def __determine_frequency_units(self):
        string = experimentinfo_table.get_units(conn, self.experiment.mid)

        if string is "MHz":
            return u.MHz
        elif string is "GHz":
            return u.GHz
        else:
            return u.MHz
    def __determine_frequency_units(self):
        string = experimentinfo_table.get_units(conn, self.experiment.mid)

        if string is "MHz":
            return u.MHz
        elif string is "GHz":
            return u.GHz
        else:
            return u.MHz
Example #3
0
    def __setup__(self, experiment):
        """

        :param experiment:
        :return:
        """
        mid = experiment.mid
        name = experiment.name
        composition = info_table.get_composition(conn, mid)
        notes = info_table.get_notes(conn, mid)
        units = info_table.get_units(conn, mid)
        type = info_table.get_type(conn, mid)

        total_peaks = peaks_table.get_peak_count(conn, mid)
        assigned = experiment.get_assigned_peaks_count()

        invalid_mol, invalid_peaks = experiment.get_invalidated_peaks_count()
        valid_mol, valid_peaks = experiment.get_validated_count()

        pending_peaks = assigned - valid_peaks - invalid_peaks
        pending_mol = len(experiment.molecule_matches) - invalid_mol - valid_mol

        unnassigned = total_peaks - valid_peaks

        # Set labels to data #
        self.ui.experiment_name_lbl.setText(name)
        self.ui.composition_val.setText(composition)
        self.ui.notes_val.setText(notes)
        self.ui.units_val.setText(units)
        self.ui.type_val.setText(type)

        self.ui.total_peaks_val.setText(str(total_peaks))

        self.ui.invalid_mol_num.display(invalid_mol)
        self.ui.invalid_peaks_num.display(invalid_peaks)
        self.ui.valid_mol_num.display(valid_mol)
        self.ui.valid_peaks_num.display(valid_peaks)
        self.ui.pending_mol_num.display(pending_mol)
        self.ui.pending_peaks_num.display(pending_peaks)
        self.ui.unnassigned_peaks_num.display(unnassigned)

        # Formatting
        self.setSizePolicy(QSizePolicy.Minimum, QSizePolicy.Minimum)
    def populate_info_table_as_experiment(mid, table_widget):

        row_count = 6  # Number of Rows
        column_count = 1  # Number of Columnns [mid, name, category]

        # Format Table
        table_widget.setRowCount(row_count)
        table_widget.setColumnCount(column_count)
        table_widget.setSizePolicy(QSizePolicy.Fixed,
                                   QSizePolicy.MinimumExpanding)
        table_widget.setSortingEnabled(True)

        # Set Header Label
        header = table_widget.horizontalHeader()
        header.setStretchLastSection(True)
        header.setResizeMode(QHeaderView.Stretch)

        # Set Vertical Header
        table_widget.setVerticalHeaderLabels(
            ["EID", "Type", "Units", "Composition", "Notes", "Last-Updated"])
        # Get row data
        eid = experimentinfo_table.get_eid(conn, mid)
        type = experimentinfo_table.get_type(conn, mid)
        units = experimentinfo_table.get_units(conn, mid)
        composition = experimentinfo_table.get_composition(conn, mid)
        notes = experimentinfo_table.get_notes(conn, mid)
        updated = experimentinfo_table.get_last_updated(conn, mid)

        # Convert Data to QTableWidgetItem
        eid_item = QTableWidgetItem(str(eid))
        type_item = QTableWidgetItem(str(type))
        units_item = QTableWidgetItem(str(units))
        composition_item = QTableWidgetItem(str(composition))
        notes_item = QTableWidgetItem(str(notes))
        updated_item = QTableWidgetItem(str(updated))

        # Add Widget Items to Table
        table_widget.setItem(0, 0, eid_item)
        table_widget.setItem(0, 1, type_item)
        table_widget.setItem(0, 2, units_item)
        table_widget.setItem(0, 3, composition_item)
        table_widget.setItem(0, 4, notes_item)
        table_widget.setItem(0, 5, updated_item)
    def populate_info_table_as_experiment(mid, table_widget):

        row_count = 6  # Number of Rows
        column_count = 1  # Number of Columnns [mid, name, category]

        # Format Table
        table_widget.setRowCount(row_count)
        table_widget.setColumnCount(column_count)
        table_widget.setSizePolicy(QSizePolicy.Fixed, QSizePolicy.MinimumExpanding)
        table_widget.setSortingEnabled(True)

        # Set Header Label
        header = table_widget.horizontalHeader()
        header.setStretchLastSection(True)
        header.setResizeMode(QHeaderView.Stretch)

        # Set Vertical Header
        table_widget.setVerticalHeaderLabels(["EID", "Type", "Units", "Composition",
                                              "Notes", "Last-Updated"])
        # Get row data
        eid = experimentinfo_table.get_eid(conn, mid)
        type = experimentinfo_table.get_type(conn, mid)
        units = experimentinfo_table.get_units(conn, mid)
        composition = experimentinfo_table.get_composition(conn, mid)
        notes = experimentinfo_table.get_notes(conn, mid)
        updated = experimentinfo_table.get_last_updated(conn, mid)

        # Convert Data to QTableWidgetItem
        eid_item = QTableWidgetItem(str(eid))
        type_item = QTableWidgetItem(str(type))
        units_item = QTableWidgetItem(str(units))
        composition_item = QTableWidgetItem(str(composition))
        notes_item = QTableWidgetItem(str(notes))
        updated_item = QTableWidgetItem(str(updated))

        # Add Widget Items to Table
        table_widget.setItem(0, 0, eid_item)
        table_widget.setItem(0, 1, type_item)
        table_widget.setItem(0, 2, units_item)
        table_widget.setItem(0, 3, composition_item)
        table_widget.setItem(0, 4, notes_item)
        table_widget.setItem(0, 5, updated_item)
Example #6
0
    def __get_table_items(self, mid, category):

        items = []

        name = molecules_table.get_name(conn, mid)
        items.append(QTableWidgetItem(name))

        if category == 'known':
            units = knowninfo_table.get_units(conn, mid)
            temperature = knowninfo_table.get_temperature(conn, mid)
            isotope = knowninfo_table.is_isotype(conn, mid)
            vibrational = knowninfo_table.is_vibrational(conn, mid)
            notes = knowninfo_table.get_notes(conn, mid)

            items.append(QTableWidgetItem(units))
            items.append(QTableWidgetItem(str(temperature)))
            items.append(QTableWidgetItem(str(isotope)))
            items.append(QTableWidgetItem(str(vibrational)))
            items.append(QTableWidgetItem(notes))

            labels = ['name', 'units', 'temperature', 'isotope', 'vibrational', 'notes']

        elif category == 'experiment':
            type = experimentinfo_table.get_type(conn, mid)
            units = experimentinfo_table.get_units(conn, mid)
            notes = experimentinfo_table.get_notes(conn, mid)

            items.append(QTableWidgetItem(str(units)))
            items.append(QTableWidgetItem(str(type)))
            items.append(QTableWidgetItem(notes))

            labels = ['Name', 'Units', 'Type', 'Notes']

        else:
            #print category + " but here"
            notes = knowninfo_table.get_notes(conn, mid)
            items.append(QTableWidgetItem(notes))
            labels = ['Name', 'Notes']

        return items, labels
Example #7
0
 def get_units(self):
     return info.get_units(conn, self.mid)
Example #8
0
 def get_units(self):
     return info.get_units(conn, self.mid)