Exemplo n.º 1
0
    def open_connection(self):
        #ptvsd.debug_this_thread()

        # open the connection
        pythoncom.CoInitialize()
        self.connection = AspenConnection(self.app_data.simulation_file)
        self.connection_open.emit()

        if self.mode == 'open':
            self.create_connection_id()
Exemplo n.º 2
0
    def open_connection(self):
        # warn others that a simulation engine connection is about to be opened
        self.opening_connection.emit()

        pythoncom.CoInitialize()
        asp_obj = AspenConnection(self.app_data.simulation_file)
        self.asp_obj = asp_obj
        self._aspen_connection = asp_obj.get_connection_object()

        # emit the signal to warn others that the connection is done
        self.connection_opened.emit()
def main():
    from tests_.mock_data import ASPEN_BKP_FILE_PATH

    con_obj = AspenConnection(ASPEN_BKP_FILE_PATH)

    sim_data = con_obj.get_simulation_data()

    # convert uneven dict of arrays into dataframe. Empty values are NaN
    df = pd.DataFrame(dict([(k, pd.Series(v)) for k, v in sim_data.items()]))

    print(df)
Exemplo n.º 4
0
    def open_simulator_gui(self, checkstate: Qt.CheckState):
        # check if there is a connection object and open if not
        if not hasattr(self, 'aspen_com'):
            # FIXME: set an apropriate logic that doesn't freeze the UI
            self.aspen_com = AspenConnection(self.app_data.simulation_file)

        con_obj = self.aspen_com.get_connection_object()

        if checkstate == Qt.Checked:
            con_obj.Visible = 1
        else:
            con_obj.Visible = 0
Exemplo n.º 5
0
class ConnectionWorker(QObject):
    # signals
    connection_open = pyqtSignal()
    input_tree_loaded = pyqtSignal()
    output_tree_loaded = pyqtSignal()
    connection_id_created = pyqtSignal(object)  # emits the server ID

    def __init__(self, app_data: DataStorage, mode: str = 'tree', parent=None):
        super().__init__(parent)
        self.app_data = app_data
        if mode in ['tree', 'open']:
            self.mode = mode
        else:
            raise ValueError("Invalid mode!")

    @pyqtSlot()
    def open_connection(self):
        #ptvsd.debug_this_thread()

        # open the connection
        pythoncom.CoInitialize()
        self.connection = AspenConnection(self.app_data.simulation_file)
        self.connection_open.emit()

        if self.mode == 'open':
            self.create_connection_id()

    @pyqtSlot()
    def load_tree(self):
        self.open_connection()

        # load and store simulation data dictionary
        self.app_data.simulation_data = self.app_data._uneven_array_to_frame(
            self.connection.get_simulation_data())

        # load the trees
        input_tree = self.connection.get_simulation_partial_io_tree('input')
        self.app_data.tree_model_input = input_tree
        self.input_tree_loaded.emit()

        output_tree = self.connection.get_simulation_partial_io_tree('output')
        self.app_data.tree_model_output = output_tree
        self.output_tree_loaded.emit()

        self.create_connection_id()

    @pyqtSlot()
    def create_connection_id(self):
        # create the COM server ID (this enables connection from form thread)
        self.connection_id = pythoncom.CoMarshalInterThreadInterfaceInStream(
            pythoncom.IID_IDispatch, self.connection.get_connection_object())
        self.connection_id_created.emit(self.connection_id)
Exemplo n.º 6
0
    def on_connection_id_created(self, connection_id):
        # make the server available to this thread
        pythoncom.CoInitialize()
        self.aspen_com = AspenConnection(self.app_data.simulation_file)

        # populate internal connection variable of AspenConnection class
        # this is a horrendous fix... it works though!
        self.aspen_com._aspen = Dispatch(
            pythoncom.CoGetInterfaceAndReleaseStream(connection_id,
                                                     pythoncom.IID_IDispatch))

        # quit the thread
        if hasattr(self, 'connection_thread'):
            self.connection_thread.quit()
Exemplo n.º 7
0
class ReducedSamplerThread(SamplerThread):
    def __init__(self,
                 input_design_data: pd.DataFrame,
                 app_data: DataStorage,
                 bkp_filepath: str,
                 parent=None):
        QThread.__init__(self, parent)
        self._input_des_data = input_design_data
        self._app_data = app_data

        # initialize
        pythoncom.CoInitialize()
        self._aspen_connection = AspenConnection(bkp_filepath)

        # create id
        self._aspen_id = pythoncom.CoMarshalInterThreadInterfaceInStream(
            pythoncom.IID_IDispatch,
            self._aspen_connection.get_connection_object())

