Logo Search packages:      
Sourcecode: python-biopython version File versions

PDBParser.py

# Copyright (C) 2002, Thomas Hamelryck (thamelry@vub.ac.be)
# This code is part of the Biopython distribution and governed by its
# license.  Please see the LICENSE file that should have been included
# as part of this package.  


# Python stuff
import sys
from string import split
from Numeric import array, Float0

# My stuff
from StructureBuilder import StructureBuilder
from PDBExceptions import PDBConstructionException
from parse_pdb_header import _parse_pdb_header_list

__doc__="Parser for PDB files."


# If PDB spec says "COLUMNS 18-20" this means line[17:20]


00023 class PDBParser:
    """
    Parse a PDB file and return a Structure object.
    """

00028     def __init__(self, PERMISSIVE=1, get_header=0, structure_builder=None):
        """
        The PDB parser call a number of standard methods in an aggregated
        StructureBuilder object. Normally this object is instanciated by the
        PDBParser object itself, but if the user provides his own StructureBuilder
        object, the latter is used instead.

        Arguments:
        o PERMISSIVE - int, if this is 0 exceptions in constructing the
        SMCRA data structure are fatal. If 1 (DEFAULT), the exceptions are 
        caught, but some residues or atoms will be missing. THESE EXCEPTIONS 
        ARE DUE TO PROBLEMS IN THE PDB FILE!.
        o structure_builder - an optional user implemented StructureBuilder class. 
        """
        if structure_builder!=None:
            self.structure_builder=structure_builder
        else:
            self.structure_builder=StructureBuilder()
        self.header=None
        self.trailer=None
        self.line_counter=0
        self.PERMISSIVE=PERMISSIVE

    # Public methods

00053     def get_structure(self, id, filename):
        """Return the structure.

        Arguments:
        o id - string, the id that will be used for the structure
        o filename - name of the PDB file
        """
        self.header=None
        self.trailer=None
        # Make a StructureBuilder instance (pass id of structure as parameter)
        self.structure_builder.init_structure(id)
        file=open(filename)
        self._parse(file.readlines())
        file.close()
        self.structure_builder.set_header(self.header)
        # Return the Structure instance
        return self.structure_builder.get_structure()

    def get_header(self):
        "Return the header."
        return self.header

    def get_trailer(self):
        "Return the trailer."
        return self.trailer

    # Private methods
    
    def _parse(self, header_coords_trailer):
        "Parse the PDB file."
        # Extract the header; return the rest of the file
        self.header, coords_trailer=self._get_header(header_coords_trailer)
        # Parse the atomic data; return the PDB file trailer
        self.trailer=self._parse_coordinates(coords_trailer)
    
    def _get_header(self, header_coords_trailer):
        "Get the header of the PDB file, return the rest."
        structure_builder=self.structure_builder
        for i in range(0, len(header_coords_trailer)):
            structure_builder.set_line_counter(i+1)
            line=header_coords_trailer[i]
            record_type=line[0:6] 
            if(record_type=='ATOM  ' or record_type=='HETATM' or record_type=='MODEL '):
                break
        header=header_coords_trailer[0:i]
        # Return the rest of the coords+trailer for further processing
        self.line_counter=i
        coords_trailer=header_coords_trailer[i:]
        header_dict=_parse_pdb_header_list(header)
        return header_dict, coords_trailer
    
