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| author | davidmurphy |
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| date | Mon, 16 Jan 2012 07:03:36 -0500 |
| parents | c55bdc2fb9fa |
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# Copyright (c) 2005 Gavin E. Crooks <gec@compbio.berkeley.edu> # # This software is distributed under the MIT Open Source License. # <http://www.opensource.org/licenses/mit-license.html> # # Permission is hereby granted, free of charge, to any person obtaining a # copy of this software and associated documentation files (the "Software"), # to deal in the Software without restriction, including without limitation # the rights to use, copy, modify, merge, publish, distribute, sublicense, # and/or sell copies of the Software, and to permit persons to whom the # Software is furnished to do so, subject to the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR # IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, # FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE # AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER # LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN # THE SOFTWARE. # """ Alphabetic sequences and associated tools and data. Seq is a subclass of a python string with additional annotation and an alphabet. The characters in string must be contained in the alphabet. Various standard alphabets are provided. Classes : Alphabet -- A subset of non-null ascii characters Seq -- An alphabetic string SeqList -- A collection of Seq's Alphabets : o generic_alphabet -- A generic alphabet. Any printable ASCII character. o protein_alphabet -- IUCAP/IUB Amino Acid one letter codes. o nucleic_alphabet -- IUPAC/IUB Nucleic Acid codes 'ACGTURYSWKMBDHVN-' o dna_alphabet -- Same as nucleic_alphabet, with 'U' (Uracil) an alternative for 'T' (Thymidine). o rna_alphabet -- Same as nucleic_alphabet, with 'T' (Thymidine) an alternative for 'U' (Uracil). o reduced_nucleic_alphabet -- All ambiguous codes in 'nucleic_alphabet' are alternative to 'N' (aNy) o reduced_protein_alphabet -- All ambiguous ('BZJ') and non-canonical amino acids codes ( 'U', Selenocysteine and 'O', Pyrrolysine) in 'protein_alphabet' are alternative to 'X'. o unambiguous_dna_alphabet -- 'ACGT' o unambiguous_rna_alphabet -- 'ACGU' o unambiguous_protein_alphabet -- The twenty canonical amino acid one letter codes, in alphabetic order, 'ACDEFGHIKLMNPQRSTVWY' Amino Acid Codes: Code Alt. Meaning ----------------- A Alanine B Aspartic acid or Asparagine C Cysteine D Aspartate E Glutamate F Phenylalanine G Glycine H Histidine I Isoleucine J Leucine or Isoleucine K Lysine L Leucine M Methionine N Asparagine O Pyrrolysine P Proline Q Glutamine R Arginine S Serine T Threonine U Selenocysteine V Valine W Tryptophan Y Tyrosine Z Glutamate or Glutamine X ? any * translation stop - .~ gap Nucleotide Codes: Code Alt. Meaning ------------------------------ A Adenosine C Cytidine G Guanine T Thymidine U Uracil R G A (puRine) Y T C (pYrimidine) K G T (Ketone) M A C (aMino group) S G C (Strong interaction) W A T (Weak interaction) B G T C (not A) (B comes after A) D G A T (not C) (D comes after C) H A C T (not G) (H comes after G) V G C A (not T, not U) (V comes after U) N X? A G C T (aNy) - .~ A gap Refs: http://www.chem.qmw.ac.uk/iupac/AminoAcid/A2021.html http://www.chem.qmw.ac.uk/iubmb/misc/naseq.html Status: Beta Authors: GEC 2004,2005 """ # TODO: Add this to docstring somewhere. # To replace all ambiguous nucleic code by 'N', replace alphabet and then n # normalize. # # >>> Seq( 'ACGT-RYKM', reduced_nucleic_alphabet).normalized() # 'ACGT-NNNN' from array import array from string import maketrans from corebio.moremath import argmax, sqrt __all__ = [ 'Alphabet', 'Seq', 'rna', 'dna', 'protein', 'SeqList', 'generic_alphabet', 'protein_alphabet', 'nucleic_alphabet', 'dna_alphabet', 'rna_alphabet', 'reduced_nucleic_alphabet', 'reduced_protein_alphabet', 'unambiguous_dna_alphabet', 'unambiguous_dna_alphabet', 'unambiguous_rna_alphabet', 'unambiguous_protein_alphabet', 'generic_alphabet' ] class Alphabet(object) : """An ordered subset of printable ascii characters. Status: Beta Authors: - GEC 2005 """ __slots__ = ['_letters', '_alternatives','_ord_table', '_chr_table'] # We're immutable, so use __new__ not __init__ def __new__(cls, letters, alternatives= None) : """Create