        # clean up
        self.finished.connect(self.__del__)

    def run(self):
        # ptvsd.debug_this_thread()
        # initialize
        pythoncom.CoInitialize()

        # get instance from id
        aspen_con = win32com.client.Dispatch(
            pythoncom.CoGetInterfaceAndReleaseStream(self._aspen_id,
                                                     pythoncom.IID_IDispatch))
        inp_data = self._app_data.input_table_data
        out_data = self._app_data.output_table_data
        # TODO: move consumed aliases from input into output collection
        inp_data_ph = inp_data.set_index('Alias')
        red_inp_alias = self._app_data.reduced_doe_d_bounds.loc[:,
                                                                'name'].tolist(
                                                                )
        output_mvs = inp_data.loc[~inp_data['Alias'].isin(red_inp_alias)]
        input_vars = inp_data_ph.loc[red_inp_alias,
                                     'Path'].reset_index().to_dict(
                                         orient='records')
        output_vars = pd.concat(
            [out_data.loc[:, ['Alias', 'Path']], output_mvs],
            ignore_index=True,
            axis='index',
            sort=False).to_dict(orient='records')

        for row in range(self._input_des_data.shape[0]):
            [
                var.update(
                    {'value': self._input_des_data.loc[row, var['Alias']]})
                for var in input_vars
            ]
            self.case_sampled.emit(
                row + 1, run_case(input_vars, output_vars, aspen_con))

            if self.isInterruptionRequested():  # to allow task abortion
                return
Exemplo n.º 8
0
    def __init__(self,
                 input_design_data: pd.DataFrame,
                 app_data: DataStorage,
                 bkp_filepath: str,
                 parent=None):
        QThread.__init__(self, parent)
        self._input_des_data = input_design_data
        self._app_data = app_data

        # initialize
        pythoncom.CoInitialize()
        self._aspen_connection = AspenConnection(bkp_filepath)

        # create id
        self._aspen_id = pythoncom.CoMarshalInterThreadInterfaceInStream(
            pythoncom.IID_IDispatch,
            self._aspen_connection.get_connection_object())

        # clean up
        self.finished.connect(self.__del__)
Exemplo n.º 9
0
    def __init__(self,
                 input_design_data: pd.DataFrame,
                 app_data: DataStorage,
                 parent=None):
        QThread.__init__(self, parent)
        self._input_des_data = input_design_data
        self._app_data = app_data

        # https://stackoverflow.com/questions/26764978/using-win32com-with-multithreading
        # initialize
        pythoncom.CoInitialize()
        self._aspen_connection = AspenConnection(app_data.simulation_file)

        # create id
        self._aspen_id = pythoncom.CoMarshalInterThreadInterfaceInStream(
            pythoncom.IID_IDispatch,
            self._aspen_connection.get_connection_object())

        # clean up
        self.finished.connect(self.__del__)
Exemplo n.º 10
0
class SamplerThread(QThread):
    """
    Sampling thread that opens the aspen connection to keep the sampling
    assistant GUI responsive while the sampling is
    performed
    """

    case_sampled = pyqtSignal(int, object)

    def __init__(self,
                 input_design_data: pd.DataFrame,
                 app_data: DataStorage,
                 parent=None):
        QThread.__init__(self, parent)
        self._input_des_data = input_design_data
        self._app_data = app_data

        # https://stackoverflow.com/questions/26764978/using-win32com-with-multithreading
        # initialize
        pythoncom.CoInitialize()
        self._aspen_connection = AspenConnection(app_data.simulation_file)

        # create id
        self._aspen_id = pythoncom.CoMarshalInterThreadInterfaceInStream(
            pythoncom.IID_IDispatch,
            self._aspen_connection.get_connection_object())

        # clean up
        self.finished.connect(self.__del__)

    def __del__(self):
        # kill the connection on thread cleanup
        self._aspen_connection.close_connection()

    def run(self):
        # ptvsd.debug_this_thread()
        # initialize
        pythoncom.CoInitialize()

