViewAction().setChecked(False)
        self.parent().close()

    def _on_change_floating_style(self, state):
        pass
Exemple #20
0
class SubstituentTable(QWidget):
    def __init__(self, parent=None, singleSelect=False):
        super().__init__(parent)

        layout = QGridLayout(self)

        self.table = QTableWidget()

        self.table.setColumnCount(3)
        self.table.setHorizontalHeaderLabels(
            ['name', 'conformers', 'conf. angle'])

        self.add_subs()

        for i in range(0, 3):
            self.table.resizeColumnToContents(i)

        self.table.horizontalHeader().setStretchLastSection(False)
        self.table.horizontalHeader().setSectionResizeMode(
            0, QHeaderView.Fixed)
        self.table.horizontalHeader().setSectionResizeMode(
            1, QHeaderView.Fixed)
        self.table.horizontalHeader().setSectionResizeMode(
            2, QHeaderView.Stretch)

        self.table.setSortingEnabled(True)
        self.table.setSelectionBehavior(QTableWidget.SelectRows)
        if singleSelect:
            self.table.setSelectionMode(QTableWidget.SingleSelection)
        self.table.setEditTriggers(QTableWidget.NoEditTriggers)

        self.filterEdit = QLineEdit()
        self.filterEdit.textChanged.connect(self.apply_filter)
        self.filterEdit.setClearButtonEnabled(True)

        self.filter_columns = QComboBox()
        self.filter_columns.addItem("name")
        self.filter_columns.addItem("conformers")
        self.filter_columns.addItem("conf. angle")
        self.filter_columns.currentTextChanged.connect(
            self.change_filter_method)

        self.name_regex_option = QComboBox()
        self.name_regex_option.addItem("case-insensitive")
        self.name_regex_option.addItem("case-sensitive")
        self.name_regex_option.currentTextChanged.connect(self.apply_filter)
        self.name_regex_option.setVisible(
            self.filter_columns.currentText() == "name")

        layout.addWidget(self.table, 0, 0, 1, 4)
        layout.addWidget(QLabel("filter based on"), 1, 0)
        layout.addWidget(self.filter_columns, 1, 1)
        layout.addWidget(self.name_regex_option, 1, 2)
        layout.addWidget(self.filterEdit, 1, 3)

        self.change_filter_method("name")

    def change_filter_method(self, text):
        if text == "name":
            self.filterEdit.setToolTip("name regex")
            self.name_regex_option.setVisible(True)
        elif text == "conformers":
            self.filterEdit.setToolTip("number of conformers")
            self.name_regex_option.setVisible(False)
        elif text == "conf. angle":
            self.filterEdit.setToolTip("angle between conformers")
            self.name_regex_option.setVisible(False)

        self.apply_filter()

    def apply_filter(self, *args):
        text = self.filterEdit.text()
        if text:
            if self.filter_columns.currentText() == "name":
                m = QRegularExpression(text)
                if m.isValid():
                    if self.name_regex_option.currentText(
                    ) == "case-insensitive":
                        m.setPatternOptions(
                            QRegularExpression.CaseInsensitiveOption)

                    m.optimize()
                    filter = lambda row_num: m.match(
                        self.table.item(row_num, 0).text()).hasMatch()
                else:
                    return

            elif self.filter_columns.currentText() == "conformers":
                if text.isdigit():
                    filter = lambda row_num: int(
                        self.table.item(row_num, 1).text()) == int(text)
                else:
                    filter = lambda row: True

            elif self.filter_columns.currentText() == "conf. angle":
                if text.isdigit():
                    filter = lambda row_num: int(
                        self.table.item(row_num, 2).text()) == int(text)
                else:
                    filter = lambda row: True

        else:
            filter = lambda row: True

        for i in range(0, self.table.rowCount()):
            self.table.setRowHidden(i, not filter(i))

    def add_subs(self):
        from AaronTools.substituent import Substituent

        names = []

        for lib in [Substituent.AARON_LIBS, Substituent.BUILTIN]:
            if not os.path.exists(lib):
                continue
            for ring in os.listdir(lib):
                name, ext = os.path.splitext(ring)
                if not any(".%s" % x == ext for x in read_types):
                    continue

                if name in names:
                    continue

                names.append(name)

                geom = Geometry(
                    os.path.join(lib, ring),
                    refresh_connected=False,
                    refresh_ranks=False,
                )

                conf_info = re.search(r"CF:(\d+),(\d+)", geom.comment)

                row = self.table.rowCount()
                self.table.insertRow(row)
                self.table.setItem(row, 0, QTableWidgetItem(name))

                #the next two items are integers - need to initialize then setData so they sort and display correctly
                conf_num = QTableWidgetItem()
                conf_num.setData(Qt.DisplayRole, conf_info.group(1))
                self.table.setItem(row, 1, conf_num)

                conf_angle = QTableWidgetItem()
                conf_angle.setData(Qt.DisplayRole, conf_info.group(2))
                self.table.setItem(row, 2, conf_angle)

        self.substituent_list = names
class RowTableWidget(QFrame):
    double_clicked = Signal(object)

    def __init__(self,
        auto_resize=False,
        single_row_select=True,
        context_menu_callback=None,
        last_column_stretch=True,
        has_counters=False,
        parent=None
    ):
        QFrame.__init__(self, parent)
        self._has_counters = has_counters

        self.model = None

        self.table_view = RowTableView(auto_resize, single_row_select, context_menu_callback, last_column_stretch)
        self.table_view.doubleClicked.connect(self._double_clicked)

        if has_counters:
            self.counters = Counters()
            self.counters.button_clicked.connect(self._counter_clicked)

        self.search_bar = QLineEdit()
        self.search_bar.setFixedHeight(SEARCHBAR_HEIGHT)
        self.search_bar.textChanged.connect(self.set_search_text)
        self.search_bar.setToolTip("Search bar")

        self.auto_size_button = QPushButton('<>')
        self.auto_size_button.setFixedSize(SEARCHBAR_HEIGHT, SEARCHBAR_HEIGHT)
        self.auto_size_button.clicked.connect(self._auto_size_clicked)
        self.auto_size_button.setToolTip("Auto size")

        self.status_label = QLabel(STATUS_LABEL_MESSAGE.format(0, 0))
        self.status_label.setFixedWidth(STATUS_LABEL_WIDTH)

        self.progress_bar = QProgressBar()
        self.progress_bar.setFormat('')

        layout = QGridLayout()

        layout.addWidget(self.search_bar, 0, 0, 1, 3)
        layout.addWidget(self.auto_size_button, 0, 3)
        if has_counters:
            layout.addWidget(self.counters, 1, 0, 1, 2)
            layout.addWidget(self.table_view, 1, 2, 1, 2)
        else:
            layout.addWidget(self.table_view, 1, 0, 1, 4)
        layout.addWidget(self.status_label, 2, 0)
        layout.addWidget(self.progress_bar, 2, 1, 1, 3)
        layout.setColumnStretch(2, 100)

        self.setLayout(layout)

    def set_model(self, model):
        self.model = model
        self.table_view.setModel(model)

        model.modelReset.connect(self._set_progress_maximum)
        model.modelReset.connect(self._update_status)
        if self._has_counters:
            model.modelReset.connect(self._update_counters)
            self._update_counters()
        model.progress_updated.connect(self._update_progress)

        self._set_progress_maximum()
        self._update_status()
        self.progress_bar.setVisible(model.has_background_callback)

