Beispiel #1
0
 def __init__(self,
              working_folder="ase",
              clustering_method=None,
              altloc_method=None,
              maxnum_residues_in_cluster=20,
              charge_embedding=False,
              two_buffers=False,
              pdb_hierarchy=None,
              qm_engine_name=None,
              crystal_symmetry=None,
              clustering=True,
              qm_run=True,
              cif_objects=None,
              debug=False,
              charge_cutoff=8.0,
              save_clusters=False):
     self.charge_embedding = charge_embedding
     self.two_buffers = two_buffers
     self.crystal_symmetry = crystal_symmetry
     self.working_folder = os.path.abspath(working_folder)
     self.pdb_hierarchy = pdb_hierarchy
     self.charge_cutoff = charge_cutoff
     self.system_size = pdb_hierarchy.atoms_size()
     self.qm_engine_name = qm_engine_name
     self.clustering_method = clustering_method
     self.altloc_method = altloc_method
     self.debug = debug
     self.maxnum_residues_in_cluster = maxnum_residues_in_cluster
     self.save_clusters = save_clusters
     raw_records = pdb_hierarchy.as_pdb_string(
         crystal_symmetry=crystal_symmetry)
     self.charge_service = charges_class(raw_records=raw_records,
                                         ligand_cif_file_names=cif_objects)
     if (os.path.exists(self.working_folder) is not True):
         os.mkdir(self.working_folder)
     self.backbone_connections = fragment_utils.get_backbone_connections(
         self.pdb_hierarchy)
     self.get_altloc_molecular_indices()
     if (1):
         self.altloc_atoms = [
             atom for atom in list(pdb_hierarchy.atoms())
             if atom.pdb_label_columns()[4] != " "
         ]
     self.expansion = expand(pdb_hierarchy=self.pdb_hierarchy,
                             crystal_symmetry=self.crystal_symmetry,
                             select_within_radius=10.0)
     self.pdb_hierarchy_super = self.expansion.ph_super_sphere
     ## write expansion.pdb as the reference for capping
     self.expansion_file = "expansion.pdb"
     self.expansion.write_super_cell_selected_in_sphere(
         file_name=self.expansion_file)
     if (clustering):
         self.yoink_dat_path = os.path.join(qrefine, "plugin", "yoink",
                                            "dat")
         self.pyoink = PYoink(
             os.path.join(qrefine, "plugin", "yoink", "Yoink-0.0.1.jar"))
         self.qm_run = qm_run
         #t0 = time.time()
         self.set_up_cluster_qm()
Beispiel #2
0
    def __init__(
        self,
        fragment_extracts=None,
        pdb_hierarchy=None,
        charge=None,
        qm_engine_name=None,
        qm_addon=None,
        qm_addon_method=None,
        file_name="./ase/tmp_ase.pdb",
        crystal_symmetry=None,
        clustering=False,
        #      charge_service             = None,
        cif_objects=None,
        # change to quantum phil scope !!!!
        method='rhf',
        basis="sto-3g",
        memory=None,
        nproc=None,
    ):
        self.fragment_extracts = fragment_extracts
        self.method = method
        self.basis = basis
        self.memory = memory
        self.nproc = nproc
        self.qm_addon = qm_addon
        self.qm_addon_method = qm_addon_method

        self.pdb_hierarchy = pdb_hierarchy
        self.qm_engine_name = qm_engine_name
        self.file_name = file_name
        self.working_folder = os.path.split(self.file_name)[0] + "/"
        if (os.path.exists(self.working_folder) is not True):
            os.mkdir(self.working_folder)
        if (charge is None and clustering is False):
            #raw_records = pdb_hierarchy.as_pdb_string(crystal_symmetry=crystal_symmetry)
            #cc = charges_class(raw_records=raw_records)
            #self.charge = cc.get_total_charge()
            #@Nigel
            raw_records = pdb_hierarchy.as_pdb_string(
                crystal_symmetry=crystal_symmetry)
            charge_service = charges_class(raw_records=raw_records,
                                           cif_objects=cif_objects)
            self.charge = charge_service.get_total_charge()
        else:
            self.charge = charge
        self.clustering = clustering
        self.qm_engine = self.create_qm_engine()
        self.qm_engine.command = self.qm_engine.get_command()
        self.system_size = self.pdb_hierarchy.atoms_size()
Beispiel #3
0
    def get_fragment_hierarchies_and_charges(self):
        def pdb_hierarchy_select(atoms_size, selection):
            selection_array = flex.bool(atoms_size, False)
            for item in selection:
                if (item <= atoms_size):
                    selection_array[item - 1] = True
            return selection_array

        self.fragment_selections = []
        self.fragment_super_selections = []
        self.fragment_charges = []
        self.cluster_selections = []
        self.buffer_selections = []
        for i in range(len(self.fragment_super_atoms)):
            fragment_selection = pdb_hierarchy_select(
                self.pdb_hierarchy.atoms_size(), self.fragment_super_atoms[i])
            ## QM part is fragment_super
            fragment_super_selection = pdb_hierarchy_select(
                self.pdb_hierarchy_super.atoms_size(),
                self.fragment_super_atoms[i])
            fragment_super_hierarchy = self.pdb_hierarchy_super.select(
                fragment_super_selection)
            if (self.debug):
                fragment_super_hierarchy.write_pdb_file(file_name=str(i) +
                                                        "-origin-cs.pdb")
                fragment_super_hierarchy.write_pdb_file(
                    file_name=str(i) + ".pdb",
                    crystal_symmetry=self.expansion.cs_box)
            charge_hierarchy = completion.run(
                pdb_hierarchy=fragment_super_hierarchy,
                crystal_symmetry=self.expansion.cs_box,
                model_completion=False,
                original_pdb_filename=self.expansion_file)
            raw_records = charge_hierarchy.as_pdb_string(
                crystal_symmetry=self.expansion.cs_box)
            if (1):
                charge_hierarchy.write_pdb_file(
                    file_name=str(i) + "_capping.pdb",
                    crystal_symmetry=self.expansion.cs_box)

            self.charge_service.update_pdb_hierarchy(
                charge_hierarchy,
                self.expansion.cs_box,
            )
            #TODO: do not why self.charge_service could not right charge
            #charge = self.charge_service.get_total_charge()
            charge = charges_class(pdb_filename=str(i) +
                                   "_capping.pdb").get_total_charge()
            #the capping pdb file causes problem for tests, remove it
            os.remove(str(i) + "_capping.pdb")
            self.fragment_super_selections.append(fragment_super_selection)
            #
            self.fragment_selections.append(fragment_selection)
            self.fragment_charges.append(charge)
            cluster_selection = pdb_hierarchy_select(
                self.pdb_hierarchy.atoms_size(), self.cluster_atoms[i])
            self.cluster_selections.append(cluster_selection)
            s = fragment_selection == cluster_selection
            buffer_selection = fragment_selection.deep_copy().set_selected(
                s, False)
            self.buffer_selections.append(buffer_selection)
            if (self.debug):
                fragment_super_hierarchy.write_pdb_file(
                    file_name=str(i) + "_frag.pdb",
                    crystal_symmetry=self.expansion.cs_box)
                cluster_pdb_hierarchy = self.pdb_hierarchy.select(
                    cluster_selection)
                cluster_pdb_hierarchy.write_pdb_file(
                    file_name=str(i) + "_cluster.pdb",
                    crystal_symmetry=self.expansion.cs_box)