        # get instance from id
        aspen_con = win32com.client.Dispatch(
            pythoncom.CoGetInterfaceAndReleaseStream(self._aspen_id,
                                                     pythoncom.IID_IDispatch))
        inp_data = self._app_data.input_table_data
        out_data = self._app_data.output_table_data
        input_vars = inp_data.loc[inp_data['Type'] ==
                                  self._app_data._INPUT_ALIAS_TYPES['mv'],
                                  ['Alias', 'Path']].to_dict(orient='records')
        output_vars = out_data.loc[:,
                                   ['Alias', 'Path']].to_dict(orient='records')

        for row in range(self._input_des_data.shape[0]):
            [
                var.update(
                    {'value': self._input_des_data.loc[row, var['Alias']]})
                for var in input_vars
            ]
            self.case_sampled.emit(
                row + 1, run_case(input_vars, output_vars, aspen_con))

            if self.isInterruptionRequested():  # to allow task abortion
                return
Exemplo n.º 11
0
class LoadSimulationTreeDialog(QDialog):
    def __init__(self, application_database: DataStorage):
        # ------------------------ Internal Variables -------------------------
        self.app_data = application_database

        # ------------------------ Form Initialization ------------------------
        super().__init__()
        self.ui = Ui_Dialog()
        self.ui.setupUi(self)

        table_input = self.ui.tableViewInput
        table_output = self.ui.tableViewOutput

        self._input_table_model = VariableTableModel(self.app_data,
                                                     mode='input',
                                                     parent=table_input)
        self._output_table_model = VariableTableModel(self.app_data,
                                                      mode='output',
                                                      parent=table_output)

        table_input.setModel(self._input_table_model)
        table_output.setModel(self._output_table_model)

        table_input.setColumnWidth(0, 400)  # first column resize
        table_output.setColumnWidth(0, 400)

        # create tree models
        self.create_tree_models()

        # set the delegates for the tables
        self._input_alias_delegate = AliasEditorDelegate(max_characters=13)
        self._output_alias_delegate = AliasEditorDelegate(max_characters=13)
        table_input.setItemDelegateForColumn(1, self._input_alias_delegate)
        table_output.setItemDelegateForColumn(1, self._output_alias_delegate)

        input_combo_list = list(self.app_data._INPUT_ALIAS_TYPES.values())
        output_combo_list = list(self.app_data._OUTPUT_ALIAS_TYPES.values())
        self._input_combo_delegate = ComboBoxDelegate(input_combo_list)
        self._output_combo_delegate = ComboBoxDelegate(output_combo_list)
        table_input.setItemDelegateForColumn(2, self._input_combo_delegate)
        table_output.setItemDelegateForColumn(2, self._output_combo_delegate)

        # --------------------------- Signals/Slots ---------------------------
        # opens the simulation connection and load its variable trees
        self.ui.pushButtonLoadTreeFromFile.clicked.connect(self.load_tree)

        # action associate with the double click of a node in the trees
        self.ui.treeViewInput.doubleClicked.connect(self.double_click_on_tree)
        self.ui.treeViewOutput.doubleClicked.connect(self.double_click_on_tree)

        # ok push button pressed
        self.ui.pushButtonOK.clicked.connect(self.ok_button_pressed)

        # opens simulation GUI when checkbox is toggled
        self.ui.openSimGUICheckBox.stateChanged.connect(
            self.open_simulator_gui)
        # ---------------------------------------------------------------------

    def open_simulator_gui(self, checkstate: Qt.CheckState):
        # check if there is a connection object and open if not
        if not hasattr(self, 'aspen_com'):
            # FIXME: set an apropriate logic that doesn't freeze the UI
            self.aspen_com = AspenConnection(self.app_data.simulation_file)

        con_obj = self.aspen_com.get_connection_object()

        if checkstate == Qt.Checked:
            con_obj.Visible = 1
        else:
            con_obj.Visible = 0

    def create_tree_models(self):
        input_tree_dict_model = QStandardItemModel()
        output_tree_model = QStandardItemModel()

        # place the headers texts
        input_tree_dict_model.setHorizontalHeaderLabels(['Input variables'])
        output_tree_model.setHorizontalHeaderLabels(['Output variables'])

        # set the models in the views
        self.ui.treeViewInput.setModel(input_tree_dict_model)
        self.ui.treeViewOutput.setModel(output_tree_model)

        # make the tree views headers bold
        self.ui.treeViewInput.header().setStyleSheet('QWidget { font: bold }')
        self.ui.treeViewOutput.header().setStyleSheet('QWidget { font: bold }')

        # check if application has already tree dictionaries. If so, populate
        # with those values.
        if len(self.app_data.tree_model_input) != 0:
            input_tree_dict = self.app_data.tree_model_input
            self.populate_tree(self.ui.treeViewInput.model(), input_tree_dict)

        if len(self.app_data.tree_model_output) != 0:
            output_tre_dict = self.app_data.tree_model_output
            self.populate_tree(self.ui.treeViewOutput.model(), output_tre_dict)

    def load_tree(self):
        """Opens the connection with the simulation engine and loads the
        variable tree.
        """
        # disable the load tree and ok buttons
        self.ui.pushButtonLoadTreeFromFile.setEnabled(False)
        self.ui.pushButtonOK.setEnabled(False)