    @property
    def selected_rows(self):
        return [self.model.data(index, Qt.UserRole) for index
                in self.table_view.selectionModel().selectedIndexes() if index.column() == 0]

    @property
    def search_text(self):
        return self.search_bar.text()

    def set_search_text(self, text):
        self.search_bar.blockSignals(True)
        self.search_bar.setText(text)
        self.search_bar.blockSignals(False)
        self.model.set_search_text(text)

    def _set_progress_maximum(self):
        self.progress_bar.setMaximum(self.model.progress_max)  # do better ?

    def _update_progress(self, value):
        self.progress_bar.setValue(value)

    def _update_status(self):
        self.status_label.setText(STATUS_LABEL_MESSAGE.format(
            self.model.rowCount(), self.model.total_row_count
        ))

    def _counter_clicked(self, entry, checked_buttons):
        entries = [entry for entry, active in checked_buttons.items() if active]
        self.model.set_search_counters(entries)

    def _update_counters(self):
        self.counters.set(self.model.counters)

    def _auto_size_clicked(self):
        with Hourglass():
            self.table_view.resizeColumnsToContents()

    def _double_clicked(self, index):
        row = self.model.data(index, Qt.UserRole)
        self.double_clicked.emit(row)

    def state(self):
        header_sizes = list()
        header = self.table_view.horizontalHeader()
        for section_index in range(header.count()):
            header_sizes.append(header.sectionSize(section_index))

        return {
            'header_sizes': header_sizes,
            'search_text': self.search_bar.text()
        }

    def load_state(self, state):
        header = self.table_view.horizontalHeader()
        for section_index, size in enumerate(state['header_sizes']):
            header.resizeSection(section_index, size)

        self.search_bar.setText(state['search_text'])
Exemple #22
0
class MainWindow(QMainWindow):
    def __init__(self, url):
        super().__init__()
        self.setAttribute(Qt.WA_DeleteOnClose, True)
        self.progress = 0

        f = QFile()
        f.setFileName(":/jquery.min.js")
        f.open(QIODevice.ReadOnly)
        self.jQuery = f.readAll().data().decode()
        self.jQuery += "\nvar qt = { 'jQuery': jQuery.noConflict(true) };"
        f.close()

        self.view = QWebEngineView(self)
        self.view.load(url)

        self.view.loadFinished.connect(self.adjustLocation)
        self.view.titleChanged.connect(self.adjustTitle)
        self.view.loadProgress.connect(self.setProgress)
        self.view.loadFinished.connect(self.finishLoading)

        self.locationEdit = QLineEdit(self)
        self.locationEdit.setSizePolicy(
            QSizePolicy.Expanding,
            self.locationEdit.sizePolicy().verticalPolicy())
        self.locationEdit.returnPressed.connect(self.changeLocation)

        toolBar = self.addToolBar(self.tr("Navigation"))
        toolBar.addAction(self.view.pageAction(QWebEnginePage.Back))
        toolBar.addAction(self.view.pageAction(QWebEnginePage.Forward))
        toolBar.addAction(self.view.pageAction(QWebEnginePage.Reload))
        toolBar.addAction(self.view.pageAction(QWebEnginePage.Stop))
        toolBar.addWidget(self.locationEdit)

        viewMenu = self.menuBar().addMenu(self.tr("&View"))
        viewSourceAction = QAction(self.tr("Page Source"), self)
        viewSourceAction.triggered.connect(self.viewSource)
        viewMenu.addAction(viewSourceAction)

        effectMenu = self.menuBar().addMenu(self.tr("&Effect"))
        effectMenu.addAction(self.tr("Highlight all links"),
                             self.highlightAllLinks)

        self.rotateAction = QAction(self)
        self.rotateAction.setIcon(self.style().standardIcon(
            QStyle.SP_FileDialogDetailedView))
        self.rotateAction.setCheckable(True)
        self.rotateAction.setText(self.tr("Turn images upside down"))
        self.rotateAction.toggled.connect(self.rotateImages)
        effectMenu.addAction(self.rotateAction)

        toolsMenu = self.menuBar().addMenu(self.tr("&Tools"))
        toolsMenu.addAction(self.tr("Remove GIF images"), self.removeGifImages)
        toolsMenu.addAction(self.tr("Remove all inline frames"),
                            self.removeInlineFrames)
        toolsMenu.addAction(self.tr("Remove all object elements"),
                            self.removeObjectElements)
        toolsMenu.addAction(self.tr("Remove all embedded elements"),
                            self.removeEmbeddedElements)

        self.setCentralWidget(self.view)

    @Slot()
    def adjustLocation(self):
        self.locationEdit.setText(self.view.url().toString())

    @Slot()
    def changeLocation(self):
        url = QUrl.fromUserInput(self.locationEdit.text())
        self.view.load(url)
        self.view.setFocus()

    @Slot()
    def adjustTitle(self):
        if self.progress <= 0 or self.progress >= 100:
            self.setWindowTitle(self.view.title())
        else:
            self.setWindowTitle("%s (%2d)" %
                                (self.view.title(), self.progress))

    @Slot(int)
    def setProgress(self, p):
        self.progress = p
        self.adjustTitle()

    @Slot()
    def finishLoading(self):
        self.progress = 100
        self.adjustTitle()
        self.view.page().runJavaScript(self.jQuery)
        self.rotateImages(self.rotateAction.isChecked())

    @Slot()
    def viewSource(self):
        self.textEdit = QTextEdit()
        self.textEdit.setAttribute(Qt.WA_DeleteOnClose)
        self.textEdit.adjustSize()
        self.textEdit.move(self.geometry().center() -
                           self.textEdit.rect().center())
        self.textEdit.show()

        self.view.page().toHtml(self.textEdit.setPlainText)

    @Slot()
    def highlightAllLinks(self):
        code = "qt.jQuery('a').each( function () { qt.jQuery(this).css('background-color', 'yellow') } )"
        self.view.page().runJavaScript(code)

    @Slot(bool)
    def rotateImages(self, invert):
        code = ""
        if invert:
            code = "qt.jQuery('img').each( function () { qt.jQuery(this).css('transition', 'transform 2s'); qt.jQuery(this).css('transform', 'rotate(180deg)') } )"  # noqa: E501
        else:
            code = "qt.jQuery('img').each( function () { qt.jQuery(this).css('transition', 'transform 2s'); qt.jQuery(this).css('transform', 'rotate(0deg)') } )"  # noqa: E501
        self.view.page().runJavaScript(code)