a new, immutable Alphabet. arguments: - letters -- the letters in the alphabet. The ordering determines the ordinal position of each character in this alphabet. - alt -- A list of (alternative, canonical) letters. The alternatives are given the same ordinal position as the canonical character. e.g. (('?','X'),('x', 'X')) states that '?' and 'x' are synomonous with 'X'. Values that are not in 'letters' are ignored. Alternatives that are already in 'letters' are also ignored. If the same alternative character is used twice then the alternative is assigned to the canonical character that occurs first in 'letters'. The default is to assume that upper and lower case characters are equivalent, unless both cases are included in 'letters'. raises: ValueError : Repetitive or otherwise illegal set of letters. """ self = object.__new__(cls) # Printable Ascii characters ascii_letters = "".join([chr(__i) for __i in range(32,128)]) if letters is None : letters = ascii_letters self._letters = letters equivalent_by_case = zip( 'abcdefghijklmnopqrstuvwxyz', 'ABCDEFGHIJKLMNOPQRSTUVWXYZ') if alternatives is None : alternatives = equivalent_by_case # The ord_table maps between the ordinal position of a character in ascii # and the ordinal position in this alphabet. Characters not in the # alphabet are given a position of 255. The ord_table is stored as a # string. ord_table = ["\xff",] * 256 for i,a in enumerate(letters) : n = ord(a) if n == 0 : raise ValueError("Alphabet cannot contain null character \\0") if ord_table[ n ] != "\xff": raise ValueError("Repetitive alphabet") ord_table[ n ] = chr(i) # Add alternatives _from = [] _to = [] for e, c in alternatives : if c in letters : n = ord(e) if ord_table[ n ] == "\xff" : # empty ord_table[ n ] = ord_table[ ord(c)] _from.append(e) _to.append(c) self._alternatives = (''.join(_from), ''.join(_to)) ord_table = "".join(ord_table) assert( ord_table[0] == "\xff") self._ord_table = ord_table # The chr_table maps between ordinal position in the alphabet letters # and the ordinal position in ascii. This map is not the inverse of # ord_table if there are alternatives. chr_table = ["\x00"]*256 for i,a in enumerate(letters) : chr_table[ i ] = a chr_table = "".join(chr_table) self._chr_table = chr_table return self def alphabetic(self, string) : """True if all characters of the string are in this alphabet.""" table = self._ord_table for s in str(string): if table[ord(s)] == "\xff" : return False return True def chr(self, n) : """ The n'th character in the alphabet (zero indexed) or \\0 """ return self._chr_table[n] def ord(self, c) : """The ordinal position of the character c in this alphabet, or 255 if no such character. """ return ord(self._ord_table[ord(c)]) def chrs(self, sequence_of_ints) : """Convert a sequence of ordinals into an alphabetic string.""" if not isinstance(sequence_of_ints, array) : sequence_of_ints = array('B', sequence_of_ints) s = sequence_of_ints.tostring().translate(self._chr_table) return Seq(s, self) def ords(self, string) : """Convert an alphabetic string into a byte array of ordinals.""" string = str(string) s = string.translate(self._ord_table) a = array('B',s) return a def normalize(self, string) : """Normalize an alphabetic string by converting all alternative symbols to the canonical equivalent in 'letters'. """ if not self.alphabetic(string) : raise ValueError("Not an alphabetic string.") return self.chrs(self.ords(string)) def letters(self) : """ Letters of the alphabet as a string.""" return str(self) def _all_letters(self) : """ All allowed letters, including alternatives.""" let = [] let.append(self._letters) for key, value in self._alternatives : let.append(value) return ''.join(let) def __repr__(self) : return "Alphabet( '" + self._letters +"', zip"+ repr(self._alternatives)+" )" def __str__(self) : return str(self._letters) def __len__(self) : return len(self._letters) def __eq__(self, other) : if not hasattr(other, "_ord_table") : return False return self._ord_table == other._ord_table def __ne__(self, other) : return not self.__eq__(other) def __iter__(self) : return iter(self._letters) def __getitem__(self, key) : return self._letters[key] # End class Alphabet # ------------------- Standard ALPHABETS ------------------- # Standard alphabets are defined here, after Alphabet class. generic_alphabet = Alphabet(None, None) protein_alphabet = Alphabet('ACDEFGHIKLMNOPQRSTUVWYBJZX*-', zip('acdefghiklmnopqrstuvwybjzx?.