コード例 #1
0
ファイル: StructureSlave.py プロジェクト: graik/biskit
    def go(self, dict):
        """
        Calculate rmsd values for trajectory and plot them.

        @param dict: dictionary with path to pdb files as keys
        @type  dict: dict

        @return: dictionary mapping input:output names
        @rtype: dict        
        """
        d = {}

        print "working on :",
        for pdbIn, out in dict.items():

            print T.stripFilename( pdbIn )

            ## set file name for pickled Structure object
            dir = os.path.dirname( pdbIn )
            if self.params['out'] <> None:
                dir = self.params['out']

            out = dir + '/' + T.stripFilename( pdbIn) + '.model'

            try:
                m = PDBModel( pdbIn, skipRes=self.params['skipRes'] )

                if self.params['amber']:
                    self.renameAmberRes( m )
                    self.renameToAmberAtoms( m )

                if self.params['sort']:
                    m = m.sort()

                m.saveAs( out )

            except:
                if self.params.has_key('report') and self.params['report']:
                    f = open( out[:-6] + '.error', 'w' )
                    f.write( T.lastError() )
                    f.close()
                else:
                    T.errWriteln("Error" + T.lastError()  )


                out = ''

            d[pdbIn] = out

        print "Done."
        return d
コード例 #2
0
ファイル: StructureSlave.py プロジェクト: ostrokach/biskit
    def go(self, dict):
        """
        Calculate rmsd values for trajectory and plot them.

        @param dict: dictionary with path to pdb files as keys
        @type  dict: dict

        @return: dictionary mapping input:output names
        @rtype: dict        
        """
        d = {}

        print "working on :",
        for pdbIn, out in dict.items():

            print T.stripFilename(pdbIn)

            ## set file name for pickled Structure object
            dir = os.path.dirname(pdbIn)
            if self.params['out'] <> None:
                dir = self.params['out']

            out = dir + '/' + T.stripFilename(pdbIn) + '.model'

            try:
                m = PDBModel(pdbIn, skipRes=self.params['skipRes'])

                if self.params['amber']:
                    self.renameAmberRes(m)
                    self.renameToAmberAtoms(m)

                if self.params['sort']:
                    m = m.sort()

                m.saveAs(out)

            except:
                if self.params.has_key('report') and self.params['report']:
                    f = open(out[:-6] + '.error', 'w')
                    f.write(T.lastError())
                    f.close()
                else:
                    T.errWriteln("Error" + T.lastError())

                out = ''

            d[pdbIn] = out

        print "Done."
        return d
コード例 #3
0
ファイル: QualSlave.py プロジェクト: ostrokach/biskit
    def go( self, dict ):
        """
        Calculate rmsd values for trajectory and plot them.

        @param dict: dictionary with path to trajectories as values
        @type  dict: dict

        @return: dictionary with path to trajectories as values
        @rtype: dict
        """
        for k, f in dict.items():

            fout = dirname( f )+'/'+'%s'+ T.stripFilename(f)+'.eps'
            fshort = dirname( f )[-15:]

            if self.verbose:
                print fshort

            t = self.loadTraj( f )

            self.calcRmsd( t )

            p = self.plotRmsdRef(t, fshort )
            p.write_eps( fout % 'rms_', width="18cm", height="29cm" )

            if self.verbose:
                print "Done"

        return dict
コード例 #4
0
    def go(self, dict):
        """
        Calculate rmsd values for trajectory and plot them.

        @param dict: dictionary with path to trajectories as values
        @type  dict: dict

        @return: dictionary with path to trajectories as values
        @rtype: dict
        """
        for k, f in dict.items():

            fout = dirname(f) + '/' + '%s' + T.stripFilename(f) + '.eps'
            fshort = dirname(f)[-15:]

            if self.verbose:
                print fshort

            t = self.loadTraj(f)

            self.calcRmsd(t)

            p = self.plotRmsdRef(t, fshort)
            p.write_eps(fout % 'rms_', width="18cm", height="29cm")

            if self.verbose:
                print "Done"

        return dict
コード例 #5
0
ファイル: Pymoler.py プロジェクト: tybiot/biskit
    def addMovie(self, pdb, modName=None):
        """
        Add one or several existing pdb files or Structure objects
        to one model. Several files will hence end up as single movie
        (i.e. as frames of a model in PyMol).
 
        @param pdb: file name or a list of file names OR
                    PDBModel or list of PDBModels
        @type  pdb: str or [str] OR PDBModel or [PDBModel]
        @param modName: model name, will show up in PyMol. If 'None' a
                        model name will be created from the source file
                        name and a serial number.
        @type  modName: str OR None

        @return: the modName of the added model
        @rtype: str        
        """
        if type(pdb) is not list:
            pdb = [pdb]

        ## dream up a nice model name
        if modName is None:

            if type(pdb[0]) is str:
                modName = T.stripFilename(pdb[0])
                modName = self._getFreeModName(modName, 0)

            else:
                modName = self._getFreeModName('models', 0)

        ## create new empty list
        if not self.dic.has_key(modName):
            self.dic[modName] = []

        ## create model object for each file and append it to dic
        for f in pdb:

            ## create model from Structure or file name
            model = PymolModel(f, modName)
            self.dic[modName].append(model)

            ## add load statement to Pymol script
            self.add('load ' + model.fname + ',' + modName)

        return modName
コード例 #6
0
ファイル: Pymoler.py プロジェクト: ostrokach/biskit
    def addMovie( self, pdb, modName=None ):
        """
        Add one or several existing pdb files or Structure objects
        to one model. Several files will hence end up as single movie
        (i.e. as frames of a model in PyMol).
 
