コード例 #1
0
ファイル: sequence_2D.py プロジェクト: bopopescu/relax
    def SetValue(self, values):
        """Set up the list of lists values.

        @param values:  The list of lists of values to add to the list.
        @type values:   list of lists of str or None
        """

        # No value.
        if values == None:
            return

        # Convert to a list of lists if needed.
        if is_list_of_lists(values):
            pass
        elif is_list(values):
            values = [values]

        # Not a list of lists.
        if not is_list_of_lists(values):
            return

        # Incorrect dimensions.
        if self.dim[0] != None and len(values) != self.dim[0]:
            return

        # Loop over the entries.
        for i in range(len(values)):
            # Incorrect dimensions.
            if self.dim[1] != None and len(values[i]) != self.dim[1]:
                continue

            # Append a row for variable dimension sequences (the first element already exists).
            if self.variable_length and i != 0:
                if dep_check.wx_classic:
                    self.sequence.InsertStringItem(i, int_to_gui(i + 1))
                else:
                    self.sequence.InsertItem(i, int_to_gui(i + 1))

            # Loop over the values.
            for j in range(self.dim[1]):
                # Set the value.
                if dep_check.wx_classic:
                    self.sequence.SetStringItem(
                        i, j + self.offset, self.convert_to_gui(values[i][j]))
                else:
                    self.sequence.SetItem(i, j + self.offset,
                                          self.convert_to_gui(values[i][j]))

        # Refresh.
        self.Refresh()
コード例 #2
0
ファイル: free_file_format.py プロジェクト: tlinnet/relax
    def set_vals(self):
        """Set the free file format widget contents to the values from the relax data store."""

        # The default GUI element.
        if self.element_type == 'default':
            # The column numbers.
            self.spin_id_col.SetValue(int_to_gui(ds.relax_gui.free_file_format.spin_id_col))
            self.mol_name_col.SetValue(int_to_gui(ds.relax_gui.free_file_format.mol_name_col))
            self.res_num_col.SetValue(int_to_gui(ds.relax_gui.free_file_format.res_num_col))
            self.res_name_col.SetValue(int_to_gui(ds.relax_gui.free_file_format.res_name_col))
            self.spin_num_col.SetValue(int_to_gui(ds.relax_gui.free_file_format.spin_num_col))
            self.spin_name_col.SetValue(int_to_gui(ds.relax_gui.free_file_format.spin_name_col))
            if hasattr(self, 'data_col'):
                self.data_col.SetValue(int_to_gui(ds.relax_gui.free_file_format.data_col))
            if hasattr(self, 'error_col'):
                self.error_col.SetValue(int_to_gui(ds.relax_gui.free_file_format.error_col))

            # The column separator.
            if not ds.relax_gui.free_file_format.sep:
                self.sep.SetValue(str_to_gui("white space"))
            else:
                self.sep.SetValue(str_to_gui(ds.relax_gui.free_file_format.sep))

        # The mini GUI element.
        elif self.element_type == 'mini':
            # The string.
            if self.data_cols:
                string = self.to_string(spin_id_col=ds.relax_gui.free_file_format.spin_id_col, mol_name_col=ds.relax_gui.free_file_format.mol_name_col, res_num_col=ds.relax_gui.free_file_format.res_num_col, res_name_col=ds.relax_gui.free_file_format.res_name_col, spin_num_col=ds.relax_gui.free_file_format.spin_num_col, spin_name_col=ds.relax_gui.free_file_format.spin_name_col, data_col=ds.relax_gui.free_file_format.data_col, error_col=ds.relax_gui.free_file_format.error_col, sep=ds.relax_gui.free_file_format.sep)
            else:
                string = self.to_string(spin_id_col=ds.relax_gui.free_file_format.spin_id_col, mol_name_col=ds.relax_gui.free_file_format.mol_name_col, res_num_col=ds.relax_gui.free_file_format.res_num_col, res_name_col=ds.relax_gui.free_file_format.res_name_col, spin_num_col=ds.relax_gui.free_file_format.spin_num_col, spin_name_col=ds.relax_gui.free_file_format.spin_name_col, sep=ds.relax_gui.free_file_format.sep)
            self.field.SetValue(str_to_gui(string))
コード例 #3
0
    def set_vals(self):
        """Set the free file format widget contents to the values from the relax data store."""

        # The default GUI element.
        if self.element_type == 'default':
            # The column numbers.
            self.spin_id_col.SetValue(int_to_gui(ds.relax_gui.free_file_format.spin_id_col))
            self.mol_name_col.SetValue(int_to_gui(ds.relax_gui.free_file_format.mol_name_col))
            self.res_num_col.SetValue(int_to_gui(ds.relax_gui.free_file_format.res_num_col))
            self.res_name_col.SetValue(int_to_gui(ds.relax_gui.free_file_format.res_name_col))
            self.spin_num_col.SetValue(int_to_gui(ds.relax_gui.free_file_format.spin_num_col))
            self.spin_name_col.SetValue(int_to_gui(ds.relax_gui.free_file_format.spin_name_col))
            if hasattr(self, 'data_col'):
                self.data_col.SetValue(int_to_gui(ds.relax_gui.free_file_format.data_col))
            if hasattr(self, 'error_col'):
                self.error_col.SetValue(int_to_gui(ds.relax_gui.free_file_format.error_col))

            # The column separator.
            if not ds.relax_gui.free_file_format.sep:
                self.sep.SetValue(str_to_gui("white space"))
            else:
                self.sep.SetValue(str_to_gui(ds.relax_gui.free_file_format.sep))

        # The mini GUI element.
        elif self.element_type == 'mini':
            # The string.
            if self.data_cols:
                string = self.to_string(spin_id_col=ds.relax_gui.free_file_format.spin_id_col, mol_name_col=ds.relax_gui.free_file_format.mol_name_col, res_num_col=ds.relax_gui.free_file_format.res_num_col, res_name_col=ds.relax_gui.free_file_format.res_name_col, spin_num_col=ds.relax_gui.free_file_format.spin_num_col, spin_name_col=ds.relax_gui.free_file_format.spin_name_col, data_col=ds.relax_gui.free_file_format.data_col, error_col=ds.relax_gui.free_file_format.error_col, sep=ds.relax_gui.free_file_format.sep)
            else:
                string = self.to_string(spin_id_col=ds.relax_gui.free_file_format.spin_id_col, mol_name_col=ds.relax_gui.free_file_format.mol_name_col, res_num_col=ds.relax_gui.free_file_format.res_num_col, res_name_col=ds.relax_gui.free_file_format.res_name_col, spin_num_col=ds.relax_gui.free_file_format.spin_num_col, spin_name_col=ds.relax_gui.free_file_format.spin_name_col, sep=ds.relax_gui.free_file_format.sep)
            self.field.SetValue(str_to_gui(string))
コード例 #4
0
    def SetValue(self, values):
        """Set up the list of lists values.