    @Slot()
    def removeGifImages(self):
        code = "qt.jQuery('[src*=gif]').remove()"
        self.view.page().runJavaScript(code)

    @Slot()
    def removeInlineFrames(self):
        code = "qt.jQuery('iframe').remove()"
        self.view.page().runJavaScript(code)

    @Slot()
    def removeObjectElements(self):
        code = "qt.jQuery('object').remove()"
        self.view.page().runJavaScript(code)

    @Slot()
    def removeEmbeddedElements(self):
        code = "qt.jQuery('embed').remove()"
        self.view.page().runJavaScript(code)
Exemple #23
0
class Info(ToolInstance):

    help = "https://github.com/QChASM/SEQCROW/wiki/File-Info-Tool"

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

        self.tool_window = MainToolWindow(self)

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

        self._build_ui()

    def _build_ui(self):
        layout = QVBoxLayout()

        self.file_selector = FilereaderComboBox(self.session)
        self.file_selector.currentIndexChanged.connect(self.fill_table)
        layout.insertWidget(0, self.file_selector, 0)

        tabs = QTabWidget()
        self.tabs = tabs
        layout.insertWidget(1, self.tabs, 1)

        general_info = QWidget()
        general_layout = QVBoxLayout(general_info)
        tabs.addTab(general_info, "general")

        self.table = QTableWidget()
        self.table.setColumnCount(2)
        self.table.setHorizontalHeaderLabels(['Data', 'Value'])
        self.table.horizontalHeader().setStretchLastSection(False)
        self.table.horizontalHeader().setSectionResizeMode(
            0, QHeaderView.Interactive)
        self.table.setEditTriggers(QTableWidget.NoEditTriggers)
        self.table.horizontalHeader().setSectionResizeMode(
            1, QHeaderView.Stretch)
        self.table.setSizePolicy(QSizePolicy.MinimumExpanding,
                                 QSizePolicy.MinimumExpanding)
        general_layout.insertWidget(1, self.table, 1)

        self.filter = QLineEdit()
        self.filter.setPlaceholderText("filter data")
        self.filter.textChanged.connect(self.apply_filter)
        self.filter.setClearButtonEnabled(True)
        general_layout.insertWidget(2, self.filter, 0)

        freq_info = QWidget()
        freq_layout = QVBoxLayout(freq_info)
        tabs.addTab(freq_info, "harmonic frequencies")

        self.freq_table = QTableWidget()
        self.freq_table.setColumnCount(4)
        self.freq_table.setHorizontalHeaderLabels([
            "Frequency (cm\u207b\u00b9)",
            "symmetry",
            "IR intensity",
            "force constant (mDyne/\u212B)",
        ])
        self.freq_table.setSortingEnabled(True)
        self.freq_table.setEditTriggers(QTableWidget.NoEditTriggers)
        for i in range(0, 4):
            self.freq_table.resizeColumnToContents(i)

        self.freq_table.horizontalHeader().setStretchLastSection(False)
        self.freq_table.horizontalHeader().setSectionResizeMode(
            0, QHeaderView.Fixed)
        self.freq_table.horizontalHeader().setSectionResizeMode(
            1, QHeaderView.Fixed)
        self.freq_table.horizontalHeader().setSectionResizeMode(
            2, QHeaderView.Fixed)
        self.freq_table.horizontalHeader().setSectionResizeMode(
            3, QHeaderView.Stretch)

        self.freq_table.setSizePolicy(QSizePolicy.MinimumExpanding,
                                      QSizePolicy.MinimumExpanding)
        freq_layout.insertWidget(1, self.freq_table, 1)

        anharm_info = QWidget()
        anharm_layout = QVBoxLayout(anharm_info)
        tabs.addTab(anharm_info, "anharmonic frequencies")

        anharm_layout.insertWidget(0, QLabel("fundamentals:"), 0)

        self.fundamental_table = QTableWidget()
        self.fundamental_table.setColumnCount(3)
        self.fundamental_table.setHorizontalHeaderLabels([
            "Fundamental (cm\u207b\u00b9)",
            "Δ\u2090\u2099\u2095 (cm\u207b\u00b9)",
            "IR intensity",
        ])
        self.fundamental_table.setSortingEnabled(True)
        self.fundamental_table.setEditTriggers(QTableWidget.NoEditTriggers)
        for i in range(0, 3):
            self.fundamental_table.resizeColumnToContents(i)

        self.fundamental_table.horizontalHeader().setStretchLastSection(False)
        self.fundamental_table.horizontalHeader().setSectionResizeMode(
            0, QHeaderView.Fixed)
        self.fundamental_table.horizontalHeader().setSectionResizeMode(
            1, QHeaderView.Fixed)
        self.fundamental_table.horizontalHeader().setSectionResizeMode(
            2, QHeaderView.Stretch)

        self.fundamental_table.setSizePolicy(QSizePolicy.MinimumExpanding,
                                             QSizePolicy.MinimumExpanding)
        anharm_layout.insertWidget(1, self.fundamental_table, 1)

        # self.overtone_table = QTableWidget()
        # self.overtone_table.setColumnCount(3)
        # self.overtone_table.setHorizontalHeaderLabels(
        #     [
        #         "Fundamental (cm\u207b\u00b9)",
        #         "Overtone (cm\u207b\u00b9)",
        #         "IR intensity",
        #     ]
        # )
        # self.overtone_table.setSortingEnabled(True)
        # self.overtone_table.setEditTriggers(QTableWidget.NoEditTriggers)
        # for i in range(0, 3):
        #     self.overtone_table.resizeColumnToContents(i)
        #
        # self.overtone_table.horizontalHeader().setStretchLastSection(False)
        # self.overtone_table.horizontalHeader().setSectionResizeMode(0, QHeaderView.Fixed)
        # self.overtone_table.horizontalHeader().setSectionResizeMode(1, QHeaderView.Fixed)
        # self.overtone_table.horizontalHeader().setSectionResizeMode(2, QHeaderView.Stretch)
        #
        # self.overtone_table.setSizePolicy(QSizePolicy.MinimumExpanding, QSizePolicy.MinimumExpanding)
        # anharm_layout.insertWidget(2, self.overtone_table, 1)

        anharm_layout.insertWidget(2, QLabel("combinations and overtones:"), 0)

        self.combo_table = QTableWidget()
        self.combo_table.setColumnCount(4)
        self.combo_table.setHorizontalHeaderLabels([
            "Fundamental (cm\u207b\u00b9)",
            "Fundamental (cm\u207b\u00b9)",
            "Combination (cm\u207b\u00b9)",
            "IR intensity",
        ])
        self.combo_table.setSortingEnabled(True)
        self.combo_table.setEditTriggers(QTableWidget.NoEditTriggers)
        for i in range(0, 3):
            self.combo_table.resizeColumnToContents(i)

        self.combo_table.horizontalHeader().setStretchLastSection(False)
        self.combo_table.horizontalHeader().setSectionResizeMode(
            0, QHeaderView.Fixed)
        self.combo_table.horizontalHeader().setSectionResizeMode(
            1, QHeaderView.Fixed)
        self.combo_table.horizontalHeader().setSectionResizeMode(
            2, QHeaderView.Fixed)
        self.combo_table.horizontalHeader().setSectionResizeMode(
            3, QHeaderView.Stretch)

        self.combo_table.setSizePolicy(QSizePolicy.MinimumExpanding,
                                       QSizePolicy.MinimumExpanding)
        anharm_layout.insertWidget(3, self.combo_table, 1)