        @param pdb: file name or a list of file names OR
                    PDBModel or list of PDBModels
        @type  pdb: str or [str] OR PDBModel or [PDBModel]
        @param modName: model name, will show up in PyMol. If 'None' a
                        model name will be created from the source file
                        name and a serial number.
        @type  modName: str OR None

        @return: the modName of the added model
        @rtype: str        
        """
        if type( pdb ) is not list:
            pdb = [pdb]

        ## dream up a nice model name
        if modName == None:

            if type( pdb[0]) is str:
                modName = T.stripFilename( pdb[0] )
                modName = self._getFreeModName( modName, 0 )

            else:
                modName = self._getFreeModName( 'models', 0 )

        ## create new empty list
        if not self.dic.has_key( modName ):
            self.dic[ modName ] = []

        ## create model object for each file and append it to dic
        for f in pdb:

            ## create model from Structure or file name
            model = PymolModel( f, modName )
            self.dic[ modName ].append( model )

            ## add load statement to Pymol script
            self.add( 'load '+ model.fname + ',' + modName )

        return modName
コード例 #7
0
    def __collectAll( self, fname, skipRes=None, headPatterns=[] ):
        """
        Parse ATOM/HETATM lines from PDB. Collect coordinates plus
        dictionaries with the other pdb records of each atom.
        REMARK, HEADER, etc. lines are ignored.

        Some changes are made to the dictionary from PDBFile.readline()::
            - the 'position' entry (with the coordinates) is removed
            - leading and trailing spaces are removed from 'name' ..
            - .. but a 'name_original' entry keeps the old name with spaces
            - a 'type' entry is added. Its value is 'ATOM' or 'HETATM'
            - a 'after_ter' entry is added. Its value is 1, if atom is
              preceeded by a 'TER' line, otherwise 0
            - empty 'element' entries are filled with the first non-number
              letter from the atom 'name'

        @param fname: name of pdb file
        @type  fname: str
        @param skipRes: list with residue names that should be skipped
        @type  skipRes: list of str

        @return: tuple of (1) dictionary of profiles
                 and (2) xyz array N x 3
        @rtype: ( list, array )
        """
        xyz   = []

        aProfs = {}

        info = {}

        in_header = True
        headPatterns = headPatterns or self.RE_REMARKS
        patterns = [ (key, re.compile(ex)) for key,ex in headPatterns ]

        for k in bi.PDBModel.PDB_KEYS:
            aProfs[k] = list()

        f = open( fname ,'r' )

        try:
            line, i = ('',''), 0

            while line[0] <> 'END' and line[0] <> 'ENDMDL':

                i += 1
                try:
                    line = f.readline().split()
                except ValueError, what:
                    self.log.add('Warning: Error parsing line %i of %s' %
                                 (i, T.stripFilename( fname )) )
                    self.log.add('\tError: '+str(what) )
                    continue

                if not line: break
                
                ## header handling
                if in_header and line[0] == 'HEADER':
                    info.update( self._PDBParseFile__parseHeader( line ) )

                if in_header and line[0] == 'REMARK':
                    info.update( self._PDBParseFile__parseRemark( line, patterns ) )


                ## preserve position of TER records
#                print line
                newChain = line[0] == 'TER'
                if newChain:
                    line = f.readline().split()

                if (line[0] in ['ATOM','HETATM'] ):

                    if in_header: in_header = False  ## switch off HEADER parsing
                    if len(line) == 11: # contains chain name
                        a = {'serial_number': int(line[1]),
                                 'name': line[2],
                                 'alternate': '',
                                 'residue_name': string.strip(line[3]),
                                 'chain_id': string.strip(line[4]),
                                 'residue_number': int(line[5]),
                                 'insertion_code': '',
                                 'position': map(float,line[6:9]),
                                 'occupancy': 1.0,
                                 'temperature_factor': 0.0,
                                 'segment_id': '',
                                 'element': '',
                                 'charge': line[9]}
                    else:   # without chain name
                        a = {'serial_number': int(line[1]),
                                 'name': line[2],
                                 'alternate': '',
                                 'residue_name': string.strip(line[3]),
                                 'chain_id': '',
                                 'residue_number': int(line[4]),
                                 'insertion_code': '',
                                 'position': map(float,line[5:8]),
                                 'occupancy': 1.0,
                                 'temperature_factor': 0.0,
                                 'segment_id': '',
                                 'element': '',
                                 'charge': line[8]}
#                    print line
#                    print a
                    if skipRes and a['residue_name'] in skipRes:
                        continue

                    a['name_original'] = a['name']
                    a['name'] = a['name'].strip()

                    a['type'] = line[0]

                    if newChain:
                        a['after_ter'] = 1
                    else:
                        a['after_ter'] = 0

                    if a['element'] == '':
                        a['element'] = self._PDBParseFile__firstLetter( a['name'] )

#                    print a
                    xyz.append( a['position'] )
                    del( a['position'])
                    
                    for k, v in a.items():
                        aProfs[k].append( v )

        except:
            raise PDBParserError("Error parsing file "+fname+": " \
                                 + T.lastError())
        try:
            f.close()
        except:
            pass

        if len( xyz ) == 0:
            raise PDBParserError("Error parsing file "+fname+": "+
                            "Couldn't find any atoms.")

        return aProfs, npy.array( xyz, npy.float64 ), info