        @param values:  The list of lists of values to add to the list.
        @type values:   list of lists of str or None
        """

        # No value.
        if values == None:
            return

        # Not a list of lists.
        if not is_list_of_lists(values):
            return

        # Loop over the entries.
        for i in range(len(values)):
            # Append a row for variable dimension sequences (the first element already exists).
            if self.variable_length and i != 0:
                self.sequence.InsertStringItem(i, int_to_gui(i+1))

            # Loop over the values.
            for j in range(self.dim[1]):
                # Set the value.
                self.sequence.SetStringItem(i, j+self.offset, self.convert_to_gui(values[i][j]))

        # Refresh.
        self.Refresh()
コード例 #5
0
    def test_value_set(self):
        """Test the full operation of the value.set user function GUI window."""

        # Open the pipe.create user function window, set the args and execute.
        uf = uf_store['pipe.create']
        uf._sync = True
        uf.create_wizard(parent=self.app.gui)
        uf.page.SetValue('pipe_name', str_to_gui('value.set user function test'))
        uf.page.SetValue('pipe_type', str_to_gui('mf'))
        uf.wizard._go_next(None)

        # Create a spin to add data to.
        uf = uf_store['spin.create']
        uf._sync = True
        uf.create_wizard(parent=self.app.gui)
        uf.page.SetValue('res_num', int_to_gui(1))
        uf.page.SetValue('res_name', str_to_gui('Gly'))
        uf.page.SetValue('spin_name', str_to_gui('N'))
        uf.wizard._go_next(None)

        # Open the value.set user function window.
        uf = uf_store['value.set']
        uf._sync = True
        uf.create_wizard(parent=self.app.gui)
        uf.page.SetValue('val', float_to_gui(-0.000172))
        uf.page.SetValue('param', str_to_gui('csa'))
        uf.wizard._go_next(None)
コード例 #6
0
ファイル: sequence_2D.py プロジェクト: pombredanne/relax
    def SetValue(self, values):
        """Set up the list of lists values.

        @param values:  The list of lists of values to add to the list.
        @type values:   list of lists of str or None
        """

        # No value.
        if values == None:
            return

        # Not a list of lists.
        if not is_list_of_lists(values):
            return

        # Loop over the entries.
        for i in range(len(values)):
            # Append a row for variable dimension sequences (the first element already exists).
            if self.variable_length and i != 0:
                self.sequence.InsertStringItem(i, int_to_gui(i+1))

            # Loop over the values.
            for j in range(self.dim[1]):
                # Set the value.
                self.sequence.SetStringItem(i, j+self.offset, self.convert_to_gui(values[i][j]))

        # Refresh.
        self.Refresh()
コード例 #7
0
    def test_structure_pdb_read(self):
        """Test the full operation of the structure.read_pdb user function GUI window."""

        # Create the data pipe.
        self.exec_uf_pipe_create(pipe_name='PDB reading test')

        # Open the structure.read_pdb user function window.
        uf = uf_store['structure.read_pdb']
        uf._sync = True
        uf.create_wizard(parent=self.app.gui)

        # The PDB file to operate on.
        file = status.install_path + sep + 'test_suite' + sep + 'shared_data' + sep + 'structures' + sep + 'trunc_ubi_pcs.pdb'
        uf.page.SetValue('file', str_to_gui(file))

        # Set the models to read.
        uf.page.SetValue('read_model', str_to_gui('6'))
        uf.page.uf_args['read_model'].selection_win_show()
        uf.page.uf_args['read_model'].sel_win.add_element(None)
        uf.page.uf_args['read_model'].sel_win.sequence.SetStringItem(
            0, 1, int_to_gui(2))
        uf.page.uf_args['read_model'].sel_win.sequence.SetStringItem(
            1, 1, int_to_gui(4))
        uf.page.uf_args['read_model'].selection_win_data()

        # Renumber the models.
        uf.page.uf_args['set_model_num'].selection_win_show()
        uf.page.uf_args['set_model_num'].sel_win.add_element(None)
        uf.page.uf_args['set_model_num'].sel_win.sequence.SetStringItem(
            0, 1, int_to_gui(1))
        uf.page.uf_args['set_model_num'].sel_win.sequence.SetStringItem(
            1, 1, int_to_gui(3))
        uf.page.uf_args['set_model_num'].selection_win_data()

        # GUI data checks.
        self.assertEqual(uf.page.uf_args['read_model'].GetValue(), [2, 4])
        self.assertEqual(uf.page.uf_args['set_model_num'].GetValue(), [1, 3])

        # Execute the user function.
        uf.wizard._go_next(None)

        # Check the structural data.
        self.assert_(hasattr(cdp, 'structure'))
        self.assert_(hasattr(cdp.structure, 'structural_data'))
        self.assertEqual(len(cdp.structure.structural_data), 2)
        self.assertEqual(cdp.structure.structural_data[0].num, 1)
        self.assertEqual(cdp.structure.structural_data[1].num, 3)
コード例 #8
0
ファイル: free_file_format.py プロジェクト: bopopescu/relax
    def SetValue(self, key, value):
        """Special method for setting the value of the GUI element corresponding to the key.

        @param key:     The key corresponding to the desired GUI element.  This can be one of ['spin_id_col', 'mol_name_col', 'res_num_col', 'res_name_col', 'spin_num_col', 'spin_name_col', 'data_col', 'error_col', 'sep'].
        @type key:      str
        @param value:   The value that the specific GUI element's SetValue() method expects.
        @type value:    unknown
        """

        # The default GUI element.
        if self.element_type == 'default':
            # Get the element.
            obj = getattr(self, key)

            # Convert the data.
            if key == 'sep':
                value = str_to_gui(value)
            else:
                value = int_to_gui(value)

            # Set the value.
            obj.SetValue(value)

        # The mini GUI element.
        elif self.element_type == 'mini':
            # Get the current values.
            settings = self.GetValue()

            # Replace the value.
            settings[key] = value

            # Set the values.
            if self.data_cols:
                string = self.to_string(
                    spin_id_col=settings['spin_id_col'],
                    mol_name_col=settings['mol_name_col'],
                    res_num_col=settings['res_num_col'],
                    res_name_col=settings['res_name_col'],
                    spin_num_col=settings['spin_num_col'],
                    spin_name_col=settings['spin_name_col'],
                    data_col=settings['data_col'],
                    error_col=settings['error_col'],
                    sep=settings['sep'])
            else:
                string = self.to_string(
                    spin_id_col=settings['spin_id_col'],
                    mol_name_col=settings['mol_name_col'],
                    res_num_col=settings['res_num_col'],
                    res_name_col=settings['res_name_col'],
                    spin_num_col=settings['spin_num_col'],
                    spin_name_col=settings['spin_name_col'],
                    sep=settings['sep'])
            self.field.SetValue(str_to_gui(string))
コード例 #9
0
ファイル: sequence.py プロジェクト: edward-dauvergne/relax
    def add_element(self, event=None):
        """Append a new row to the list.