    def _parse_coordinates(self, coords_trailer):
        "Parse the atomic data in the PDB file."
        local_line_counter=0
        structure_builder=self.structure_builder
        current_model_id=0
        current_chain_id=None
        current_segid=None
        current_residue_id=None
        current_resname=None
        structure_builder.init_model(current_model_id)
        for i in range(0, len(coords_trailer)):
            line=coords_trailer[i]
            record_type=line[0:6]
            global_line_counter=self.line_counter+local_line_counter+1
            structure_builder.set_line_counter(global_line_counter)
            if(record_type=='ATOM  ' or record_type=='HETATM'):
                fullname=line[12:16]
                # get rid of whitespace in atom names
                split_list=split(fullname)
                if len(split_list)!=1:
                    # atom name has internal spaces, e.g. " N B ", so
                    # we do not strip spaces
                    name=fullname
                else:
                    # atom name is like " CA ", so we can strip spaces
                    name=split_list[0]
                altloc=line[16:17]
                resname=line[17:20]
                chainid=line[21:22]
                resseq=int(split(line[22:26])[0])   # sequence identifier   
                icode=line[26:27]           # insertion code
                if record_type=='HETATM':       # hetero atom flag
                    if resname=="HOH" or resname=="WAT":
                        hetero_flag="W"
                    else:
                        hetero_flag="H"
                else:
                    hetero_flag=" "
                residue_id=(hetero_flag, resseq, icode)
                # atomic coordinates
                x=float(line[30:38]) 
                y=float(line[38:46]) 
                z=float(line[46:54])
                coord=array((x, y, z), Float0)
                # occupancy & B factor
                occupancy=float(line[54:60])
                bfactor=float(line[60:66])
                segid=line[72:76]
                if current_segid!=segid:
                    current_segid=segid
                    structure_builder.init_seg(current_segid)
                if current_chain_id!=chainid:
                    current_chain_id=chainid
                    structure_builder.init_chain(current_chain_id)
                    current_residue_id=residue_id
                    current_resname=resname
                    try:
                        structure_builder.init_residue(resname, hetero_flag, resseq, icode)
                    except PDBConstructionException, message:
                        self._handle_PDB_exception(message, global_line_counter)
                elif current_residue_id!=residue_id or current_resname!=resname:
                    current_residue_id=residue_id
                    current_resname=resname
                    try:
                        structure_builder.init_residue(resname, hetero_flag, resseq, icode)
                    except PDBConstructionException, message:
                        self._handle_PDB_exception(message, global_line_counter) 
                # init atom
                try:
                    structure_builder.init_atom(name, coord, bfactor, occupancy, altloc, fullname)
                except PDBConstructionException, message:
                    self._handle_PDB_exception(message, global_line_counter)
            elif(record_type=='ANISOU'):
                anisou=map(float, (line[28:35], line[35:42], line[43:49], line[49:56], line[56:63], line[63:70]))
                # U's are scaled by 10^4 
                anisou_array=(array(anisou, Float0)/10000.0).astype(Float0)
                structure_builder.set_anisou(anisou_array)
            elif(record_type=='ENDMDL'):
                current_model_id=current_model_id+1
                structure_builder.init_model(current_model_id)
                current_chain_id=None
                current_residue_id=None
            elif(record_type=='END   ' or record_type=='CONECT'):
                # End of atomic data, return the trailer
                self.line_counter=self.line_counter+local_line_counter
                return coords_trailer[local_line_counter:]
            elif(record_type=='SIGUIJ'):
                # standard deviation of anisotropic B factor
                siguij=map(float, (line[28:35], line[35:42], line[42:49], line[49:56], line[56:63], line[63:70]))
                # U sigma's are scaled by 10^4
                siguij_array=(array(siguij, Float0)/10000.0).astype(Float0)   
                structure_builder.set_siguij(siguij_array)
            elif(record_type=='SIGATM'):
                # standard deviation of atomic positions
                sigatm=map(float, (line[30:38], line[38:45], line[46:54], line[54:60], line[60:66]))
                sigatm_array=array(sigatm, Float0)
                structure_builder.set_sigatm(sigatm_array)
            local_line_counter=local_line_counter+1
        # EOF (does not end in END or CONECT)
        self.line_counter=self.line_counter+local_line_counter
        return []

00206     def _handle_PDB_exception(self, message, line_counter):
        """
        This method catches an exception that occurs in the StructureBuilder
        object (if PERMISSIVE==1), or raises it again, this time adding the 
        PDB line number to the error message.
        """
        message="%s at line %i." % (message, line_counter)
        if self.PERMISSIVE:
            # just print a warning - some residues/atoms will be missing
            print "PDBConstructionException: %s" % message
            print "Exception ignored.\nSome atoms or residues will be missing in the data structure."
        else:
            # exceptions are fatal - raise again with new message (including line nr)
            raise PDBConstructionException, message


if __name__=="__main__":

    import sys

    p=PDBParser(PERMISSIVE=1)

    s=p.get_structure("scr", sys.argv[1])

    for m in s.get_iterator():
        p=m.get_parent()
        assert(p is s)
        for c in m.get_iterator():
            p=c.get_parent()
            assert(p is m)
            for r in c.get_iterator():
                p=r.get_parent()
                assert(p is c)
                for a in r.get_iterator():
                    p=a.get_parent()
                    if not p is r:
                        print p, r
                    
                
                
        

Generated by  Doxygen 1.6.0   Back to index