        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)
        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)

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

        archive = QAction("Include archive if present",
                          self.tool_window.ui_area,
                          checkable=True)
        archive.triggered.connect(
            lambda checked: setattr(self.settings, "archive", checked))
        archive.triggered.connect(
            lambda *args: self.fill_table(self.file_selector.count() - 1))
        archive.setChecked(self.settings.archive)
        export.addAction(archive)

        unit = menu.addMenu("&Units")

        energy = unit.addMenu("energy")
        hartree = QAction("Hartree", self.tool_window.ui_area, checkable=True)
        hartree.setChecked(self.settings.energy == "Hartree")
        kcal = QAction("kcal/mol", self.tool_window.ui_area, checkable=True)
        kcal.setChecked(self.settings.energy == "kcal/mol")
        kjoule = QAction("kJ/mol", self.tool_window.ui_area, checkable=True)
        kjoule.setChecked(self.settings.energy == "kJ/mol")
        energy.addAction(hartree)
        energy.addAction(kcal)
        energy.addAction(kjoule)

        hartree.triggered.connect(
            lambda *args, val="Hartree": setattr(self.settings, "energy", val))
        hartree.triggered.connect(
            lambda *args: self.fill_table(self.file_selector.count() - 1))
        hartree.triggered.connect(
            lambda *args, action=kcal: action.setChecked(False))
        hartree.triggered.connect(
            lambda *args, action=kjoule: action.setChecked(False))

        kcal.triggered.connect(lambda *args, val="kcal/mol": setattr(
            self.settings, "energy", val))
        kcal.triggered.connect(
            lambda *args: self.fill_table(self.file_selector.count() - 1))
        kcal.triggered.connect(
            lambda *args, action=hartree: action.setChecked(False))
        kcal.triggered.connect(
            lambda *args, action=kjoule: action.setChecked(False))

        kjoule.triggered.connect(
            lambda *args, val="kJ/mol": setattr(self.settings, "energy", val))
        kjoule.triggered.connect(
            lambda *args: self.fill_table(self.file_selector.count() - 1))
        kjoule.triggered.connect(
            lambda *args, action=hartree: action.setChecked(False))
        kjoule.triggered.connect(
            lambda *args, action=kcal: action.setChecked(False))

        mass = unit.addMenu("mass")
        kg = QAction("kg", self.tool_window.ui_area, checkable=True)
        kg.setChecked(self.settings.mass == "kg")
        amu = QAction("Da", self.tool_window.ui_area, checkable=True)
        amu.setChecked(self.settings.mass == "Da")
        mass.addAction(kg)
        mass.addAction(amu)

        kg.triggered.connect(
            lambda *args, val="kg": setattr(self.settings, "mass", val))
        kg.triggered.connect(
            lambda *args: self.fill_table(self.file_selector.count() - 1))
        kg.triggered.connect(
            lambda *args, action=amu: action.setChecked(False))

        amu.triggered.connect(
            lambda *args, val="Da": setattr(self.settings, "mass", val))
        amu.triggered.connect(
            lambda *args: self.fill_table(self.file_selector.count() - 1))
        amu.triggered.connect(
            lambda *args, action=kg: action.setChecked(False))

        rot_const = unit.addMenu("rotational constants")
        temperature = QAction("K", self.tool_window.ui_area, checkable=True)
        temperature.setChecked(self.settings.rot_const == "K")
        hertz = QAction("GHz", self.tool_window.ui_area, checkable=True)
        hertz.setChecked(self.settings.rot_const == "GHz")
        rot_const.addAction(temperature)
        rot_const.addAction(hertz)

        temperature.triggered.connect(
            lambda *args, val="K": setattr(self.settings, "rot_const", val))
        temperature.triggered.connect(
            lambda *args: self.fill_table(self.file_selector.count() - 1))
        temperature.triggered.connect(
            lambda *args, action=hertz: action.setChecked(False))

        hertz.triggered.connect(
            lambda *args, val="GHz": setattr(self.settings, "rot_const", val))
        hertz.triggered.connect(
            lambda *args: self.fill_table(self.file_selector.count() - 1))
        hertz.triggered.connect(
            lambda *args, action=temperature: action.setChecked(False))

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

        if len(self.session.filereader_manager.list()) > 0:
            self.fill_table(0)

        self.tool_window.ui_area.setLayout(layout)

        self.tool_window.manage(None)

    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.tabs.currentIndex() == 0:
            if self.settings.include_header:
                s = delim.join(["Data", "Value"])
                s += "\n"
            else:
                s = ""

            for i in range(0, self.table.rowCount()):
                if self.table.isRowHidden(i):
                    continue
                s += delim.join([
                    item.text().replace("<sub>", "").replace("</sub>", "")
                    for item in [
                        self.table.item(i, j) if self.table.item(i, j)
                        is not None else self.table.cellWidget(i, j)
                        for j in range(0, 2)
                    ]
                ])
                s += "\n"

        elif self.tabs.currentIndex() == 1:
            if self.settings.include_header:
                s = delim.join([
                    "Frequency (cm\u207b\u00b9)", "symmetry", "IR intensity",
                    "force constant"
                ])
                s += "\n"
            else:
                s = ""

            for i in range(0, self.freq_table.rowCount()):
                if self.freq_table.isRowHidden(i):
                    continue
                s += delim.join([
                    item.text().replace("<sub>", "").replace("</sub>", "")
                    for item in [
                        self.freq_table.item(i, j) if self.freq_table.
                        item(i, j) is not None else self.freq_table.
                        cellWidget(i, j) for j in range(0, 4)
                    ]
                ])
                s += "\n"

        else:
            if self.settings.include_header:
                s = delim.join(
                    ["Fundamental (cm\u207b\u00b9)", "Δanh", "IR intensity"])
                s += "\n"
            else:
                s = ""

            for i in range(0, self.fundamental_table.rowCount()):
                if self.fundamental_table.isRowHidden(i):
                    continue
                s += delim.join([
                    item.text().replace("<sub>", "").replace("</sub>", "")
                    for item in [
                        self.fundamental_table.item(i, j) if self.
                        fundamental_table.item(i, j) is not None else self.
                        fundamental_table.cellWidget(i, j)
                        for j in range(0, 3)
                    ]
                ])
                s += "\n"

