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authorNavan Chauhan <navanchauhan@gmail.com>2020-09-11 16:18:38 +0530
committerNavan Chauhan <navanchauhan@gmail.com>2020-09-11 16:18:38 +0530
commit9dadfdb3332b073aaff508d126e90200ad09868d (patch)
tree1578ff007b42b2175691f3dab11566611ec44907 /plip/basic/supplemental.py
parent004f4513c8cd5cfffbf69484fb39a3d7bc98bd49 (diff)
removed downloaded plip
Diffstat (limited to 'plip/basic/supplemental.py')
-rw-r--r--plip/basic/supplemental.py434
1 files changed, 0 insertions, 434 deletions
diff --git a/plip/basic/supplemental.py b/plip/basic/supplemental.py
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@@ -1,434 +0,0 @@
-import gzip
-import itertools
-import os
-import platform
-import re
-import subprocess
-import sys
-import tempfile
-import zipfile
-from collections import namedtuple
-
-import numpy as np
-from openbabel import pybel
-from openbabel.pybel import Atom
-
-from plip.basic import config, logger
-
-logger = logger.get_logger()
-
-# Windows and MacOS
-if os.name != 'nt' and platform.system() != 'Darwin': # Resource module not available for Windows
- import resource
-
-# Settings
-np.seterr(all='ignore') # No runtime warnings
-
-
-def tmpfile(prefix, direc):
- """Returns the path to a newly created temporary file."""
- return tempfile.mktemp(prefix=prefix, suffix='.pdb', dir=direc)
-
-
-def is_lig(hetid):
- """Checks if a PDB compound can be excluded as a small molecule ligand"""
- h = hetid.upper()
- return not (h == 'HOH' or h in config.UNSUPPORTED)
-
-
-def extract_pdbid(string):
- """Use regular expressions to get a PDB ID from a string"""
- p = re.compile("[0-9][0-9a-z]{3}")
- m = p.search(string.lower())
- try:
- return m.group()
- except AttributeError:
- return "UnknownProtein"
-
-
-def whichrestype(atom):
- """Returns the residue name of an Pybel or OpenBabel atom."""
- atom = atom if not isinstance(atom, Atom) else atom.OBAtom # Convert to OpenBabel Atom
- return atom.GetResidue().GetName() if atom.GetResidue() is not None else None
-
-
-def whichresnumber(atom):
- """Returns the residue number of an Pybel or OpenBabel atom (numbering as in original PDB file)."""
- atom = atom if not isinstance(atom, Atom) else atom.OBAtom # Convert to OpenBabel Atom
- return atom.GetResidue().GetNum() if atom.GetResidue() is not None else None
-
-
-def whichchain(atom):
- """Returns the residue number of an PyBel or OpenBabel atom."""
- atom = atom if not isinstance(atom, Atom) else atom.OBAtom # Convert to OpenBabel Atom
- return atom.GetResidue().GetChain() if atom.GetResidue() is not None else None
-
-
-#########################
-# Mathematical operations
-#########################
-
-
-def euclidean3d(v1, v2):
- """Faster implementation of euclidean distance for the 3D case."""
- if not len(v1) == 3 and len(v2) == 3:
- return None
- return np.sqrt((v1[0] - v2[0]) ** 2 + (v1[1] - v2[1]) ** 2 + (v1[2] - v2[2]) ** 2)
-
-
-def vector(p1, p2):
- """Vector from p1 to p2.
