예제 #1
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 def run(self, size):
     """
     Run CYANA using a macro created earlier.
     """
     loki.info('A new Cyana round started for %d structures.' % size)
     # if no Rg check, point to something always true
     if self.rg_limits:
         check_rg = self.checkRg
     else:
         check_rg = len
     # run cyana as many time as needed until it completes succesfully
     run_cyana = "cyana < %s.cmd" % self.name
     todo = size
     while todo:
         # check if a new macro is needed
         if todo != self.__last_macro_size__:
             self.writeMacro(todo)
         self.writeScript()
         os.system(run_cyana)
         for i in range(1, todo + 1):
             name = '%s-%03d.pdb' % (self.name, i)
             if os.path.exists(name) and check_rg(name):
                 todo -= 1
                 self.tally += 1
                 os.system('mv -f %s %s%s.pdb' %
                           (name, self.output, str(self.tally).zfill(
                               self.tally_digits)))
             else:
                 os.system('rm -f %s' % name)
예제 #2
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 def shutdown(self):
     """
     Perform a clean exit by deleting all temporary files.
     """
     loki.info('Removing temporary files.')
     cmd = "rm -f %s*" % self.name
     os.system(cmd)
예제 #3
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 def checkRg(self, filename):
     """
     Check whether a given conformation is within the limits set for radius
     of gyration.
     """
     rg = calculate_rg(filename)
     loki.info('Rg(%s) = %f)' % (filename, rg))
     if (self.rg_limits[0] != None and rg < self.rg_limits[0]) or \
             (self.rg_limits[1] != None and rg > self.rg_limits[1]):
         return False
     return True
 def getDCouplingVectors(self, dcouplings, include='all', exclude=[]):
     if include == 'all':
         inc = range(1, len(self) + 1)
     else:
         inc = []
         for i in include:
             if type(i) is int:
                 inc.append(i)
             else:
                 loki.warn("discarding invalid residue '%s'", repr(i))
         inc = intersection(inc, range(1, len(self) + 1))
     exc = []
     for i in exclude:
         if type(i) is int:
             exc.append(i)
         else:
             loki.warn("discarding invalid residue '%s'", repr(i))
     include = sublist(inc, exc)
     loki.debug('include=' + repr(include))
     dcouplings = deepcopy(dcouplings)
     loki.debug('dcouplings=' + repr(dcouplings)) # REMOVE
     record = {}
     for i in range(len(dcouplings)):
         if type(dcouplings[i]) == str:
             dcouplings[i] = DCouplings[dcouplings[i]]
         dc = dcouplings[i]
         record.setdefault(dc.atoms[0], {})
         record.setdefault(dc.atoms[1], {})
     if 'HN' in record.keys():
         record.setdefault('H', {})
     wanted = record.keys()
     for i in include:
         for atom in self[i-1]:
             if str(atom) in wanted:
                 record[str(atom)][int(self[i-1])] = atom.position
     if 'H' in wanted and len(record['H'].keys()):
         for k in record['H'].keys():
             if not record['HN'].has_key(k):
                 record['HN'][k] = record['H'][k]
                 loki.info('using H for HN in residue %d.', k)
     loki.debug('record=%s', repr(record))
     table = {}
     for dc in dcouplings:
         x, y = dc.atoms
         residues = intersection(record[x].keys(), record[y].keys())
         for i in residues:
             tag = (i, str(dc))
             table[tag] = [m-n for m,n in zip(record[x][i], record[y][i])]
     tags = table.keys()
     tags.sort()
     vectors = [table[x] for x in tags]
     return tags, vectors
def parse_option_hash(hash, translator=None, default_keys=None, \
        default_value=None, default_function=None, translator_target='mara'):
    """
    Parse and fix/append an option hash.