        @keyword event: The wx event.
        @type event:    wx event
        """

        # The next index.
        next = self.sequence.GetItemCount()

        # Add a new row with the index at the start.
        if self.variable_length:
            self.sequence.InsertStringItem(next, int_to_gui(next+1))

        # Add a new empty row.
        else:
            self.sequence.InsertStringItem(next, str_to_gui(''))
コード例 #10
0
    def add_element(self, event=None):
        """Append a new row to the list.

        @keyword event: The wx event.
        @type event:    wx event
        """

        # The next index.
        next = self.sequence.GetItemCount()

        # Add a new row with the index at the start.
        if self.variable_length:
            self.sequence.InsertStringItem(next, int_to_gui(next+1))

        # Add a new empty row.
        else:
            self.sequence.InsertStringItem(next, str_to_gui(''))
コード例 #11
0
    def add_list(self, sizer):
        """Set up the list control.

        @param sizer:   A sizer object.
        @type sizer:    wx.Sizer instance
        """

        # The control.
        self.sequence = Sequence_list_ctrl(self)

        # Set the column title.
        title = "%s%s" % (self.name[0].upper(), self.name[1:])

        # Add the index column.
        if self.titles:
            self.sequence.InsertColumn(0, "Title")
            self.sequence.SetColumnWidth(0, 200)
        else:
            self.sequence.InsertColumn(0, "Number")
            self.sequence.SetColumnWidth(0, 70)

        # Add a single column, full width.
        self.sequence.InsertColumn(1, title)
        self.sequence.SetColumnWidth(1, wx.LIST_AUTOSIZE)

        # Add the table to the sizer.
        sizer.Add(self.sequence, 1, wx.ALL|wx.EXPAND, 0)

        # The fixed dimension sequence - add all the rows needed.
        if not self.variable_length:
            for i in range(self.dim):
                # Add a new row.
                self.add_element()

                # Add a title to the first column.
                if self.titles:
                    self.sequence.SetStringItem(i, 0, str_to_gui(self.titles[i]))

                # Otherwise add numbers starting from 1.
                else:
                    self.sequence.SetStringItem(i, 0, int_to_gui(i+1))
コード例 #12
0
ファイル: sequence.py プロジェクト: edward-dauvergne/relax
    def add_list(self, sizer):
        """Set up the list control.

        @param sizer:   A sizer object.
        @type sizer:    wx.Sizer instance
        """

        # The control.
        self.sequence = Sequence_list_ctrl(self)

        # Set the column title.
        title = "%s%s" % (self.name[0].upper(), self.name[1:])

        # Add the index column.
        if self.titles:
            self.sequence.InsertColumn(0, "Title")
            self.sequence.SetColumnWidth(0, 200)
        else:
            self.sequence.InsertColumn(0, "Number")
            self.sequence.SetColumnWidth(0, 70)

        # Add a single column, full width.
        self.sequence.InsertColumn(1, title)
        self.sequence.SetColumnWidth(1, wx.LIST_AUTOSIZE)

        # Add the table to the sizer.
        sizer.Add(self.sequence, 1, wx.ALL|wx.EXPAND, 0)

        # The fixed dimension sequence - add all the rows needed.
        if not self.variable_length:
            for i in range(self.dim):
                # Add a new row.
                self.add_element()

                # Add a title to the first column.
                if self.titles:
                    self.sequence.SetStringItem(i, 0, str_to_gui(self.titles[i]))

                # Otherwise add numbers starting from 1.
                else:
                    self.sequence.SetStringItem(i, 0, int_to_gui(i+1))
コード例 #13
0
    def SetValue(self, values):
        """Set up the list values.

        @param values:  The list of values to add to the list.
        @type values:   list of str or None
        """

        # No value.
        if values == None:
            return

        # Invalid list, so do nothing.
        if not self.variable_length and is_list(values) and len(values) != self.dim:
            return

        # Single values.
        try:
            len(values)
        except TypeError:
            if self.seq_type == 'list':
                values = [values]
            elif self.seq_type == 'tuple':
                values = (values,)

        # Loop over the entries.
        for i in range(len(values)):
            # Fixed dimension sequences - set the values of the pre-created list.
            if not self.variable_length:
                self.sequence.SetStringItem(i, 1, self.convert_to_gui(values[i]))

            # Variable dimension sequences - append the item to the end of the blank list.
            else:
                # The first element already exists.
                if i != 0:
                    # First add the index+1.
                    self.sequence.InsertStringItem(i, int_to_gui(i+1))

                # Then set the value.
                self.sequence.SetStringItem(i, 1, self.convert_to_gui(values[i]))
コード例 #14
0
    def test_value_set(self):
        """Test the full operation of the value.set user function GUI window."""

        # Create the data pipe.
        self.exec_uf_pipe_create(pipe_name='value.set user function test')

        # Create a spin to add data to.
        uf = uf_store['spin.create']
        uf._sync = True
        uf.create_wizard(parent=self.app.gui)
        uf.page.SetValue('res_num', int_to_gui(1))
        uf.page.SetValue('res_name', str_to_gui('Gly'))
        uf.page.SetValue('spin_name', str_to_gui('N'))
        uf.wizard._go_next(None)

        # Open the value.set user function window.
        uf = uf_store['value.set']
        uf._sync = True
        uf.create_wizard(parent=self.app.gui)
        uf.page.SetValue('val', float_to_gui(-0.000172))
        uf.page.SetValue('param', str_to_gui('csa'))
        uf.wizard._go_next(None)
コード例 #15
0
ファイル: sequence.py プロジェクト: edward-dauvergne/relax
    def SetValue(self, values):
        """Set up the list values.

        @param values:  The list of values to add to the list.
        @type values:   list of str or None
        """

        # No value.
        if values == None:
            return

        # Invalid list, so do nothing.
        if not self.variable_length and is_list(values) and len(values) != self.dim:
            return

        # Single values.
        try:
            len(values)
        except TypeError:
            if self.seq_type == 'list':
                values = [values]
            elif self.seq_type == 'tuple':
                values = (values,)

        # Loop over the entries.
        for i in range(len(values)):
            # Fixed dimension sequences - set the values of the pre-created list.
            if not self.variable_length:
                self.sequence.SetStringItem(i, 1, self.convert_to_gui(values[i]))

            # Variable dimension sequences - append the item to the end of the blank list.
            else:
                # The first element already exists.
                if i != 0:
                    # First add the index+1.
                    self.sequence.InsertStringItem(i, int_to_gui(i+1))

                # Then set the value.
                self.sequence.SetStringItem(i, 1, self.convert_to_gui(values[i]))
コード例 #16
0
    def SetValue(self, key, value):
        """Special method for setting the value of the GUI element corresponding to the key.