        # start the progress bar dialog
        progress_dialog = QProgressDialog(
            'Please wait while the simulation engine is loaded...', None, 0, 0,
            self)
        progress_dialog.setWindowModality(Qt.WindowModal)
        progress_dialog.setWindowTitle("Loading variables")
        progress_dialog.show()
        progress_dialog.setValue(0)

        self.progress_dialog = progress_dialog

        self.connection_worker = ConnectionWorker(app_data=self.app_data,
                                                  mode='tree')
        self.connection_thread = QThread()

        # connect worker signals
        self.connection_worker.connection_open.connect(
            self.on_connection_opened)
        self.connection_worker.input_tree_loaded.connect(
            self.on_input_tree_loaded)
        self.connection_worker.output_tree_loaded.connect(
            self.on_output_tree_loaded)
        self.connection_worker.connection_id_created.connect(
            self.on_connection_id_created)

        # move worker to thread
        self.connection_worker.moveToThread(self.connection_thread)

        # connect thread to load slot
        self.connection_thread.started.connect(
            self.connection_worker.load_tree)

        # start the thread
        self.connection_thread.start()

    def on_connection_opened(self):
        self.progress_dialog.setLabelText('Loading input tree variables...')

    def on_input_tree_loaded(self):
        self.progress_dialog.setLabelText('Loading output tree variables...')

        self.populate_tree(self.ui.treeViewInput.model(),
                           self.app_data.tree_model_input)

    def on_output_tree_loaded(self):
        self.populate_tree(self.ui.treeViewOutput.model(),
                           self.app_data.tree_model_output)

        # close progress dialog
        self.progress_dialog.setMaximum(1)
        self.progress_dialog.setValue(1)

        # Enable the load tree and ok buttons
        self.ui.pushButtonLoadTreeFromFile.setEnabled(True)
        self.ui.pushButtonOK.setEnabled(True)

    def on_connection_id_created(self, connection_id):
        # make the server available to this thread
        pythoncom.CoInitialize()
        self.aspen_com = AspenConnection(self.app_data.simulation_file)

        # populate internal connection variable of AspenConnection class
        # this is a horrendous fix... it works though!
        self.aspen_com._aspen = Dispatch(
            pythoncom.CoGetInterfaceAndReleaseStream(connection_id,
                                                     pythoncom.IID_IDispatch))

        # quit the thread
        if hasattr(self, 'connection_thread'):
            self.connection_thread.quit()

    def populate_tree(self, model: QStandardItemModel, tree_nodes: dict):
        """Populates the model of a tree view.

        Parameters
        ----------
        model : QStandardItemModel
            TreeView model.
        tree_nodes : dict
            Dictionary containing the tree representation.
        """
        # clear all the current rows
        model.removeRows(0, model.rowCount())

        # append new rows
        model.appendRow(self.traverse_json_tree(tree_nodes))

    def traverse_json_tree(self, root_node: dict) -> QStandardItem:
        """Traverses a JSON dictionary tree representation through recursion.

        Parameters
        ----------
        root_node : dict
            Dictionary which is the root of the tree. See notes for node
            representation.

        Returns
        -------
        QStandardItem
            Root of the tree as a QStandardItem.

        Notes
        -----
        The `root_node` and subsequent nodes has to be in the following format:
            node = {'node': str_name_of_node,
                    'children': list_of_nodes,
                    'description': str_tooltip_description_of_node}

        Where list_of_nodes is, literally, a list of nodes. Duh.

        """
        rn = QStandardItem(root_node['node'])
        rn.setEditable(False)
        if 'description' in root_node:
            rn.setToolTip(root_node['description'])

        if 'children' in root_node:
            for child in root_node['children']:
                rn.appendRow(self.traverse_json_tree(child))

        return rn

    def double_click_on_tree(self):
        """Slot (function) that handles double click event on a single leaf
        node in the tree.
        """
        tree_name = self.sender().objectName()
        tree_view = self.ui.treeViewInput if tree_name == "treeViewInput" \
            else self.ui.treeViewOutput
        tree_model = tree_view.model()

        table_model = self.ui.tableViewInput.model() \
            if tree_name == 'treeViewInput' \
            else self.ui.tableViewOutput.model()