            if self.settings.include_header:
                s += delim.join([
                    "Fundamental (cm\u207b\u00b9)",
                    "Fundamental (cm\u207b\u00b9)",
                    "Combination (cm\u207b\u00b9)", "IR intensity"
                ])
                s += "\n"
            else:
                s += "\n"

            for i in range(0, self.combo_table.rowCount()):
                if self.combo_table.isRowHidden(i):
                    continue
                s += delim.join([
                    item.text().replace("<sub>", "").replace("</sub>", "")
                    for item in [
                        self.combo_table.item(i, j) if self.combo_table.
                        item(i, j) is not None else self.combo_table.
                        cellWidget(i, j) for j in range(0, 4)
                    ]
                ])
                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 fill_table(self, ndx):
        self.table.setRowCount(0)
        self.freq_table.setRowCount(0)
        self.fundamental_table.setRowCount(0)
        # self.overtone_table.setRowCount(0)
        self.combo_table.setRowCount(0)

        if ndx < 0:
            self.fundamental_table.setVisible(False)
            self.combo_table.setVisible(False)
            return

        fr = self.file_selector.currentData()
        item = QTableWidgetItem()
        item.setData(Qt.DisplayRole, "name")
        val = QTableWidgetItem()
        val.setData(Qt.DisplayRole, fr.name)
        self.table.insertRow(0)
        self.table.setItem(0, 0, item)
        self.table.setItem(0, 1, val)
        for info in fr.other.keys():
            if info == "archive" and not self.settings.archive:
                continue

            if any(
                    isinstance(fr.other[info], obj)
                    for obj in [str, float, int]):
                row = self.table.rowCount()
                self.table.insertRow(row)

                item = QTableWidgetItem()
                info_name = info.replace("_", " ")
                val = fr.other[info]
                if info == "mass":
                    info_name += " (%s)" % self.settings.mass
                    if self.settings.mass == "Da":
                        val /= UNIT.AMU_TO_KG

                elif info == "temperature":
                    info_name += " (K)"

                elif (any(info == s for s in nrg_infos)
                      or info.lower().endswith("energy")
                      or info.startswith("E(")):
                    if self.settings.energy == "Hartree":
                        info_name += " (E<sub>h</sub>)"
                    else:
                        info_name += " (%s)" % self.settings.energy
                    info_name = info_name.replace("orrelation", "orr.")
                    info_name = info_name.replace("Same-spin", "SS")
                    info_name = info_name.replace("Opposite-spin", "OS")
                    if self.settings.energy == "kcal/mol":
                        val *= UNIT.HART_TO_KCAL
                    elif self.settings.energy == "kJ/mol":
                        val *= 4.184 * UNIT.HART_TO_KCAL

                    val = "%.6f" % val

                elif info.startswith("optical rotation"):
                    info_name += " (°)"

                elif any(info == x for x in pg_infos):
                    info_name = info.replace("_", " ")
                    if re.search("\d", val):
                        val = re.sub(r"(\d+)", r"<sub>\1</sub>", val)
                    # gaussian uses * for infinity
                    val = val.replace("*", "<sub>∞</sub>")
                    # psi4 uses _inf_
                    val = val.replace("_inf_", "<sub>∞</sub>")
                    if any(val.endswith(char) for char in "vhdsiVHDSI"):
                        val = val[:-1] + "<sub>" + val[-1].lower() + "</sub>"

                if "<sub>" in info_name:
                    self.table.setCellWidget(row, 0, QLabel(info_name))
                else:
                    item = QTableWidgetItem()
                    item.setData(Qt.DisplayRole, info_name)
                    self.table.setItem(row, 0, item)

                value = QTableWidgetItem()
                val = str(val)
                if "<sub>" in val:
                    self.table.setCellWidget(row, 1, QLabel(val))
                else:
                    value.setData(Qt.DisplayRole, val)
                    self.table.setItem(row, 1, value)

            elif isinstance(fr.other[info], Theory):
                theory = fr.other[info]
                if theory.method is not None:
                    row = self.table.rowCount()
                    self.table.insertRow(row)

                    item = QTableWidgetItem()
                    item.setData(Qt.DisplayRole, "method")
                    self.table.setItem(row, 0, item)

                    value = QTableWidgetItem()
                    value.setData(Qt.DisplayRole, theory.method.name)
                    self.table.setItem(row, 1, value)

                if theory.basis is not None:
                    if theory.basis.basis:
                        for basis in theory.basis.basis:
                            row = self.table.rowCount()
                            self.table.insertRow(row)

                            item = QTableWidgetItem()
                            if not basis.elements:
                                item.setData(Qt.DisplayRole, "basis set")
                            else:
                                item.setData(
                                    Qt.DisplayRole,
                                    "basis for %s" % ", ".join(basis.elements))
                            self.table.setItem(row, 0, item)

                            value = QTableWidgetItem()
                            value.setData(Qt.DisplayRole, basis.name)
                            self.table.setItem(row, 1, value)

                    if theory.basis.ecp:
                        for ecp in theory.basis.ecp:
                            row = self.table.rowCount()
                            self.table.insertRow(row)

                            item = QTableWidgetItem()
                            if ecp.elements is None:
                                item.setData(Qt.DisplayRole, "ECP")
                            else:
                                item.setData(Qt.DisplayRole,
                                             "ECP %s" % " ".join(ecp.elements))
                            self.table.setItem(row, 0, item)

                            value = QTableWidgetItem()
                            value.setData(Qt.DisplayRole, ecp.name)
                            self.table.setItem(row, 1, value)

            elif (hasattr(fr.other[info], "__iter__")
                  and all(isinstance(x, float) for x in fr.other[info])
                  and len(fr.other[info]) > 1):
                row = self.table.rowCount()
                self.table.insertRow(row)

                item = QTableWidgetItem()
                info_name = info.replace("_", " ")
                vals = fr.other[info]
                if "rotational_temperature" in info:
                    info_name = info_name.replace(
                        "temperature",
                        "constants (%s)" % self.settings.rot_const)
                    if self.settings.rot_const == "GHz":
                        vals = [
                            x * PHYSICAL.KB / (PHYSICAL.PLANCK * (10**9))
                            for x in vals
                        ]

                item.setData(Qt.DisplayRole, info_name)
                self.table.setItem(row, 0, item)

                value = QTableWidgetItem()
                value.setData(Qt.DisplayRole,
                              ", ".join(["%.4f" % x for x in vals]))
                self.table.setItem(row, 1, value)

        if "frequency" in fr.other:
            self.tabs.setTabEnabled(1, True)
            freq_data = fr.other['frequency'].data

            for i, mode in enumerate(freq_data):
                row = self.freq_table.rowCount()
                self.freq_table.insertRow(row)

                freq = FreqTableWidgetItem()
                freq.setData(
                    Qt.DisplayRole, "%.2f%s" %
                    (abs(mode.frequency), "i" if mode.frequency < 0 else ""))
                freq.setData(Qt.UserRole, i)
                self.freq_table.setItem(row, 0, freq)