- :param p1: coordinates of point p1
- :param p2: coordinates of point p2
- :returns : numpy array with vector coordinates
- """
- return None if len(p1) != len(p2) else np.array([p2[i] - p1[i] for i in range(len(p1))])
-
-
-def vecangle(v1, v2, deg=True):
- """Calculate the angle between two vectors
- :param v1: coordinates of vector v1
- :param v2: coordinates of vector v2
- :param deg: whether to return degrees or radians
- :returns : angle in degree or rad
- """
- if np.array_equal(v1, v2):
- return 0.0
- dm = np.dot(v1, v2)
- cm = np.linalg.norm(v1) * np.linalg.norm(v2)
- angle = np.arccos(dm / cm) # Round here to prevent floating point errors
- return np.degrees([angle, ])[0] if deg else angle
-
-
-def normalize_vector(v):
- """Take a vector and return the normalized vector
- :param v: a vector v
- :returns : normalized vector v
- """
- norm = np.linalg.norm(v)
- return v / norm if not norm == 0 else v
-
-
-def centroid(coo):
- """Calculates the centroid from a 3D point cloud and returns the coordinates
- :param coo: Array of coordinate arrays
- :returns : centroid coordinates as list
- """
- return list(map(np.mean, (([c[0] for c in coo]), ([c[1] for c in coo]), ([c[2] for c in coo]))))
-
-
-def projection(pnormal1, ppoint, tpoint):
- """Calculates the centroid from a 3D point cloud and returns the coordinates
- :param pnormal1: normal of plane
- :param ppoint: coordinates of point in the plane
- :param tpoint: coordinates of point to be projected
- :returns : coordinates of point orthogonally projected on the plane
- """
- # Choose the plane normal pointing to the point to be projected
- pnormal2 = [coo * (-1) for coo in pnormal1]
- d1 = euclidean3d(tpoint, pnormal1 + ppoint)
- d2 = euclidean3d(tpoint, pnormal2 + ppoint)
- pnormal = pnormal1 if d1 < d2 else pnormal2
- # Calculate the projection of tpoint to the plane
- sn = -np.dot(pnormal, vector(ppoint, tpoint))
- sd = np.dot(pnormal, pnormal)
- sb = sn / sd
- return [c1 + c2 for c1, c2 in zip(tpoint, [sb * pn for pn in pnormal])]
-
-
-def cluster_doubles(double_list):
- """Given a list of doubles, they are clustered if they share one element
- :param double_list: list of doubles
- :returns : list of clusters (tuples)
- """
- location = {} # hashtable of which cluster each element is in
- clusters = []
- # Go through each double
- for t in double_list:
- a, b = t[0], t[1]
- # If they both are already in different clusters, merge the clusters
- if a in location and b in location:
- if location[a] != location[b]:
- if location[a] < location[b]:
- clusters[location[a]] = clusters[location[a]].union(clusters[location[b]]) # Merge clusters
- clusters = clusters[:location[b]] + clusters[location[b] + 1:]
- else:
- clusters[location[b]] = clusters[location[b]].union(clusters[location[a]]) # Merge clusters
- clusters = clusters[:location[a]] + clusters[location[a] + 1:]
- # Rebuild index of locations for each element as they have changed now
- location = {}
- for i, cluster in enumerate(clusters):
- for c in cluster:
- location[c] = i
- else:
- # If a is already in a cluster, add b to that cluster
- if a in location:
- clusters[location[a]].add(b)
- location[b] = location[a]
- # If b is already in a cluster, add a to that cluster
- if b in location:
- clusters[location[b]].add(a)
- location[a] = location[b]
- # If neither a nor b is in any cluster, create a new one with a and b
- if not (b in location and a in location):
- clusters.append(set(t))
- location[a] = len(clusters) - 1
- location[b] = len(clusters) - 1
- return map(tuple, clusters)
-
-
-#################
-# File operations
-#################
-
-def tilde_expansion(folder_path):
- """Tilde expansion, i.e. converts '~' in paths into <value of $HOME>."""
- return os.path.expanduser(folder_path) if '~' in folder_path else folder_path
-
-
-def folder_exists(folder_path):
- """Checks if a folder exists"""
- return os.path.exists(folder_path)
-
-
-def create_folder_if_not_exists(folder_path):
- """Creates a folder if it does not exists."""
- folder_path = tilde_expansion(folder_path)
- folder_path = "".join([folder_path, '/']) if not folder_path[-1] == '/' else folder_path
- direc = os.path.dirname(folder_path)
- if not folder_exists(direc):
- os.makedirs(direc)
-
-
-def cmd_exists(c):
- return subprocess.call("type " + c, shell=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE) == 0
-
-
-################
-# PyMOL-specific
-################
-
-
-def initialize_pymol(options):
- """Initializes PyMOL"""
- import pymol
- # Pass standard arguments of function to prevent PyMOL from printing out PDB headers (workaround)
- pymol.finish_launching(args=['pymol', options, '-K'])
- pymol.cmd.reinitialize()
-
-
-def start_pymol(quiet=False, options='-p', run=False):
- """Starts up PyMOL and sets general options. Quiet mode suppresses all PyMOL output.