        # get the model index of the node clicked
        index_selected = tree_view.currentIndex()

        if not tree_model.itemFromIndex(index_selected).hasChildren():
            # Only proceed if the selected node is a leaf

            # intialize node construction
            branch_list = [tree_model.data(index_selected).lstrip()]

            # traverse the nodes upwards (stop on root node)
            parent_node = tree_model.itemFromIndex(index_selected).parent()
            while parent_node is not None:
                parent_node_name = parent_node.text().lstrip()
                branch_list.append(parent_node_name)
                parent_node = parent_node.parent()

            # create the full path string
            fullpath = '\\' + '\\'.join(list(reversed(branch_list)))

            # verify if full path is already in the table
            current_paths = pd.concat([
                self.app_data.input_table_data, self.app_data.output_table_data
            ],
                                      axis='index',
                                      ignore_index=True,
                                      sort=False)['Path'].tolist()

            if fullpath in current_paths:
                # the variable is already in table, warn the user
                msg_box = QMessageBox(
                    QMessageBox.Warning,
                    "Duplicated variable",
                    "The selected variable is already the table!",
                    buttons=QMessageBox.Ok,
                    parent=None)
                msg_box.exec_()
            else:
                # variable not in table, insert it
                self.insert_new_single_row(table_model, fullpath)

    def insert_new_single_row(self, table_model: VariableTableModel,
                              node_str: str):
        """Inserts a single variable row in the table view.

        Parameters
        ----------
        table_model : VariableTableModel
            Which VariableTableModel to insert the row.
        node_str : str
            String containing the full path to the selected node.
        """
        # start by inserting an empty row
        table_model.insertRow(table_model.rowCount())

        # insert the path value
        n_rows = table_model.rowCount()
        table_model.setData(table_model.index(n_rows - 1, 0), node_str,
                            Qt.EditRole)

    def ok_button_pressed(self):
        input_var_data = self.app_data.input_table_data
        output_var_data = self.app_data.output_table_data

        final_tab = pd.concat([input_var_data, output_var_data],
                              axis='index',
                              ignore_index=True,
                              sort=False)
        # check if there is any duplicates between input and output
        is_alias_duplicated = not final_tab['Alias'].is_unique

        # check if there any variable without its type defined
        is_in_var_defined = not input_var_data['Type'].eq(
            'Choose a type').any()

        is_out_var_defined = not output_var_data['Type'].eq(
            'Choose a type').any()

        if not is_in_var_defined or not is_out_var_defined:
            # user did not define all the variable types
            if not is_in_var_defined and is_out_var_defined:
                iovartype = 'the selected input'
                iovartitle = 'Input'
            elif is_in_var_defined and not is_out_var_defined:
                iovartype = 'the selected output'
                iovartitle = 'Output'
            else:
                iovartype = 'both input and output'
                iovartitle = iovartype.capitalize()

            text = ("At least one of {0} variables does not have a defined"
                    " type.\nYou have to define it for all of them!"
                    ).format(iovartype)
            title = "{0} variable without type detected!".format(iovartitle)

            warn_the_user(text, title)

        if is_alias_duplicated:
            # warn the user about duplicated entries
            text = ("Duplicated aliases between input and output found."
                    "\nAll the aliases together must be unique.")
            title = "Duplicated aliases detected!"
            warn_the_user(text, title)

        if is_in_var_defined and is_out_var_defined and \
                not is_alias_duplicated:
            # Everything is properly set, close the dialog.
            self.close()

    def keyPressEvent(self, event: QEvent):
        """keyPressEvent override of the QDialog class to extend keyboard
        interaction with the tables (i.e. delete rows).
        """
        if event.type() == QEvent.KeyPress and event.key() == Qt.Key_Delete:
            # if the delete key was pressed
            widget = QApplication.focusObject()  # get widget that has focus
            widget_name = widget.objectName()
            if widget_name == self.ui.tableViewInput.objectName() \
                    or widget_name == self.ui.tableViewOutput.objectName():
                table_sel_model = widget.selectionModel()
                indexes = [
                    QPersistentModelIndex(index)
                    for index in table_sel_model.selectedIndexes()
                ]

                for index in indexes:
                    # delete selected rows
                    widget.model().removeRow(index.row())

                # clear selection
                widget.selectionModel().clearSelection()

    def closeEvent(self, event):
        # clean up of the aspen connection if there is one
        if hasattr(self, 'aspen_com'):
            self.aspen_com.close_connection()

        super().closeEvent(event)