        @param key:     The key corresponding to the desired GUI element.  This can be one of ['spin_id_col', 'mol_name_col', 'res_num_col', 'res_name_col', 'spin_num_col', 'spin_name_col', 'data_col', 'error_col', 'sep'].
        @type key:      str
        @param value:   The value that the specific GUI element's SetValue() method expects.
        @type value:    unknown
        """

        # The default GUI element.
        if self.element_type == 'default':
            # Get the element.
            obj = getattr(self, key)

            # Convert the data.
            if key == 'sep':
                value = str_to_gui(value)
            else:
                value = int_to_gui(value)

            # Set the value.
            obj.SetValue(value)

        # The mini GUI element.
        elif self.element_type == 'mini':
            # Get the current values.
            settings = self.GetValue()

            # Replace the value.
            settings[key] = value

            # Set the values.
            if self.data_cols:
                string = self.to_string(spin_id_col=settings['spin_id_col'], mol_name_col=settings['mol_name_col'], res_num_col=settings['res_num_col'], res_name_col=settings['res_name_col'], spin_num_col=settings['spin_num_col'], spin_name_col=settings['spin_name_col'], data_col=settings['data_col'], error_col=settings['error_col'], sep=settings['sep'])
            else:
                string = self.to_string(spin_id_col=settings['spin_id_col'], mol_name_col=settings['mol_name_col'], res_num_col=settings['res_num_col'], res_name_col=settings['res_name_col'], spin_num_col=settings['spin_num_col'], spin_name_col=settings['spin_name_col'], sep=settings['sep'])
            self.field.SetValue(str_to_gui(string))
コード例 #17
0
    def test_structure_rotate(self):
        """Test the operation of the structure.rotate user function GUI window."""

        # Create the data pipe.
        self.exec_uf_pipe_create(pipe_name='PDB rotation test')

        # Open the structure.read_pdb user function window.
        uf = uf_store['structure.read_pdb']
        uf._sync = True
        uf.create_wizard(parent=self.app.gui)

        # The PDB file to operate on.
        file = status.install_path + sep + 'test_suite' + sep + 'shared_data' + sep + 'structures' + sep + 'trunc_ubi_pcs.pdb'
        uf.page.SetValue('file', str_to_gui(file))

        # Set the models to read.
        uf.page.SetValue('read_model', str_to_gui('6'))
        uf.page.uf_args['read_model'].selection_win_show()
        uf.page.uf_args['read_model'].sel_win.add_element(None)
        uf.page.uf_args['read_model'].sel_win.sequence.SetStringItem(index=0, col=1, label=int_to_gui(2))
        uf.page.uf_args['read_model'].sel_win.sequence.SetStringItem(index=1, col=1, label=int_to_gui(4))
        uf.page.uf_args['read_model'].selection_win_data()

        # Renumber the models.
        uf.page.uf_args['set_model_num'].selection_win_show()
        uf.page.uf_args['set_model_num'].sel_win.add_element(None)
        uf.page.uf_args['set_model_num'].sel_win.sequence.SetStringItem(index=0, col=1, label=int_to_gui(1))
        uf.page.uf_args['set_model_num'].sel_win.sequence.SetStringItem(index=1, col=1, label=int_to_gui(3))
        uf.page.uf_args['set_model_num'].selection_win_data()

        # GUI data checks.
        self.assertEqual(uf.page.uf_args['read_model'].GetValue(), [2, 4])
        self.assertEqual(uf.page.uf_args['set_model_num'].GetValue(), [1, 3])

        # Execute the user function.
        uf.wizard._go_next(None)

        # Open the structure.rotate user function window.
        uf = uf_store['structure.rotate']
        uf._sync = True
        uf.create_wizard(parent=self.app.gui)

        # Change the rotation matrix in the Sequence_2D window, without changing anything, then check it.
        uf.page.uf_args['R'].selection_win_show()
        uf.page.uf_args['R'].sel_win.sequence.SetStringItem(index=1, col=1, label=int_to_gui(2))
        uf.page.uf_args['R'].selection_win_data()
        R = uf.page.uf_args['R'].GetValue()
        print("Rotation matrix:\n%s" % R)
        self.assertEqual(len(R), 3)
        self.assertEqual(len(R[0]), 3)
        self.assertEqual(R[0][0], 1)
        self.assertEqual(R[0][1], 0)
        self.assertEqual(R[0][2], 0)
        self.assertEqual(R[1][0], 0)
        self.assertEqual(R[1][1], 2)
        self.assertEqual(R[1][2], 0)
        self.assertEqual(R[2][0], 0)
        self.assertEqual(R[2][1], 0)
        self.assertEqual(R[2][2], 1)

        # Set the rotation matrix to nothing in the wizard, open the Sequence_2D window, set a value, close the window, and check what happens.
        uf.page.uf_args['R'].SetValue(str_to_gui(''))
        uf.page.uf_args['R'].selection_win_show()
        uf.page.uf_args['R'].sel_win.sequence.SetStringItem(index=1, col=1, label=int_to_gui(2))
        uf.page.uf_args['R'].selection_win_data()
        R = uf.page.uf_args['R'].GetValue()
        print("Rotation matrix:\n%s" % R)
        self.assertEqual(len(R), 3)
        self.assertEqual(len(R[0]), 3)
        self.assertEqual(R[0][0], None)
        self.assertEqual(R[0][1], None)
        self.assertEqual(R[0][2], None)
        self.assertEqual(R[1][0], None)
        self.assertEqual(R[1][1], 2)
        self.assertEqual(R[1][2], None)
        self.assertEqual(R[2][0], None)
        self.assertEqual(R[2][1], None)
        self.assertEqual(R[2][2], None)

        # Set the rotation matrix to nothing in the wizard, open the Sequence_2D window, close the window, and check that None comes back.
        uf.page.uf_args['R'].SetValue(str_to_gui(''))
        uf.page.uf_args['R'].selection_win_show()
        uf.page.uf_args['R'].selection_win_data()
        R = uf.page.uf_args['R'].GetValue()
        print("Rotation matrix:\n%s" % R)
        self.assertEqual(R, None)

        # Set the rotation matrix to a number of invalid values, checking that they are ignored.
        for val in ['2', 'die', '[1, 2, 3]', '[1]', '[[1, 2, 3], 1, 2, 3], [1, 2, 3]]']:
            uf.page.uf_args['R'].SetValue(str_to_gui(val))
            uf.page.uf_args['R'].selection_win_show()
            uf.page.uf_args['R'].selection_win_data()
            R = uf.page.uf_args['R'].GetValue()
            print("Rotation matrix:\n%s" % R)
            self.assertEqual(R, None)

        # Set the Sequence_2D elements to invalid values.
        for val in ['x']:
            uf.page.uf_args['R'].SetValue(str_to_gui(''))
            uf.page.uf_args['R'].selection_win_show()
            uf.page.uf_args['R'].sel_win.sequence.SetStringItem(index=1, col=1, label=str_to_gui(val))
            uf.page.uf_args['R'].sel_win.sequence.SetStringItem(index=0, col=0, label=int_to_gui(1))
            uf.page.uf_args['R'].selection_win_data()
            R = uf.page.uf_args['R'].GetValue()
            print("Rotation matrix:\n%s" % R)
            self.assertEqual(len(R), 3)
            self.assertEqual(len(R[0]), 3)
            self.assertEqual(R[0][0], 1.0)
            self.assertEqual(R[0][1], None)
            self.assertEqual(R[0][2], None)
            self.assertEqual(R[1][0], None)
            self.assertEqual(R[1][1], None)
            self.assertEqual(R[1][2], None)
            self.assertEqual(R[2][0], None)
            self.assertEqual(R[2][1], None)
            self.assertEqual(R[2][2], None)

        # Check the structural data.
        self.assert_(hasattr(cdp, 'structure'))
        self.assert_(hasattr(cdp.structure, 'structural_data'))
        self.assertEqual(len(cdp.structure.structural_data), 2)
        self.assertEqual(cdp.structure.structural_data[0].num, 1)
        self.assertEqual(cdp.structure.structural_data[1].num, 3)
コード例 #18
0
    def test_structure_pdb_read(self):
        """Test the full operation of the structure.read_pdb user function GUI window."""