    Arguments:
        hash             -- an unformatted option hash or a default value
        translator       -- a translator to format hash keys
                            (default: as is)
        default_keys     -- a list of keys to include
                            (default: keys of the original hash)
        default_value    -- a default value to use in the absense of a
                            proper input hash
        default_function -- a default function to apply to values
                            (default: as is)
    Returns:
        out              -- a formatted option hash
    """
    loki.debug('hash(in)=%s' % repr(hash))
    # a do-nothing translator will be used if none given
    if not translator:
        translator = lambda x, y: x
    # a do-nothing function will be used if none given
    if not default_function:
        default_function = lambda x: x
    # translate each key & apply default function to the value
    if isinstance(hash, dict):
        out = {}
        for key in hash.keys():
            if translator_target is not None:
                k = translator(key, translator_target)
            else:
                k = translator(key)
            out[k] = default_function(hash[key])
    # or create a hash from the default keys & the given value
    elif hash in [int, float, str]:
        out = {}.fromkeys(default_keys, default_function(hash))
    # or create a hash from the default keys & the default value
    else:
        loki.info('Incomprehensible hash -> using %s' % repr(default_value))
        out = {}.fromkeys(default_keys, default_value)
    loki.debug('hash(out)=%s' % repr(out))
    return out
 def getSequence(self, unknown='???'):
     mapping = {}
     for coupling in self:
         shift1, shift2 = coupling.getType().shift
         if not mapping.has_key(int(coupling) + shift1):
             mapping[int(coupling) + shift1] = coupling.residues[0]
         if not mapping.has_key(int(coupling) + shift2):
             mapping[int(coupling) + shift2] = coupling.residues[1]
     keys = mapping.keys()
     if unknown != None:
         missing = 0
         for i in range(min(keys) + 1, max(keys)):
             if not mapping.has_key(i):
                 mapping[i] = unknown
                 missing += 1
         if missing:
             loki.info('Missing %d residue(s) in the sequence.' % missing)
     sequence = []
     for i in range(min(keys), max(keys) + 1):
         if mapping.has_key(i):
             sequence.append(mapping[i])
     return sequence
예제 #7
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 def writeMacro(self, size):
     """
     Write all the required CYANA-commands into a macro.
     """
     loki.info('A new Cyana macro required for %d structures.' % size)
     outf = open(self.name + '.cya', 'w')
     outf.write('cyanalib\n')
     outf.write('readdata %s\n' % self.name)
     # all angles in given amino acids as well as all omegas should be fixed
     if self.fixed_angles:
         outf.write('angle select *\n')
         outf.write('angle fix\n')
         outf.write('angle select -OMEGA\n')
         for fix in self.fixed_angles:
             outf.write('angle select -%s\n' % fix)
         outf.write('angle free\n')
         outf.write('read pdb %s\n' % self.name)
     outf.write('calc_all %d %s\n' % (size, self.__calc_end__))
     outf.write('write_all %s- pdb\n' % self.name)
     # this could be used to find out the end seed
     #        outf.write('system echo $seed > %s.seed'%self.name)
     outf.close()
     self.__last_macro_size__ = size
예제 #8
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    def anneal(self,
               amount,
               snippets=None,
               max_temp=4.0,
               min_temp=0.9,
               steps=5000):
        """
        Anneal.
        """
        amount = int(amount)
        if snippets is None:
            snippets = amount
        else:
            snippets = int(snippets)
        max_temp = float(max_temp)
        min_temp = float(min_temp)
        steps = int(steps)
        if snippets > amount:
            loki.warn('Snippet size larger than total amount. '
                      'Running in one go.')
            snippets = amount


# Current version of Cyana (2.1?) seems to be broken as tend is not
# supported by anneal. FIXME when corrected.
#        self.__calc_end__ = 'anneal thigh=%1.3f tend=%1.3f steps=%d'%( \
#                max_temp, min_temp, steps)
        self.__calc_end__ = 'anneal thigh=%1.3f steps=%d'%( \
                max_temp, steps)
        if len(str(amount)) > self.tally_digits:
            self.tally_digits = len(str(amount))
        loki.info('--- Anneal ---\nthigh=%1.3f tend=%1.3f steps=%d\n'%( \
                max_temp, min_temp, steps) + '-'*14)
        done = 0
        while done < amount:
            if amount - done > snippets:
                batch = snippets
            else:
                batch = amount - done
            self.run(batch)
            done += batch
            loki.info('%d structures ready' % done)
        loki.info('all done. Thank you for all the fish.')
