示例#1
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    def test_pseudoatom(self):
        self.pymol_file.commands += PyMOLCommands.pseudoatom(
            "mypseudoatom", (1, 1, 1), self.pomegranate)

        self.pymol_file.commands += PyMOLCommands.pseudoatom(
            "mypseudoatom2", (2, 2, 2), self.pomegranate, "31.2")

        self.pymol_file.write("testdata/wrapper_pymol/test_pseudoatom.py")
示例#2
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    def test_group(self):
        self.pymol_file.commands += PyMOLCommands.line("myline1", (0, 0, 0),
                                                       (1, 1, 1),
                                                       self.pomegranate,
                                                       width=10)

        self.pymol_file.commands += PyMOLCommands.pseudoatom(
            "mypseudoatom1", (0, 0, 0), self.pomegranate)

        self.pymol_file.commands += PyMOLCommands.pseudoatom(
            "mypseudoatom2", (1, 1, 1), self.pomegranate)
        self.pymol_file.commands += PyMOLCommands.group(
            "mygroup", ["myline1", "mypseudoatom1", "mypseudoatom2"])

        self.pymol_file.write("testdata/wrapper_pymol/test_group.py")
示例#3
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    def to_pymol_str(self, i=0, label=True, transparency=0.6):
        pymol_out = ""
        point_colour = rgb_to_decimal(self.colour)
        point_colour = utilities.Colour(point_colour[0], point_colour[1],
                                        point_colour[2], transparency)
        feat_ID = f"{self.identifier}_{i}"
        group = []

        coords = (self.point[0].centre[0], self.point[0].centre[1],
                  self.point[0].centre[2])

        radius = self.point[0].radius

        point_objname = f"{self.identifier}_point_{i}"
        pymol_out += PyMOLCommands.sphere(point_objname,
                                          point_colour,
                                          coords,
                                          radius=radius)
        pymol_out += PyMOLCommands.load_cgo(point_objname,
                                            f"{point_objname}_obj")
        group.append(f"{point_objname}_obj")

        if self.score != 0 and label:
            score_name = f"{point_objname}_score"
            pymol_out += PyMOLCommands.pseudoatom(
                objname=score_name,
                coords=coords,
                label=f'{round(self.score, 1)}')
            group.append(score_name)

            rank_name = f"{self.identifier}_rank_{i}"
            pymol_out += PyMOLCommands.pseudoatom(objname=rank_name,
                                                  coords=coords,
                                                  label=str(i + 1))
            group.append(rank_name)

        if self.projected:
            proj_coords = (self.projected[0].centre[0],
                           self.projected[0].centre[1],
                           self.projected[0].centre[2])

            projection_objname = f"{self.identifier}_projection_{i}"
            line_objname = f"{self.identifier}_line_{i}"

            group.extend([projection_objname, line_objname])
            if self.projected_value != 0 and label:
                proj_score_name = f"{point_objname}_proj_score"
                pymol_out += PyMOLCommands.pseudoatom(
                    objname=proj_score_name,
                    coords=proj_coords,
                    label=f'{round(self.projected_value, 1)}')
                group.append(proj_score_name)
            projected_colour = adjust_lightness(self.colour, percentage=30)
            projected_colour = utilities.Colour(projected_colour[0],
                                                projected_colour[1],
                                                projected_colour[2],
                                                transparency)
            projected_radius = self.projected[0].radius

            pymol_out += PyMOLCommands.sphere(projection_objname,
                                              projected_colour,
                                              proj_coords,
                                              radius=projected_radius)
            pymol_out += PyMOLCommands.load_cgo(projection_objname,
                                                f"{projection_objname}_obj")
            pymol_out += PyMOLCommands.line(line_objname,
                                            coords,
                                            proj_coords,
                                            rgb=projected_colour)

        pymol_out += PyMOLCommands.group(feat_ID, group)
        return pymol_out
示例#4
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    def _write_pymol_objects(self, relpath, hr, load_prot=True):
        """
        generates pymol commands associated with an indivdual hotspot

        :param relpath: path to the directory holding associated files
        :param hr: hotspot result

        :type relpath: str
        :type hr: `hotspots.results.Results`

        """
        self.pymol_out.commands += self._write_pymol_isosurfaces(
            hr.super_grids, relpath, hr.identifier, "fhm")

        if self.settings.output_superstar and hr.superstar:
            self.pymol_out.commands += self._write_pymol_isosurfaces(
                hr.superstar, relpath, hr.identifier, "superstar")

        if self.settings.output_weighted and hr.weighted_superstar:
            self.pymol_out.commands += self._write_pymol_isosurfaces(
                hr.weighted_superstar, relpath, hr.identifier, "weighted")

        if self.settings.output_buriedness and hr.buriedness:
            default_level = 3
            objname = f'buriedness_{hr.identifier}'
            fname = f'{relpath}/buriedness{self.settings.grid_extension}'

            self.pymol_out.commands += PyMOLCommands.load(fname=fname,
                                                          objname=objname)

            # surface_10_apolar_hotspotid
            surface_objname = f'surface_{objname}'
            self.pymol_out.commands += PyMOLCommands.isosurface(
                grd_name=objname,
                isosurface_name=surface_objname,
                level=default_level,
                color=self.settings.colour_dict["buriedness"])

            self.pymol_out.commands += PyMOLCommands.pymol_set(
                setting_name='transparency',
                value=self.settings.transparency,
                selection=surface_objname)

        group_members = [
            f'buriedness_{hr.identifier}',
            f'surface_buriedness_{hr.identifier}'
        ]

        self.pymol_out.commands += PyMOLCommands.group(
            group_name=hr.identifier, members=group_members)

        # generate grid labels
        labels = hr.grid_labels()

        for p, dic in labels.items():
            i = 0
            group_me = []
            for coord, value in dic.items():
                objname = f"PS_{p}_{hr.identifier}_{i}"
                group_me.append(objname)
                self.pymol_out.commands += PyMOLCommands.pseudoatom(
                    objname=objname, coords=coord, label=f'{round(value, 1)}')
                group_me.append(objname)
                i += 1
            self.pymol_out.commands += PyMOLCommands.group(
                f'label_{p}_{hr.identifier}', group_me)

        self.pymol_out.commands += PyMOLCommands.group(
            f"labels_{hr.identifier}",
            [f'label_{p}_{hr.identifier}' for p in hr.super_grids.keys()])

        # load up the protein
        if load_prot:
            self.pymol_out.commands += PyMOLCommands.load(
                f'{relpath}/protein.pdb', f'protein_{hr.identifier}')
            if len(self.settings.protein_color_dic) > 0:
                self.pymol_out += PyMOLCommands.color(
                    "slate", f'protein_{hr.identifier}')
            self.pymol_out.commands += PyMOLCommands.show(
                "cartoon", f'protein_{hr.identifier}')
            self.pymol_out.commands += PyMOLCommands.hide(
                "line", f'protein_{hr.identifier}')
            self.pymol_out.commands += PyMOLCommands.show("sticks", "organic")