        # Open the pipe.create user function window, set the args and execute.
        uf = uf_store['pipe.create']
        uf._sync = True
        uf.create_wizard(parent=self.app.gui)
        uf.page.SetValue('pipe_name', str_to_gui('PDB reading test'))
        uf.page.SetValue('pipe_type', str_to_gui('mf'))
        uf.wizard._go_next(None)

        # Open the structure.read_pdb user function window.
        uf = uf_store['structure.read_pdb']
        uf._sync = True
        uf.create_wizard(parent=self.app.gui)

        # The PDB file to operate on.
        file = status.install_path + sep + 'test_suite' + sep + 'shared_data' + sep + 'structures' + sep + 'trunc_ubi_pcs.pdb'
        uf.page.SetValue('file', str_to_gui(file))

        # Set the models to read.
        uf.page.SetValue('read_model', str_to_gui('6'))
        uf.page.uf_args['read_model'].selection_win_show()
        uf.page.uf_args['read_model'].sel_win.append_row(None)
        uf.page.uf_args['read_model'].sel_win.sequence.SetStringItem(index=0, col=0, label=int_to_gui(2))
        uf.page.uf_args['read_model'].sel_win.sequence.SetStringItem(index=1, col=0, label=int_to_gui(4))
        uf.page.uf_args['read_model'].selection_win_data()

        # Renumber the models.
        uf.page.uf_args['set_model_num'].selection_win_show()
        uf.page.uf_args['set_model_num'].sel_win.append_row(None)
        uf.page.uf_args['set_model_num'].sel_win.append_row(None)
        uf.page.uf_args['set_model_num'].sel_win.sequence.SetStringItem(index=0, col=0, label=int_to_gui(1))
        uf.page.uf_args['set_model_num'].sel_win.sequence.SetStringItem(index=1, col=0, label=int_to_gui(3))
        uf.page.uf_args['set_model_num'].selection_win_data()

        # GUI data checks.
        self.assertEqual(uf.page.uf_args['read_model'].GetValue(), [2, 4])
        self.assertEqual(uf.page.uf_args['set_model_num'].GetValue(), [1, 3])

        # Execute the user function.
        uf.wizard._go_next(None)

        # Check the structural data.
        self.assert_(hasattr(cdp, 'structure'))
        self.assert_(hasattr(cdp.structure, 'structural_data'))
        self.assertEqual(len(cdp.structure.structural_data), 2)
        self.assertEqual(cdp.structure.structural_data[0].num, 1)
        self.assertEqual(cdp.structure.structural_data[1].num, 3)
コード例 #19
0
    def test_structure_rotate(self):
        """Test the operation of the structure.rotate user function GUI window."""

        # Create the data pipe.
        self.exec_uf_pipe_create(pipe_name='PDB rotation test')

        # Open the structure.read_pdb user function window.
        uf = uf_store['structure.read_pdb']
        uf._sync = True
        uf.create_wizard(parent=self.app.gui)

        # The PDB file to operate on.
        file = status.install_path + sep + 'test_suite' + sep + 'shared_data' + sep + 'structures' + sep + 'trunc_ubi_pcs.pdb'
        uf.page.SetValue('file', str_to_gui(file))

        # Set the models to read.
        uf.page.SetValue('read_model', str_to_gui('6'))
        uf.page.uf_args['read_model'].selection_win_show()
        uf.page.uf_args['read_model'].sel_win.add_element(None)
        if dep_check.wx_classic:
            uf.page.uf_args['read_model'].sel_win.sequence.SetStringItem(0, 1, int_to_gui(2))
            uf.page.uf_args['read_model'].sel_win.sequence.SetStringItem(1, 1, int_to_gui(4))
        else:
            uf.page.uf_args['read_model'].sel_win.sequence.SetItem(0, 1, int_to_gui(2))
            uf.page.uf_args['read_model'].sel_win.sequence.SetItem(1, 1, int_to_gui(4))
        uf.page.uf_args['read_model'].selection_win_data()

        # Renumber the models.
        uf.page.uf_args['set_model_num'].selection_win_show()
        uf.page.uf_args['set_model_num'].sel_win.add_element(None)
        if dep_check.wx_classic:
            uf.page.uf_args['set_model_num'].sel_win.sequence.SetStringItem(0, 1, int_to_gui(1))
            uf.page.uf_args['set_model_num'].sel_win.sequence.SetStringItem(1, 1, int_to_gui(3))
        else:
            uf.page.uf_args['set_model_num'].sel_win.sequence.SetItem(0, 1, int_to_gui(1))
            uf.page.uf_args['set_model_num'].sel_win.sequence.SetItem(1, 1, int_to_gui(3))
        uf.page.uf_args['set_model_num'].selection_win_data()

        # GUI data checks.
        self.assertEqual(uf.page.uf_args['read_model'].GetValue(), [2, 4])
        self.assertEqual(uf.page.uf_args['set_model_num'].GetValue(), [1, 3])

        # Execute the user function.
        uf.wizard._go_next(None)

        # Open the structure.rotate user function window.
        uf = uf_store['structure.rotate']
        uf._sync = True
        uf.create_wizard(parent=self.app.gui)

        # Change the rotation matrix in the Sequence_2D window, without changing anything, then check it.
        uf.page.uf_args['R'].selection_win_show()
        if dep_check.wx_classic:
            uf.page.uf_args['R'].sel_win.sequence.SetStringItem(1, 1, int_to_gui(2))
        else:
            uf.page.uf_args['R'].sel_win.sequence.SetItem(1, 1, int_to_gui(2))
        uf.page.uf_args['R'].selection_win_data()
        R = uf.page.uf_args['R'].GetValue()
        print("Rotation matrix:\n%s" % R)
        self.assertEqual(len(R), 3)
        self.assertEqual(len(R[0]), 3)
        self.assertEqual(R[0][0], 1)
        self.assertEqual(R[0][1], 0)
        self.assertEqual(R[0][2], 0)
        self.assertEqual(R[1][0], 0)
        self.assertEqual(R[1][1], 2)
        self.assertEqual(R[1][2], 0)
        self.assertEqual(R[2][0], 0)
        self.assertEqual(R[2][1], 0)
        self.assertEqual(R[2][2], 1)