                if mode.symmetry:
                    text = mode.symmetry
                    if re.search("\d", text):
                        text = re.sub(r"(\d+)", r"<sub>\1</sub>", text)
                    if text.startswith("SG"):
                        text = "Σ" + text[2:]
                    elif text.startswith("PI"):
                        text = "Π" + text[2:]
                    elif text.startswith("DLT"):
                        text = "Δ" + text[3:]
                    if any(text.endswith(char) for char in "vhdugVHDUG"):
                        text = text[:-1] + "<sub>" + text[-1].lower(
                        ) + "</sub>"

                    label = QLabel(text)
                    label.setAlignment(Qt.AlignCenter)
                    self.freq_table.setCellWidget(row, 1, label)

                intensity = QTableWidgetItem()
                if mode.intensity is not None:
                    intensity.setData(Qt.DisplayRole, round(mode.intensity, 2))
                self.freq_table.setItem(row, 2, intensity)

                forcek = QTableWidgetItem()
                if mode.forcek is not None:
                    forcek.setData(Qt.DisplayRole, round(mode.forcek, 2))
                self.freq_table.setItem(row, 3, forcek)

            if fr.other["frequency"].anharm_data:
                self.fundamental_table.setVisible(True)
                self.combo_table.setVisible(True)

                freq = fr.other["frequency"]
                self.tabs.setTabEnabled(2, True)
                anharm_data = sorted(
                    freq.anharm_data,
                    key=lambda x: x.harmonic_frequency,
                )

                for i, mode in enumerate(anharm_data):
                    row = self.fundamental_table.rowCount()
                    self.fundamental_table.insertRow(row)

                    fund = FreqTableWidgetItem()
                    fund.setData(
                        Qt.DisplayRole,
                        "%.2f%s" % (abs(mode.frequency),
                                    "i" if mode.frequency < 0 else ""))
                    fund.setData(Qt.UserRole, i)
                    self.fundamental_table.setItem(row, 0, fund)

                    delta_anh = QTableWidgetItem()
                    delta_anh.setData(Qt.DisplayRole, round(mode.delta_anh, 2))
                    self.fundamental_table.setItem(row, 1, delta_anh)

                    intensity = QTableWidgetItem()
                    if mode.intensity is not None:
                        intensity.setData(Qt.DisplayRole,
                                          round(mode.intensity, 2))
                    self.fundamental_table.setItem(row, 2, intensity)

                    for overtone in mode.overtones:
                        row = self.combo_table.rowCount()
                        self.combo_table.insertRow(row)

                        fund = FreqTableWidgetItem()
                        fund.setData(
                            Qt.DisplayRole,
                            "%.2f%s" % (abs(mode.frequency),
                                        "i" if mode.frequency < 0 else ""))
                        fund.setData(Qt.UserRole, i)
                        self.combo_table.setItem(row, 0, fund)

                        fund = FreqTableWidgetItem()
                        fund.setData(Qt.UserRole, i)
                        self.combo_table.setItem(row, 1, fund)

                        ot = FreqTableWidgetItem()
                        ot.setData(
                            Qt.DisplayRole,
                            "%.2f%s" % (abs(overtone.frequency),
                                        "i" if overtone.frequency < 0 else ""))
                        ot.setData(Qt.UserRole, i)
                        self.combo_table.setItem(row, 2, ot)

                        intensity = QTableWidgetItem()
                        if overtone.intensity is not None:
                            intensity.setData(Qt.DisplayRole,
                                              round(overtone.intensity, 2))
                        self.combo_table.setItem(row, 3, intensity)

                    for key in mode.combinations:
                        for combination in mode.combinations[key]:
                            row = self.combo_table.rowCount()
                            self.combo_table.insertRow(row)

                            fund = FreqTableWidgetItem()
                            fund.setData(
                                Qt.DisplayRole,
                                "%.2f%s" % (abs(mode.frequency),
                                            "i" if mode.frequency < 0 else ""))
                            fund.setData(Qt.UserRole, i)
                            self.combo_table.setItem(row, 0, fund)

                            other_freq = freq.anharm_data[key].frequency
                            fund = FreqTableWidgetItem()
                            fund.setData(
                                Qt.DisplayRole,
                                "%.2f%s" % (abs(other_freq),
                                            "i" if other_freq < 0 else ""))
                            fund.setData(Qt.UserRole,
                                         i + len(freq.anharm_data) * key)
                            self.combo_table.setItem(row, 1, fund)

                            combo = FreqTableWidgetItem()
                            combo.setData(
                                Qt.DisplayRole, "%.2f%s" %
                                (abs(combination.frequency),
                                 "i" if combination.frequency < 0 else ""))
                            combo.setData(Qt.UserRole, i)
                            self.combo_table.setItem(row, 2, combo)

                            intensity = QTableWidgetItem()
                            if combination.intensity is not None:
                                intensity.setData(
                                    Qt.DisplayRole,
                                    round(combination.intensity, 2))
                            self.combo_table.setItem(row, 3, intensity)

            else:
                self.fundamental_table.setVisible(False)
                self.combo_table.setVisible(False)
                self.tabs.setTabEnabled(2, False)

        else:
            self.fundamental_table.setVisible(False)
            self.combo_table.setVisible(False)

            self.tabs.setTabEnabled(1, False)
            self.tabs.setTabEnabled(2, False)

        self.table.resizeColumnToContents(0)
        self.table.resizeColumnToContents(1)

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

        self.apply_filter()

    def apply_filter(self, text=None):
        if text is None:
            text = self.filter.text()

        if text:
            text = text.replace("(", "\(")
            text = text.replace(")", "\)")
            m = QRegularExpression(text)
            m.setPatternOptions(QRegularExpression.CaseInsensitiveOption)
            if m.isValid():
                m.optimize()
                filter = lambda row_num: m.match(
                    self.table.item(row_num, 0).text()
                    if self.table.item(row_num, 0) is not None else self.table.
                    cellWidget(row_num, 0).text().replace("<sub>", "").replace(
                        "</sub>", "")).hasMatch()
            else:
                return

        else:
            filter = lambda row: True

        for i in range(0, self.table.rowCount()):
            self.table.setRowHidden(i, not filter(i))

    def delete(self):
        self.file_selector.deleteLater()

        return super().delete()

    def close(self):
        self.file_selector.deleteLater()

        return super().close()
Exemple #24
0
class RingTable(QWidget):
    def __init__(self, parent=None):
        super().__init__(parent)

        layout = QGridLayout(self)

        self.table = QTableWidget()

        self.table.setColumnCount(1)
        self.table.setHorizontalHeaderLabels(['name'])

        self.add_rings()

        for i in range(0, 1):
            self.table.resizeColumnToContents(i)

        self.table.horizontalHeader().setSectionResizeMode(
            0, QHeaderView.Stretch)

        self.table.setSortingEnabled(True)
        self.table.setSelectionBehavior(QTableWidget.SelectRows)
        self.table.setEditTriggers(QTableWidget.NoEditTriggers)