- Command line options can be passed as the second argument."""
- import pymol
- pymol.pymol_argv = ['pymol', '%s' % options] + sys.argv[1:]
- if run:
- initialize_pymol(options)
- if quiet:
- pymol.cmd.feedback('disable', 'all', 'everything')
-
-
-def nucleotide_linkage(residues):
- """Support for DNA/RNA ligands by finding missing covalent linkages to stitch DNA/RNA together."""
-
- nuc_covalent = []
- #######################################
- # Basic support for RNA/DNA as ligand #
- #######################################
- nucleotides = ['A', 'C', 'T', 'G', 'U', 'DA', 'DC', 'DT', 'DG', 'DU']
- dna_rna = {} # Dictionary of DNA/RNA residues by chain
- covlinkage = namedtuple("covlinkage", "id1 chain1 pos1 conf1 id2 chain2 pos2 conf2")
- # Create missing covlinkage entries for DNA/RNA
- for ligand in residues:
- resname, chain, pos = ligand
- if resname in nucleotides:
- if chain not in dna_rna:
- dna_rna[chain] = [(resname, pos), ]
- else:
- dna_rna[chain].append((resname, pos))
- for chain in dna_rna:
- nuc_list = dna_rna[chain]
- for i, nucleotide in enumerate(nuc_list):
- if not i == len(nuc_list) - 1:
- name, pos = nucleotide
- nextnucleotide = nuc_list[i + 1]
- nextname, nextpos = nextnucleotide
- newlink = covlinkage(id1=name, chain1=chain, pos1=pos, conf1='',
- id2=nextname, chain2=chain, pos2=nextpos, conf2='')
- nuc_covalent.append(newlink)
-
- return nuc_covalent
-
-
-def ring_is_planar(ring, r_atoms):
- """Given a set of ring atoms, check if the ring is sufficiently planar
- to be considered aromatic"""
- normals = []
- for a in r_atoms:
- adj = pybel.ob.OBAtomAtomIter(a.OBAtom)
- # Check for neighboring atoms in the ring
- n_coords = [pybel.Atom(neigh).coords for neigh in adj if ring.IsMember(neigh)]
- vec1, vec2 = vector(a.coords, n_coords[0]), vector(a.coords, n_coords[1])
- normals.append(np.cross(vec1, vec2))
- # Given all normals of ring atoms and their neighbors, the angle between any has to be 5.0 deg or less
- for n1, n2 in itertools.product(normals, repeat=2):
- arom_angle = vecangle(n1, n2)
- if all([arom_angle > config.AROMATIC_PLANARITY, arom_angle < 180.0 - config.AROMATIC_PLANARITY]):
- return False
- return True
-
-
-def classify_by_name(names):
- """Classify a (composite) ligand by the HETID(s)"""
- if len(names) > 3: # Polymer
- if len(set(config.RNA).intersection(set(names))) != 0:
- ligtype = 'RNA'
- elif len(set(config.DNA).intersection(set(names))) != 0:
- ligtype = 'DNA'
- else:
- ligtype = "POLYMER"
- else:
- ligtype = 'SMALLMOLECULE'
-
- for name in names:
- if name in config.METAL_IONS:
- if len(names) == 1:
- ligtype = 'ION'
- else:
- if "ION" not in ligtype:
- ligtype += '+ION'
- return ligtype
-
-
-def sort_members_by_importance(members):
- """Sort the members of a composite ligand according to two criteria:
- 1. Split up in main and ion group. Ion groups are located behind the main group.
- 2. Within each group, sort by chain and position."""
- main = [x for x in members if x[0] not in config.METAL_IONS]
- ion = [x for x in members if x[0] in config.METAL_IONS]
- sorted_main = sorted(main, key=lambda x: (x[1], x[2]))
- sorted_main = sorted(main, key=lambda x: (x[1], x[2]))
- sorted_ion = sorted(ion, key=lambda x: (x[1], x[2]))
- return sorted_main + sorted_ion
-
-
-def get_isomorphisms(reference, lig):
- """Get all isomorphisms of the ligand."""