        # Set the rotation matrix to nothing in the wizard, open the Sequence_2D window, set a value, close the window, and check what happens.
        uf.page.uf_args['R'].SetValue(str_to_gui(''))
        uf.page.uf_args['R'].selection_win_show()
        if dep_check.wx_classic:
            uf.page.uf_args['R'].sel_win.sequence.SetStringItem(1, 1, int_to_gui(2))
        else:
            uf.page.uf_args['R'].sel_win.sequence.SetItem(1, 1, int_to_gui(2))
        uf.page.uf_args['R'].selection_win_data()
        R = uf.page.uf_args['R'].GetValue()
        print("Rotation matrix:\n%s" % R)
        self.assertEqual(len(R), 3)
        self.assertEqual(len(R[0]), 3)
        self.assertEqual(R[0][0], None)
        self.assertEqual(R[0][1], None)
        self.assertEqual(R[0][2], None)
        self.assertEqual(R[1][0], None)
        self.assertEqual(R[1][1], 2)
        self.assertEqual(R[1][2], None)
        self.assertEqual(R[2][0], None)
        self.assertEqual(R[2][1], None)
        self.assertEqual(R[2][2], None)

        # Set the rotation matrix to nothing in the wizard, open the Sequence_2D window, close the window, and check that None comes back.
        uf.page.uf_args['R'].SetValue(str_to_gui(''))
        uf.page.uf_args['R'].selection_win_show()
        uf.page.uf_args['R'].selection_win_data()
        R = uf.page.uf_args['R'].GetValue()
        print("Rotation matrix:\n%s" % R)
        self.assertEqual(R, None)

        # Set the rotation matrix to a number of invalid values, checking that they are ignored.
        for val in ['2', 'die', '[1, 2, 3]', '[1]', '[[1, 2, 3], 1, 2, 3], [1, 2, 3]]']:
            uf.page.uf_args['R'].SetValue(str_to_gui(val))
            uf.page.uf_args['R'].selection_win_show()
            uf.page.uf_args['R'].selection_win_data()
            R = uf.page.uf_args['R'].GetValue()
            print("Rotation matrix:\n%s" % R)
            self.assertEqual(R, None)

        # Set the Sequence_2D elements to invalid values.
        for val in ['x']:
            uf.page.uf_args['R'].SetValue(str_to_gui(''))
            uf.page.uf_args['R'].selection_win_show()
            if dep_check.wx_classic:
                uf.page.uf_args['R'].sel_win.sequence.SetStringItem(1, 1, str_to_gui(val))
                uf.page.uf_args['R'].sel_win.sequence.SetStringItem(0, 0, int_to_gui(1))
            else:
                uf.page.uf_args['R'].sel_win.sequence.SetItem(1, 1, str_to_gui(val))
                uf.page.uf_args['R'].sel_win.sequence.SetItem(0, 0, int_to_gui(1))
            uf.page.uf_args['R'].selection_win_data()
            R = uf.page.uf_args['R'].GetValue()
            print("Rotation matrix:\n%s" % R)
            self.assertEqual(len(R), 3)
            self.assertEqual(len(R[0]), 3)
            self.assertEqual(R[0][0], 1.0)
            self.assertEqual(R[0][1], None)
            self.assertEqual(R[0][2], None)
            self.assertEqual(R[1][0], None)
            self.assertEqual(R[1][1], None)
            self.assertEqual(R[1][2], None)
            self.assertEqual(R[2][0], None)
            self.assertEqual(R[2][1], None)
            self.assertEqual(R[2][2], None)

        # Check the structural data.
        self.assert_(hasattr(cdp, 'structure'))
        self.assert_(hasattr(cdp.structure, 'structural_data'))
        self.assertEqual(len(cdp.structure.structural_data), 2)
        self.assertEqual(cdp.structure.structural_data[0].num, 1)
        self.assertEqual(cdp.structure.structural_data[1].num, 3)
コード例 #20
0
    def test_structure_add_atom(self):
        """Test the operation of the structure.add_atom user function GUI window."""

        # Open the structure.add_atom user function window.
        uf = uf_store['structure.add_atom']
        uf._sync = True
        uf.create_wizard(parent=self.app.gui)

        # Set the y-value of a single pos, and check.
        #uf.page.uf_args['pos'].selection_win_show()
        #if dep_check.wx_classic:
        #    uf.page.uf_args['pos'].sel_win.sequence.SetStringItem(1, 1, int_to_gui(2))
        #else:
        #    uf.page.uf_args['pos'].sel_win.sequence.SetItem(1, 1, int_to_gui(2))
        #uf.page.uf_args['pos'].selection_win_data()
        #pos = uf.page.uf_args['pos'].GetValue()
        #print("Pos:  %s" % pos)
        #self.assertEqual(len(pos), 3)
        #self.assertEqual(pos[0], None)
        #self.assertEqual(pos[1], 2.0)
        #self.assertEqual(pos[2], None)

        # Set the pos to nothing in the wizard, open the Sequence window, close the window, and check that None comes back.
        val = ''
        sys.stdout.write("Value: %40s;  " % repr(val))
        uf.page.uf_args['pos'].SetValue(str_to_gui(val))
        uf.page.uf_args['pos'].selection_win_show()
        uf.page.uf_args['pos'].selection_win_data()
        pos = uf.page.uf_args['pos'].GetValue()
        sys.stdout.write("Return: %40s\n" % repr(pos))
        self.assertEqual(pos, None)

        # Set a valid pos in the wizard, open and close the Sequence window (twice), and check that the pos comes back.
        val = '[1, 2, -3.]'
        sys.stdout.write("Value: %40s;  " % repr(val))
        uf.page.uf_args['pos'].SetValue(str_to_gui(val))
        uf.page.uf_args['pos'].selection_win_show()
        uf.page.uf_args['pos'].selection_win_data()
        uf.page.uf_args['pos'].selection_win_show()
        uf.page.uf_args['pos'].selection_win_data()
        pos = uf.page.uf_args['pos'].GetValue()
        sys.stdout.write("Return: %40s\n" % repr(pos))
        self.assertEqual(len(pos), 1)
        self.assertEqual(len(pos[0]), 3)
        self.assertEqual(pos[0][0], 1.0)
        self.assertEqual(pos[0][1], 2.0)
        self.assertEqual(pos[0][2], -3.0)

        # Set the pos to a number of invalid values, checking that they are ignored.
        for val in ['die', '[1, 2, 3', '[[1, 2, 3], 1, 2, 3], [1, 2, 3]]']:
            sys.stdout.write("Value: %40s;  " % repr(val))
            uf.page.uf_args['pos'].SetValue(str_to_gui(val))
            uf.page.uf_args['pos'].selection_win_show()
            uf.page.uf_args['pos'].selection_win_data()
            pos = uf.page.uf_args['pos'].GetValue()
            sys.stdout.write("Return: %40s\n" % repr(pos))
            self.assertEqual(pos, None)