예제 #9
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 def __init__(self,
              input,
              output=None,
              fixed_angles=None,
              rg_limits=None,
              use_limits=True,
              seed=None,
              state=None,
              jump=None,
              tally=0,
              tally_digits=3,
              name=None,
              verbose=False,
              debug=False):
     # store and/or process inputs
     self.input = str(input)
     self.rg_limits = rg_limits
     self.use_limits = bool(use_limits)
     self.tally = int(tally)
     self.tally_digits = int(tally_digits)
     if output != None:
         self.output = str(output)
     else:
         self.output = self.input + '-'
     self.fixed_angles = fixed_angles
     if fixed_angles != None:
         if type(fixed_angles) != list:
             if type(fixed_angles) == tuple:
                 self.fixed_angles = list(fixed_angles)
             else:
                 self.fixed_angles = [fixed_angles]
         for i in range(len(self.fixed_angles)):
             if type(self.fixed_angles[i]) in [list, tuple]:
                 lo, hi = str(self.fixed_angles[i][0]), \
                         str(self.fixed_angles[i][1])
             elif re.search('([0-9]+).+([0-9]+)',
                            str(self.fixed_angles[i])):
                 lo, hi = re.search('([0-9]+).+([0-9]+)', \
                         str(self.fixed_angles[i])).groups()
             else:
                 lo = hi = str(self.fixed_angles[i])
             self.fixed_angles[i] = '%s..%s' % (lo, hi)
     if name is None:
         self.name = 'temp-%d' % os.getpid()
     else:
         self.name = str(name)
     if debug: loki.setLevel(logging.DEBUG)
     elif verbose: loki.setLevel(logging.INFO)
     # check that required input files exist
     if not os.path.isfile(self.input + '.seq'):
         raise ArgumentError('No sequence file found.', 'Cyana')
     if self.fixed_angles and not os.path.isfile(self.input + '.pdb'):
         raise ArgumentError('No model PDB file found for angle fixes.',
                             'Cyana')
     # setup temporary files
     os.system('cp -f %s.seq %s.seq' % (self.input, self.name))
     loki.info('Readied the sequence file for further use.')
     if self.use_limits:
         for suffix in ['lol', 'upl', 'aco', 'xplor']:
             if os.path.isfile(self.input + '.' + suffix):
                 os.system('cp -f %s.%s %s.%s' %
                           (self.input, suffix, self.name, suffix))
                 loki.info("Readied a '%s' file for further use." % suffix)
     if self.fixed_angles:
         os.system('cp -f %s.pdb %s.pdb' % (self.input, self.name))
     # initialise the random generator
     self.randgen = Random(seed)
     if state == None:
         if jump != None:
             if sys.version < '2.2':
                 loki.warn('Python older than 2.2. Problems may arise.')
             elif sys.version > '2.2' and sys.version < '2.3':
                 # this should provide enough room for each run to be in
                 # unique state space
                 self.randgen.jumpahead(jump * self.amount * 1.1)
             else:
                 self.randgen.jumpahead(jump)
     else:
         self.randgen.setstate(state)
     self.__last_macro_size__ = None
예제 #10
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 def run(self, txt=''):
     loki.info('arguments: %s' % txt)
     os.system('%s %s' % (self.command, txt))
def parse_sequence(args):
    """
    Parse an amino acid sequence.

    Arguments:
        args     -- a list of sequence items or a name of a file containing
                    them, e.g. 'GLU PRO GLU CYS' or 'EPEC GLK C EEK'
    Returns:
        sequence -- a list of 3-letter amino acid symbols
    """
    loki.debug('parse_sequence < %s' % repr(args))
    if isinstance(args, str) and os.path.isfile(args):
        fname = args
    elif len(args) == 1 and isinstance(args[0], str):
        if os.path.isfile(args[0]):
            fname = args[0]
        else:
            if args[0].count(' '):
                args = args[0].split()
            else:
                args = args[0]
            fname = None
    else:
        fname = None
    if fname:
        f = open(fname)
        seq = f.read()
        f.close()
        loki.info("Read sequence from file '%s'." % fname)
        args = seq.strip().split()
        loki.debug('args=%s' % repr(args))
#        sequence = []
#        for aa in seq.strip().split():
#            try:
#                sequence.append(omniTranslator(aa.capitalize(), \
#                        '3-letter-aminoacids'))
#            except KeyError:
#                loki.warn("Discarding unknown aminoacid '%s'." % repr(aa))
#    else:
        # check whether all the sequence items are separated from each other
    args = [x.capitalize() for x in args]
    separated = True
    for a in args:
        if not (a in libLingua.dictionaryAmino1 or \
                a in libLingua.dictionaryAmino3):
            separated = False
    loki.debug('separated=%s' % repr(separated))
    sequence = []
    if separated:
        # append each item after converting it to a 3-letter symbol
        for a in args:
            try:
                sequence.append(omniTranslator(a.capitalize(), \
                        '3-letter-aminoacids'))
            except KeyError:
                loki.warn("Discarding unknown aminoacid '%s'." % repr(a))
    else:
        # jam all symbols together (hope they are all 1-letter symbols)
        aa = ''
        for a in args:
            aa += str(a)
        aa = aa.replace(' ', '')
        loki.debug('aa=%s' % repr(aa))
        # append each item after converting it to a 3-letter symbol
        for a in list(aa):
            try:
                sequence.append(omniTranslator(a, '3-letter-aminoacids'))
            except KeyError:
                loki.warn("Discarding unknown aminoacid '%s'." % repr(a))
    loki.debug('parse_sequence > %s' % repr(sequence))
    return sequence