        self.filterEdit = QLineEdit()
        self.filterEdit.textChanged.connect(self.apply_filter)
        self.filterEdit.setClearButtonEnabled(True)

        self.filter_columns = QComboBox()
        self.filter_columns.addItem("name")
        self.filter_columns.currentTextChanged.connect(
            self.change_filter_method)

        self.name_regex_option = QComboBox()
        self.name_regex_option.addItem("case-insensitive")
        self.name_regex_option.addItem("case-sensitive")
        self.name_regex_option.currentTextChanged.connect(self.apply_filter)
        self.name_regex_option.setVisible(
            self.filter_columns.currentText() == "name")

        layout.addWidget(self.table, 0, 0, 1, 4)
        layout.addWidget(QLabel("filter based on"), 1, 0)
        layout.addWidget(self.filter_columns, 1, 1)
        layout.addWidget(self.name_regex_option, 1, 2)
        layout.addWidget(self.filterEdit, 1, 3)

        self.change_filter_method("name")

    def change_filter_method(self, text):
        if text == "name":
            self.filterEdit.setToolTip("name regex")
            self.name_regex_option.setVisible(True)

        self.apply_filter()

    def apply_filter(self, *args):
        text = self.filterEdit.text()
        if text:
            if self.filter_columns.currentText() == "name":
                m = QRegularExpression(text)
                if m.isValid():
                    if self.name_regex_option.currentText(
                    ) == "case-insensitive":
                        m.setPatternOptions(
                            QRegularExpression.CaseInsensitiveOption)

                    m.optimize()
                    filter = lambda row_num: m.match(
                        self.table.item(row_num, 0).text()).hasMatch()
                else:
                    return

        else:
            filter = lambda row: True

        for i in range(0, self.table.rowCount()):
            self.table.setRowHidden(i, not filter(i))

    def add_rings(self):
        from AaronTools.ring import Ring

        names = []
        for lib in [Ring.AARON_LIBS, Ring.BUILTIN]:
            if not os.path.exists(lib):
                continue
            for ring in os.listdir(lib):
                name, ext = os.path.splitext(ring)
                if not any(".%s" % x == ext for x in read_types):
                    continue

                if name in names:
                    continue

                names.append(name)

                row = self.table.rowCount()
                self.table.insertRow(row)
                self.table.setItem(row, 0, QTableWidgetItem(name))

        self.ring_list = names
Exemple #25
0
class _SubstituentSelector(ToolInstance):
    def __init__(self, session, name):
        super().__init__(session, name)
        self.tool_window = MainToolWindow(self)
        self._build_ui()

    def _build_ui(self):
        layout = QFormLayout()

        self.substituent_table = SubstituentTable(singleSelect=True)
        layout.addRow(self.substituent_table)

        self.new_residue = QCheckBox()
        self.new_residue.setCheckState(
            Qt.Checked if SubstituteMouseMode.newRes else Qt.Unchecked)
        layout.addRow("new residue:", self.new_residue)

        self.res_name = QLineEdit()
        self.res_name.setPlaceholderText("leave blank to keep current")
        layout.addRow("set residue name:", self.res_name)

        self.distance_names = QCheckBox()
        self.distance_names.setCheckState(
            Qt.Checked if SubstituteMouseMode.useRemoteness else Qt.Unchecked)
        layout.addRow("distance atom names:", self.distance_names)

        self.keep_open = QCheckBox()
        layout.addRow("keep list open:", self.keep_open)

        do_it = QPushButton("set substituent")
        do_it.clicked.connect(self.set_sub)
        layout.addRow(do_it)

        self.keep_open.stateChanged.connect(
            lambda state: do_it.setVisible(state != Qt.Checked))
        self.keep_open.stateChanged.connect(self.sub_changed)

        self.substituent_table.table.itemSelectionChanged.connect(
            self.sub_changed)
        self.new_residue.stateChanged.connect(self.sub_changed)
        self.res_name.textChanged.connect(self.sub_changed)
        self.distance_names.stateChanged.connect(self.sub_changed)

        self.tool_window.ui_area.setLayout(layout)

        self.tool_window.manage(None)

    def sub_changed(self):
        if self.keep_open.checkState() == Qt.Checked:
            self.set_sub()

    def set_sub(self):
        sub_names = []
        for row in self.substituent_table.table.selectionModel().selectedRows(
        ):
            if self.substituent_table.table.isRowHidden(row.row()):
                continue

            sub_names.append(row.data())

        if sub_names:
            SubstituteMouseMode.substituent = sub_names[0]
            SubstituteMouseMode.newRes = self.new_residue.checkState(
            ) == Qt.Checked
            SubstituteMouseMode.useRemoteness = self.distance_names.checkState(
            ) == Qt.Checked
            sub_name = self.res_name.text()
            SubstituteMouseMode.resName = sub_name

        if self.keep_open.checkState() != Qt.Checked:
            self.delete()

    def close(self):
        sub_names = []
        for row in self.substituent_table.table.selectionModel().selectedRows(
        ):
            if self.substituent_table.table.isRowHidden(row.row()):
                continue

            sub_names.append(row.data())

        if sub_names:
            SubstituteMouseMode.substituent = sub_names[0]
            SubstituteMouseMode.newRes = self.new_residue.checkState(
            ) == Qt.Checked
            SubstituteMouseMode.useRemoteness = self.distance_names.checkState(
            ) == Qt.Checked
            sub_name = self.res_name.text()
            SubstituteMouseMode.resName = sub_name

        super().close()
Exemple #26
0
class Second(QMainWindow):
    def __init__(self):
        super(Second, self).__init__()
        self.setWindowTitle("Add new device")

        self.nameLabel = QLabel(self)
        self.nameLabel.move(10, 10)
        self.nameLabel.setText("Device name")
        self.nameEntry = QLineEdit(self)
        self.nameEntry.move(10, 40)
        self.nameEntry.resize(100, 30)

        self.colorLabel = QLabel(self)
        self.colorLabel.move(120, 10)
        self.colorLabel.setText("Color cameras")
        self.colorEntry = QLineEdit(self)
        self.colorEntry.move(140, 40)
        self.colorEntry.resize(70, 30)
        self.colorEntry.setValidator(QtGui.QIntValidator())

        self.monoLabel = QLabel(self)
        self.monoLabel.move(230, 10)
        self.monoLabel.setText("Mono cameras")
        self.monoEntry = QLineEdit(self)
        self.monoEntry.move(250, 40)
        self.monoEntry.resize(70, 30)
        self.monoEntry.setValidator(QtGui.QIntValidator())

        self.depthPresent = QCheckBox("Include depth", self)
        self.depthPresent.move(10, 80)
        self.depthPresent.resize(150, 30)
        self.depthPresent.stateChanged.connect(self.toggle_depth)

        self.leftfovLabel = QLabel(self)
        self.leftfovLabel.move(10, 120)
        self.leftfovLabel.setText("Left FOV deg.")
        self.leftfovEntry = QLineEdit(self)
        self.leftfovEntry.move(180, 120)
        self.leftfovEntry.resize(140, 30)
        self.leftfovEntry.setValidator(QtGui.QDoubleValidator())