- query = pybel.ob.CompileMoleculeQuery(reference.OBMol)
- mappr = pybel.ob.OBIsomorphismMapper.GetInstance(query)
- if all:
- isomorphs = pybel.ob.vvpairUIntUInt()
- mappr.MapAll(lig.OBMol, isomorphs)
- else:
- isomorphs = pybel.ob.vpairUIntUInt()
- mappr.MapFirst(lig.OBMol, isomorphs)
- isomorphs = [isomorphs]
- logger.debug(f'number of isomorphisms: {len(isomorphs)}')
- # @todo Check which isomorphism to take
- return isomorphs
-
-
-def canonicalize(lig, preserve_bond_order=False):
- """Get the canonical atom order for the ligand."""
- atomorder = None
- # Get canonical atom order
-
- lig = pybel.ob.OBMol(lig.OBMol)
- if not preserve_bond_order:
- for bond in pybel.ob.OBMolBondIter(lig):
- if bond.GetBondOrder() != 1:
- bond.SetBondOrder(1)
- lig.DeleteData(pybel.ob.StereoData)
- lig = pybel.Molecule(lig)
- testcan = lig.write(format='can')
- try:
- pybel.readstring('can', testcan)
- reference = pybel.readstring('can', testcan)
- except IOError:
- testcan, reference = '', ''
- if testcan != '':
- reference.removeh()
- isomorphs = get_isomorphisms(reference, lig) # isomorphs now holds all isomorphisms within the molecule
- if not len(isomorphs) == 0:
- smi_dict = {}
- smi_to_can = isomorphs[0]
- for x in smi_to_can:
- smi_dict[int(x[1]) + 1] = int(x[0]) + 1
- atomorder = [smi_dict[x + 1] for x in range(len(lig.atoms))]
- else:
- atomorder = None
- return atomorder
-
-
-def int32_to_negative(int32):
- """Checks if a suspicious number (e.g. ligand position) is in fact a negative number represented as a
- 32 bit integer and returns the actual number.
- """
- dct = {}
- if int32 == 4294967295: # Special case in some structures (note, this is just a workaround)
- return -1
- for i in range(-1000, -1):
- dct[np.uint32(i)] = i
- if int32 in dct:
- return dct[int32]
- else:
- return int32
-
-
-def read_pdb(pdbfname, as_string=False):
- """Reads a given PDB file and returns a Pybel Molecule."""
- pybel.ob.obErrorLog.StopLogging() # Suppress all OpenBabel warnings
- if os.name != 'nt': # Resource module not available for Windows
- maxsize = resource.getrlimit(resource.RLIMIT_STACK)[-1]
- resource.setrlimit(resource.RLIMIT_STACK, (min(2 ** 28, maxsize), maxsize))
- sys.setrecursionlimit(10 ** 5) # increase Python recursion limit
- return readmol(pdbfname, as_string=as_string)
-
-
-def read(fil):
- """Returns a file handler and detects gzipped files."""
- if os.path.splitext(fil)[-1] == '.gz':
- return gzip.open(fil, 'rb')
- elif os.path.splitext(fil)[-1] == '.zip':
- zf = zipfile.ZipFile(fil, 'r')
- return zf.open(zf.infolist()[0].filename)
- else:
- return open(fil, 'r')
-
-
-def readmol(path, as_string=False):
- """Reads the given molecule file and returns the corresponding Pybel molecule as well as the input file type.
- In contrast to the standard Pybel implementation, the file is closed properly."""
- supported_formats = ['pdb']
- # Fix for Windows-generated files: Remove carriage return characters
- if "\r" in path and as_string:
- path = path.replace('\r', '')
-
- for sformat in supported_formats:
- obc = pybel.ob.OBConversion()
- obc.SetInFormat(sformat)
- logger.debug(f'detected {sformat} as format, trying to read file with OpenBabel')
-
- # Read molecules with single bond information
- if as_string:
- try:
- mymol = pybel.readstring(sformat, path)
- except IOError:
- logger.error('no valid file format provided')
- sys.exit(1)
- else:
- read_file = pybel.readfile(format=sformat, filename=path, opt={"s": None})
- try:
- mymol = next(read_file)
- except StopIteration:
- logger.error('file contains no valid molecules')
- sys.exit(1)
-
- logger.debug('molecule successfully read')
-
- # Assign multiple bonds
- mymol.OBMol.PerceiveBondOrders()
- return mymol, sformat
-
- logger.error('no valid file format provided')
- sys.exit(1)