~', 'ACDEFGHIKLMNOPQRSTUVWYBJZXX--') ) nucleic_alphabet = Alphabet("ACGTURYSWKMBDHVN-", zip("acgturyswkmbdhvnXx?.~", "ACGTURYSWKMBDHVNNNN--") ) dna_alphabet = Alphabet("ACGTRYSWKMBDHVN-", zip('acgtryswkmbdhvnXx?.~Uu', 'ACGTRYSWKMBDHVNNNN--TT') ) rna_alphabet = Alphabet("ACGURYSWKMBDHVN-", zip('acguryswkmbdhvnXx?.~Tt', 'ACGURYSWKMBDHVNNNN--UU') ) reduced_nucleic_alphabet = Alphabet("ACGTN-", zip('acgtryswkmbdhvnXx?.~TtRYSWKMBDHV', 'ACGTNNNNNNNNNNNNNN--TTNNNNNNNNNN') ) reduced_protein_alphabet = Alphabet('ACDEFGHIKLMNPQRSTVWYX*-', zip('acdefghiklmnpqrstvwyx?.~BbZzUu', 'ACDEFGHIKLMNPQRSTVWYXX--XXXXCC') ) unambiguous_dna_alphabet = Alphabet("ACGT", zip('acgt','ACGT') ) unambiguous_rna_alphabet = Alphabet("ACGU", zip('acgu','ACGU') ) unambiguous_protein_alphabet = Alphabet("ACDEFGHIKLMNPQRSTVWY", zip('acdefghiklmnopqrstuvwy', 'ACDEFGHIKLMNOPQRSTUVWY') ) _complement_table = maketrans("ACGTRYSWKMBDHVN-acgtUuryswkmbdhvnXx?.~", "TGCAYRSWMKVHDBN-tgcaAayrswmkvhdbnXx?.~") class Seq(str): """ An alphabetic string. A subclass of "str" consisting solely of letters from the same alphabet. Attributes: alphabet -- A string or Alphabet of allowed characters. name -- A short string used to identify the sequence. description -- A string describing the sequence Authors : GEC 2005 """ # TODO: need a method to return a copy of the string with a new alphabet, # preserving the sequence, name and alphabet? def __new__(cls, obj, alphabet= generic_alphabet, name =None, description=None, ): self = str.__new__(cls, obj) if alphabet is None: alphabet = generic_alphabet if not isinstance(alphabet, Alphabet): alphabet = Alphabet(alphabet) if not alphabet.alphabetic(self) : raise ValueError("Sequence not alphabetic %s, '%s'" %(alphabet, self)) self._alphabet=alphabet self.name = name self.description = description return self # BEGIN PROPERTIES # Make alphabet constant def _get_alphabet(self): return self._alphabet alphabet = property(_get_alphabet) # END PROPERTIES def ords(self) : """ Convert sequence to an array of integers in the range [0, len(alphabet) ) """ return self.alphabet.ords(self) def tally(self, alphabet = None): """Counts the occurrences of alphabetic characters. Arguments: - alphabet -- an optional alternative alphabet Returns : A list of character counts in alphabetic order. """ # Renamed from count() since this conflicts with str.count(). if not alphabet : alphabet = self.alphabet L = len(alphabet) counts = [0,] * L ords = alphabet.ords(self) for n in ords: if n<L : counts[n] +=1 return counts def kmers(self, alphabet = None, k=1): """Counts the occurrences of overlapping alphabetic subsequences. Arguments: - alphabet -- an optional alternative alphabet - k -- subsequence length. Default: 1 (monomers) Returns : A list of kmers counts in alphabetic order. Status : Alpha -- Not sure on interface. Will only work for small k """ # TODO: Refactor? # TODO: Rename 'kmers' to 'words' or word_count if not alphabet : alphabet = self.alphabet L = len(alphabet) N = L**k counts = [0,]*N ords = alphabet.ords(self) # Easy case if k==1 : for n in ords: if n<N : counts[n] +=1 return counts # Kmer counting. # FIXME: This code assumes that k isn't too large. # e.g. L =10, k = 3, multi = [100,10,1] multi = [ L**i for i in range(k-1,-1,-1)] for i in range(len(ords)-k+1) : if ords[i] >= N : # Skip non-alphabetic kmers i += k continue #FIXME: this should be a function of alphabet? n = sum([multi[j]* ords[i+j] for j in range(k) ]) counts[n] +=1 return counts def __getslice__(self, i, j): cls = self.__class__ return cls( str.__getslice__(self,i,j), self.alphabet) def __getitem__(self, key) : cls = self.__class__ return cls( str.__getitem__(self,key), self.alphabet) def __add__(self, other) : # called for "self + other" cls = self.__class__ return cls( str.__add__(self, other), self.alphabet) def __radd__(self, other) : # Called when "other + self" and other is superclass of self cls = self.__class__ return cls( str.__add__(self, other), self.alphabet) def join(self, str_list) : cls = self.__class__ return cls( super(Seq, self).join(str_list), self.alphabet) def __eq__(self, other) : if not hasattr(other, "alphabet") : return False if self.alphabet != other.alphabet : return False return str.