        self.rightfovLabel = QLabel(self)
        self.rightfovLabel.move(10, 160)
        self.rightfovLabel.setText("Right FOV deg.")
        self.rightfovEntry = QLineEdit(self)
        self.rightfovEntry.move(180, 160)
        self.rightfovEntry.resize(140, 30)
        self.rightfovEntry.setValidator(QtGui.QDoubleValidator())

        self.rgbfovLabel = QLabel(self)
        self.rgbfovLabel.move(10, 200)
        self.rgbfovLabel.setText("RGB FOV deg.")
        self.rgbfovEntry = QLineEdit(self)
        self.rgbfovEntry.move(180, 200)
        self.rgbfovEntry.resize(140, 30)
        self.rgbfovEntry.setValidator(QtGui.QDoubleValidator())

        self.lrdistanceLabel = QLabel(self)
        self.lrdistanceLabel.move(10, 240)
        self.lrdistanceLabel.resize(200, 30)
        self.lrdistanceLabel.setText("Left - Right distance cm.")
        self.lrdistanceEntry = QLineEdit(self)
        self.lrdistanceEntry.move(180, 240)
        self.lrdistanceEntry.resize(140, 30)
        self.lrdistanceEntry.setValidator(QtGui.QDoubleValidator())

        self.lrgbdistanceLabel = QLabel(self)
        self.lrgbdistanceLabel.move(10, 280)
        self.lrgbdistanceLabel.resize(200, 30)
        self.lrgbdistanceLabel.setText("Left - RGB distance cm.")
        self.lrgbdistanceEntry = QLineEdit(self)
        self.lrgbdistanceEntry.move(180, 280)
        self.lrgbdistanceEntry.resize(140, 30)
        self.lrgbdistanceEntry.setValidator(QtGui.QDoubleValidator())

        self.saveButton = QPushButton("Save", self)
        self.saveButton.resize(100, 30)
        self.saveButton.clicked.connect(self.save)

        self.cancelButton = QPushButton("Cancel", self)
        self.cancelButton.resize(100, 30)
        self.cancelButton.clicked.connect(self.cancel)

        self.toggle_depth(False)

    def toggle_depth(self, checked):
        if checked:
            self.leftfovLabel.setVisible(True)
            self.leftfovEntry.setVisible(True)
            self.rightfovLabel.setVisible(True)
            self.rightfovEntry.setVisible(True)
            self.rgbfovLabel.setVisible(True)
            self.rgbfovEntry.setVisible(True)
            self.lrdistanceLabel.setVisible(True)
            self.lrdistanceEntry.setVisible(True)
            self.lrgbdistanceLabel.setVisible(True)
            self.lrgbdistanceEntry.setVisible(True)
            self.saveButton.move(200, 330)
            self.cancelButton.move(30, 330)
            self.resize(330, 380)
        else:
            self.leftfovLabel.setVisible(False)
            self.leftfovEntry.setVisible(False)
            self.rightfovLabel.setVisible(False)
            self.rightfovEntry.setVisible(False)
            self.rgbfovLabel.setVisible(False)
            self.rgbfovEntry.setVisible(False)
            self.lrdistanceLabel.setVisible(False)
            self.lrdistanceEntry.setVisible(False)
            self.lrgbdistanceLabel.setVisible(False)
            self.lrgbdistanceEntry.setVisible(False)
            self.saveButton.move(200, 120)
            self.cancelButton.move(30, 120)
            self.resize(330, 170)

    def save(self, *args, **kwargs):
        try:
            data = {
                "name": self.nameEntry.text(),
                "color_count": int(self.colorEntry.text()),
                "mono_count": int(self.monoEntry.text()),
            }
            if self.depthPresent.isChecked():
                data.update({
                    "depth":
                    True,
                    "left_fov_deg":
                    float(self.leftfovEntry.text()),
                    "right_fov_deg":
                    float(self.rightfovEntry.text()),
                    "rgb_fov_deg":
                    float(self.rgbfovEntry.text()),
                    "left_to_right_distance_cm":
                    float(self.lrdistanceEntry.text()),
                    "left_to_rgb_distance_cm":
                    float(self.lrgbdistanceEntry.text()),
                })
            append_to_json(
                data,
                Path(__file__).parent.parent / Path('custom_devices.json'))
            self.close()
            INITIALIZE()
            self.instance.getRegisteredTools(['NodeBoxTool'])[0].refresh()
        except Exception as e:
            QMessageBox.warning(self, "Warning", str(e))

    def cancel(self):
        self.close()
Exemple #27
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class EditableTearOffTabBar(TearOffTabBar, object):
    """
    Extended implementation of an editable tab bar with:
        - Rename functionality
        - Tear off functionality
    """

    tab_label_renamed = Signal(str, str)
    request_remove = Signal(int)
    tab_changed = Signal(int)

    def __init__(self, parent=None):
        super(EditableTearOffTabBar, self).__init__(parent=parent)

        self._editor = QLineEdit(self)
        self._editor.setWindowFlags(Qt.Popup)
        self._editor.setFocusProxy(self)
        self._editor.setFocusPolicy(Qt.StrongFocus)
        self._editor.editingFinished.connect(self.handle_editing_finished)
        self._editor.installEventFilter(self)
        self._editor.setValidator(QRegExpValidator(nameRegExp))
        self._edit_index = -1

    def edit_tab(self, index):
        """
        This set the tab in edit mode
        This method is called when double click on the tab
        :param index: int, Index of the tab to be renamed
        """

        # Show the editable line and position it on top of the selected tab
        rect = self.tabRect(index)
        self._editor.setFixedSize(rect.size())
        self._editor.move(self.parent().mapToGlobal(rect.topLeft()))
        self._editor.setText(self.tabText(index))
        if not self._editor.isVisible():
            self._editor.show()
            self._edit_index = index

    def handle_editing_finished(self):
        """
        This finish the edit of the tab name
        """

        # This method only works of we are editing any tab
        if self._edit_index >= 0:
            # Hide the text and update tab text
            self._editor.hide()
            old_text = self.tabText(self.__editIndex)
            new_text = self._editor.text()
            if old_text != new_text:
                names = [self.tabText(i) for i in range(self.count())]
                new_text = naming.get_numeric_name(new_text, names)
                self.setTabText(self._edit_index, new_text)
                self.tab_label_renamed.emit(old_text, new_text)
                self._edit_index = -1

    def eventFilter(self, widget, event):
        """
        If we click (with mouse or keyboard) on registered widgets we hide the editor
        """

        if event.type(
        ) == QEvent.MouseButtonPress and not self._editor.geometry().contains(
                event.globalPos()) or event.type(
                ) == QEvent.KeyPress and event.key() == Qt.Key_Escape:
            self._editor.hide()
            return False
        return QTabBar.eventFilter(self, widget, event)