        # Set the Sequence elements to invalid values.
        for val in ['x']:
            sys.stdout.write("Value: %40s;  " % repr(val))
            uf.page.uf_args['pos'].SetValue(str_to_gui(''))
            uf.page.uf_args['pos'].selection_win_show()
            uf.page.uf_args['pos'].sel_win.add_element()
            if dep_check.wx_classic:
                uf.page.uf_args['pos'].sel_win.sequence.SetStringItem(1, 1, str_to_gui(val))
                uf.page.uf_args['pos'].sel_win.sequence.SetStringItem(0, 1, int_to_gui(1))
            else:
                uf.page.uf_args['pos'].sel_win.sequence.SetItem(1, 1, str_to_gui(val))
                uf.page.uf_args['pos'].sel_win.sequence.SetItem(0, 1, int_to_gui(1))
            uf.page.uf_args['pos'].selection_win_data()
            pos = uf.page.uf_args['pos'].GetValue()
            sys.stdout.write("Return: %40s\n" % repr(pos))
            #self.assertEqual(len(pos), 1)
            self.assertEqual(pos[0][0], 1.0)
コード例 #21
0
    def test_dx_map(self):
        """Test the operation of the dx.map user function GUI window."""

        # Open the dx.map user function window.
        uf = uf_store['dx.map']
        uf._sync = True
        uf.create_wizard(parent=self.app.gui)

        # Set the y-value of a single point, and check.
        uf.page.uf_args['point'].selection_win_show()
        if dep_check.wx_classic:
            uf.page.uf_args['point'].sel_win.sequence.SetStringItem(0, 2, int_to_gui(2))
        else:
            uf.page.uf_args['point'].sel_win.sequence.SetItem(0, 2, int_to_gui(2))
        uf.page.uf_args['point'].selection_win_data()
        points = uf.page.uf_args['point'].GetValue()
        print("Points:  %s" % points)
        self.assertEqual(len(points), 1)
        self.assertEqual(len(points[0]), 3)
        self.assertEqual(points[0][0], None)
        self.assertEqual(points[0][1], 2.0)
        self.assertEqual(points[0][2], None)

        # Set the point to nothing in the wizard, open the Sequence_2D window, close the window, and check that None comes back.
        uf.page.uf_args['point'].SetValue(str_to_gui(''))
        uf.page.uf_args['point'].selection_win_show()
        uf.page.uf_args['point'].selection_win_data()
        points = uf.page.uf_args['point'].GetValue()
        print("Points:  %s" % points)
        self.assertEqual(points, None)

        # Set a valid point in the wizard, open and close the Sequence_2D window (twice), and check that the point comes back.
        uf.page.uf_args['point'].SetValue(str_to_gui('[[1, 2, -3.]]'))
        uf.page.uf_args['point'].selection_win_show()
        uf.page.uf_args['point'].selection_win_data()
        uf.page.uf_args['point'].selection_win_show()
        uf.page.uf_args['point'].selection_win_data()
        points = uf.page.uf_args['point'].GetValue()
        print("Points:  %s" % points)
        self.assertEqual(len(points), 1)
        self.assertEqual(len(points[0]), 3)
        self.assertEqual(points[0][0], 1.0)
        self.assertEqual(points[0][1], 2.0)
        self.assertEqual(points[0][2], -3.0)

        # Set 2 valid points in the wizard, open and close the Sequence_2D window (twice), and check that the points come back.
        uf.page.uf_args['point'].SetValue(str_to_gui('[[1, 2, 3], [-2, -3, -4]]'))
        uf.page.uf_args['point'].selection_win_show()
        uf.page.uf_args['point'].selection_win_data()
        uf.page.uf_args['point'].selection_win_show()
        uf.page.uf_args['point'].selection_win_data()
        points = uf.page.uf_args['point'].GetValue()
        print("Points:  %s" % points)
        self.assertEqual(len(points), 2)
        self.assertEqual(len(points[0]), 3)
        self.assertEqual(len(points[1]), 3)
        self.assertEqual(points[0][0], 1.0)
        self.assertEqual(points[0][1], 2.0)
        self.assertEqual(points[0][2], 3.0)
        self.assertEqual(points[1][0], -2.0)
        self.assertEqual(points[1][1], -3.0)
        self.assertEqual(points[1][2], -4.0)

        # Set the points to a number of invalid values, checking that they are ignored.
        for val in ['2', 'die', '[1, 2, 3', '[1]', '[[1, 2, 3], 1, 2, 3], [1, 2, 3]]']:
            uf.page.uf_args['point'].SetValue(str_to_gui(val))
            uf.page.uf_args['point'].selection_win_show()
            uf.page.uf_args['point'].selection_win_data()
            points = uf.page.uf_args['point'].GetValue()
            print("Points:  %s" % points)
            self.assertEqual(points, None)

        # Set the Sequence_2D elements to invalid values.
        for val in ['x']:
            uf.page.uf_args['point'].SetValue(str_to_gui(''))
            uf.page.uf_args['point'].selection_win_show()
            if dep_check.wx_classic:
                uf.page.uf_args['point'].sel_win.sequence.SetStringItem(0, 2, str_to_gui(val))
                uf.page.uf_args['point'].sel_win.sequence.SetStringItem(0, 1, int_to_gui(1))
            else:
                uf.page.uf_args['point'].sel_win.sequence.SetItem(0, 2, str_to_gui(val))
                uf.page.uf_args['point'].sel_win.sequence.SetItem(0, 1, int_to_gui(1))
            uf.page.uf_args['point'].selection_win_data()
            points = uf.page.uf_args['point'].GetValue()
            print("Points:  %s" % points)
            self.assertEqual(len(points), 1)
            self.assertEqual(len(points[0]), 3)
            self.assertEqual(points[0][0], 1.0)
            self.assertEqual(points[0][1], None)
            self.assertEqual(points[0][2], None)
コード例 #22
0
    def test_dx_map(self):
        """Test the operation of the dx.map user function GUI window."""