__eq__(self, other) def __ne__(self, other) : return not self.__eq__(other) def tostring(self) : """ Converts Seq to a raw string. """ # Compatibility with biopython return str(self) # ---- Transformations of Seq ---- def reverse(self) : """Return the reversed sequence. Not that this method returns a new object, in contrast to the in-place reverse() method of list objects. """ cls = self.__class__ return cls( self[::-1], self.alphabet) def ungap(self) : # FIXME: Gap symbols should be specified by the Alphabet? return self.remove( '-.~') def remove(self, delchars) : """Return a new alphabetic sequence with all characters in 'delchars' removed. """ cls = self.__class__ return cls( str(self).translate(maketrans('',''), delchars), self.alphabet) def lower(self) : """Return a lower case copy of the sequence. """ cls = self.__class__ trans = maketrans('ABCDEFGHIJKLMNOPQRSTUVWXYZ','abcdefghijklmnopqrstuvwxyz') return cls(str(self).translate(trans), self.alphabet) def upper(self) : """Return a lower case copy of the sequence. """ cls = self.__class__ trans = maketrans('abcdefghijklmnopqrstuvwxyz','ABCDEFGHIJKLMNOPQRSTUVWXYZ') return cls(str(self).translate(trans), self.alphabet) def mask(self, letters= 'abcdefghijklmnopqrstuvwxyz', mask='X') : """Replace all occurences of letters with the mask character. The default is to replace all lower case letters with 'X'. """ LL = len(letters) if len(mask) !=1 : raise ValueError("Mask should be single character") to = mask * LL trans = maketrans( letters, to) cls = self.__class__ return cls(str(self).translate(trans), self.alphabet) def translate(self) : """Translate a nucleotide sequence to a polypeptide using full IUPAC ambiguities in DNA/RNA and amino acid codes, using the standard genetic code. See corebio.transform.GeneticCode for details and more options. """ # Note: masks str.translate from transform import GeneticCode return GeneticCode.std().translate(self) def back_translate(self) : """Translate a protein sequence back into coding DNA, using using the standard genetic code. See corebio.transform.GeneticCode for details and more options. """ from transform import GeneticCode return GeneticCode.std().back_translate(self) def reverse_complement(self) : """Returns reversed complementary nucleic acid sequence (i.e. the other strand of a DNA sequence.) """ return self.reverse().complement() def complement(self) : """Returns complementary nucleic acid sequence.""" if not nucleic_alphabet.alphabetic(self.alphabet): raise ValueError("Incompatable alphabets") s = str.translate(self, _complement_table) cls = self.__class__ return cls(s, self.alphabet, self.name, self.description) # end class Seq class SeqList(list): """ A list of sequences. Status: Beta """ # TODO: If alphabet given, we should ensure that all sequences conform. # TODO: Need an isaligned() method. All seqs same length, same alphabet. __slots__ =["alphabet", "name", "description"] def __init__(self, alist=[], alphabet=None, name=None, description=None): list.__init__(self, alist) self.alphabet = alphabet self.name = name self.description = description # TOOWTDI. Replicates seq_io.read() #@classmethod #def read(cls, afile, alphabet = None): # return corebio.seq_io.read(afile, alphabet) #read = classmethod(read) def ords(self, alphabet=None) : """ Convert sequence list into a 2D array of ordinals. """ if not alphabet : alphabet = self.alphabet if not alphabet : raise ValueError("No alphabet") k = [] for s in self: k.append( alphabet.ords(s) ) return k def tally(self, alphabet = None): """Counts the occurrences of characters in each column.""" if not alphabet : alphabet = self.alphabet if not alphabet : raise ValueError("No alphabet") N = len(alphabet) ords = self.ords(alphabet) L = len(ords[0]) counts = [ [0,]*N for l in range(0,L)] for o in ords : for j,n in enumerate(o) : if n<N : counts[ j][n] +=1 return counts # end class SeqList def dna(string) : """Create an alphabetic sequence representing a stretch of DNA. """ return Seq(string, alphabet = dna_alphabet) def rna(string) : """Create an alphabetic sequence representing a stretch of RNA. """ return Seq(string, alphabet = rna_alphabet) def protein(string) : """Create an alphabetic sequence representing a stretch of polypeptide. """ return Seq(string, alphabet = protein_alphabet)