        # Open the dx.map user function window.
        uf = uf_store['dx.map']
        uf._sync = True
        uf.create_wizard(parent=self.app.gui)

        # Set the y-value of a single point, and check.
        uf.page.uf_args['point'].selection_win_show()
        uf.page.uf_args['point'].sel_win.sequence.SetStringItem(index=0, col=2, label=int_to_gui(2))
        uf.page.uf_args['point'].selection_win_data()
        points = uf.page.uf_args['point'].GetValue()
        print("Points:  %s" % points)
        self.assertEqual(len(points), 1)
        self.assertEqual(len(points[0]), 3)
        self.assertEqual(points[0][0], None)
        self.assertEqual(points[0][1], 2.0)
        self.assertEqual(points[0][2], None)

        # Set the point to nothing in the wizard, open the Sequence_2D window, close the window, and check that None comes back.
        uf.page.uf_args['point'].SetValue(str_to_gui(''))
        uf.page.uf_args['point'].selection_win_show()
        uf.page.uf_args['point'].selection_win_data()
        points = uf.page.uf_args['point'].GetValue()
        print("Points:  %s" % points)
        self.assertEqual(points, None)

        # Set a valid point in the wizard, open and close the Sequence_2D window (twice), and check that the point comes back.
        uf.page.uf_args['point'].SetValue(str_to_gui('[[1, 2, -3.]]'))
        uf.page.uf_args['point'].selection_win_show()
        uf.page.uf_args['point'].selection_win_data()
        uf.page.uf_args['point'].selection_win_show()
        uf.page.uf_args['point'].selection_win_data()
        points = uf.page.uf_args['point'].GetValue()
        print("Points:  %s" % points)
        self.assertEqual(len(points), 1)
        self.assertEqual(len(points[0]), 3)
        self.assertEqual(points[0][0], 1.0)
        self.assertEqual(points[0][1], 2.0)
        self.assertEqual(points[0][2], -3.0)

        # Set 2 valid points in the wizard, open and close the Sequence_2D window (twice), and check that the points come back.
        uf.page.uf_args['point'].SetValue(str_to_gui('[[1, 2, 3], [-2, -3, -4]]'))
        uf.page.uf_args['point'].selection_win_show()
        uf.page.uf_args['point'].selection_win_data()
        uf.page.uf_args['point'].selection_win_show()
        uf.page.uf_args['point'].selection_win_data()
        points = uf.page.uf_args['point'].GetValue()
        print("Points:  %s" % points)
        self.assertEqual(len(points), 2)
        self.assertEqual(len(points[0]), 3)
        self.assertEqual(len(points[1]), 3)
        self.assertEqual(points[0][0], 1.0)
        self.assertEqual(points[0][1], 2.0)
        self.assertEqual(points[0][2], 3.0)
        self.assertEqual(points[1][0], -2.0)
        self.assertEqual(points[1][1], -3.0)
        self.assertEqual(points[1][2], -4.0)

        # Set the points to a number of invalid values, checking that they are ignored.
        for val in ['2', 'die', '[1, 2, 3]', '[1]', '[[1, 2, 3], 1, 2, 3], [1, 2, 3]]']:
            uf.page.uf_args['point'].SetValue(str_to_gui(val))
            uf.page.uf_args['point'].selection_win_show()
            uf.page.uf_args['point'].selection_win_data()
            points = uf.page.uf_args['point'].GetValue()
            print("Points:  %s" % points)
            self.assertEqual(points, None)

        # Set the Sequence_2D elements to invalid values.
        for val in ['x']:
            uf.page.uf_args['point'].SetValue(str_to_gui(''))
            uf.page.uf_args['point'].selection_win_show()
            uf.page.uf_args['point'].sel_win.sequence.SetStringItem(index=0, col=2, label=str_to_gui(val))
            uf.page.uf_args['point'].sel_win.sequence.SetStringItem(index=0, col=1, label=int_to_gui(1))
            uf.page.uf_args['point'].selection_win_data()
            points = uf.page.uf_args['point'].GetValue()
            print("Points:  %s" % points)
            self.assertEqual(len(points), 1)
            self.assertEqual(len(points[0]), 3)
            self.assertEqual(points[0][0], 1.0)
            self.assertEqual(points[0][1], None)
            self.assertEqual(points[0][2], None)
コード例 #23
0
    def test_structure_add_atom(self):
        """Test the operation of the structure.add_atom user function GUI window."""

        # Open the structure.add_atom user function window.
        uf = uf_store['structure.add_atom']
        uf._sync = True
        uf.create_wizard(parent=self.app.gui)

        # Set the y-value of a single pos, and check.
        #uf.page.uf_args['pos'].selection_win_show()
        #uf.page.uf_args['pos'].sel_win.sequence.SetStringItem(index=1, col=1, label=int_to_gui(2))
        #uf.page.uf_args['pos'].selection_win_data()
        #pos = uf.page.uf_args['pos'].GetValue()
        #print("Pos:  %s" % pos)
        #self.assertEqual(len(pos), 3)
        #self.assertEqual(pos[0], None)
        #self.assertEqual(pos[1], 2.0)
        #self.assertEqual(pos[2], None)

        # Set the pos to nothing in the wizard, open the Sequence window, close the window, and check that None comes back.
        val = ''
        sys.stdout.write("Value: %40s;  " % repr(val))
        uf.page.uf_args['pos'].SetValue(str_to_gui(val))
        uf.page.uf_args['pos'].selection_win_show()
        uf.page.uf_args['pos'].selection_win_data()
        pos = uf.page.uf_args['pos'].GetValue()
        sys.stdout.write("Return: %40s\n" % repr(pos))
        self.assertEqual(pos, None)

        # Set a valid pos in the wizard, open and close the Sequence window (twice), and check that the pos comes back.
        val = '[1, 2, -3.]'
        sys.stdout.write("Value: %40s;  " % repr(val))
        uf.page.uf_args['pos'].SetValue(str_to_gui(val))
        uf.page.uf_args['pos'].selection_win_show()
        uf.page.uf_args['pos'].selection_win_data()
        uf.page.uf_args['pos'].selection_win_show()
        uf.page.uf_args['pos'].selection_win_data()
        pos = uf.page.uf_args['pos'].GetValue()
        sys.stdout.write("Return: %40s\n" % repr(pos))
        self.assertEqual(len(pos), 3)
        self.assertEqual(pos[0], 1.0)
        self.assertEqual(pos[1], 2.0)
        self.assertEqual(pos[2], -3.0)

        # Set the pos to a number of invalid values, checking that they are ignored.
        for val in ['die', '[1, 2, 3', '[[1, 2, 3], 1, 2, 3], [1, 2, 3]]']:
            sys.stdout.write("Value: %40s;  " % repr(val))
            uf.page.uf_args['pos'].SetValue(str_to_gui(val))
            uf.page.uf_args['pos'].selection_win_show()
            uf.page.uf_args['pos'].selection_win_data()
            pos = uf.page.uf_args['pos'].GetValue()
            sys.stdout.write("Return: %40s\n" % repr(pos))
            self.assertEqual(pos, None)

        # Set the Sequence elements to invalid values.
        for val in ['x']:
            sys.stdout.write("Value: %40s;  " % repr(val))
            uf.page.uf_args['pos'].SetValue(str_to_gui(''))
            uf.page.uf_args['pos'].selection_win_show()
            uf.page.uf_args['pos'].sel_win.add_element()
            uf.page.uf_args['pos'].sel_win.sequence.SetStringItem(index=1, col=1, label=str_to_gui(val))
            uf.page.uf_args['pos'].sel_win.sequence.SetStringItem(index=0, col=1, label=int_to_gui(1))
            uf.page.uf_args['pos'].selection_win_data()
            pos = uf.page.uf_args['pos'].GetValue()
            sys.stdout.write("Return: %40s\n" % repr(pos))
            #self.assertEqual(len(pos), 3)
            self.assertEqual(pos[0], 1.0)