Mercurial > repos > miller-lab > genome_diversity
view genome_diversity.py @ 39:e56023008e36 default tip
Changed revision of package_fisher_0_1_4 to be2fc454d121
Changed revision of package_matplotlib_1_2 to a03ee94316b5
| author | miller-lab |
|---|---|
| date | Mon, 06 Jul 2015 10:32:24 -0400 |
| parents | 2c498d40ecde |
| children |
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#!/usr/bin/env python import sys import cdblib def _openfile( filename=None, mode='r' ): try: fh = open( filename, mode ) except IOError, err: raise RuntimeError( "can't open file: %s\n" % str( err ) ) return fh def get_filename_from_loc( species=None, filename=None ): fh = _openfile( filename ) for line in fh: if line and not line.startswith( '#' ): line = line.rstrip( '\r\n' ) if line: elems = line.split( '\t' ) if len( elems ) >= 2 and elems[0] == species: return elems[1] raise RuntimeError( "can't find '%s' in location file: %s\n" % ( species, filename ) ) class SnpFile( object ): def __init__( self, filename=None, seq_col=1, pos_col=2, ref_seq_col=7, ref_pos_col=8 ): self.filename = filename self.fh = _openfile( filename ) self.seq_col = seq_col self.pos_col = pos_col self.ref_seq_col = ref_seq_col self.ref_pos_col = ref_pos_col self.elems = None self.line = None self.comments = [] def next( self ): while self.fh: try: self.line = self.fh.next() except StopIteration: self.line = None self.elems = None return None if self.line: self.line = self.line.rstrip( '\r\n' ) if self.line: if self.line.startswith( '#' ): self.comments.append( self.line ) else: self.elems = self.line.split( '\t' ) return 1 def get_seq_pos( self ): if self.elems: return self.elems[ self.seq_col - 1 ], self.elems[ self.pos_col - 1 ] else: return None, None def get_ref_seq_pos( self ): if self.elems: return self.elems[ self.ref_seq_seq - 1 ], self.elems[ self.ref_pos_col - 1 ] else: return None, None class IndexedFile( object ): def __init__( self, data_file=None, index_file=None ): self.data_file = data_file self.index_file = index_file self.data_fh = _openfile( data_file ) self.index_fh = _openfile( index_file ) self._reader = cdblib.Reader( self.index_fh.read(), hash ) def get_indexed_line( self, key=None ): line = None if key in self._reader: offset = self._reader.getint( key ) self.data_fh.seek( offset ) try: line = self.data_fh.next() except StopIteration: raise RuntimeError( 'index file out of sync for %s' % key ) return line class PrimersFile( IndexedFile ): def get_primer_header( self, sequence=None, position=None ): key = "%s %s" % ( str( sequence ), str( position ) ) header = self.get_indexed_line( key ) if header: if header.startswith( '>' ): elems = header.split() if len( elems ) < 3: raise RuntimeError( 'short primers header for %s' % key ) if sequence != elems[1] or str( position ) != elems[2]: raise RuntimeError( 'primers index for %s finds %s %s' % ( key, elems[1], elems[2] ) ) else: raise RuntimeError( 'primers index out of sync for %s' % key ) return header def get_entry( self, sequence=None, position=None ): entry = self.get_primer_header( sequence, position ) if entry: while self.data_fh: try: line = self.data_fh.next() except StopIteration: break if line.startswith( '>' ): break entry += line return entry def get_enzymes( self, sequence=None, position=None ): entry = self.get_primer_header( sequence, position ) enzyme_list = [] if entry: try: line = self.data_fh.next() except StopIteration: raise RuntimeError( 'primers entry for %s %s is truncated' % ( str( sequence ), str( position ) ) ) if line.startswith( '>' ): raise RuntimeError( 'primers entry for %s %s is truncated' % ( str( sequence ), str( position ) ) ) line.rstrip( '\r\n' ) if line: enzymes = line.split( ',' ) for enzyme in enzymes: enzyme = enzyme.strip() if enzyme: enzyme_list.append( enzyme ) return enzyme_list class SnpcallsFile( IndexedFile ): def get_snp_seq( self, sequence=None, position=None ): key = "%s %s" % ( str( sequence ), str( position ) ) line = self.get_indexed_line( key ) if line: elems = line.split( '\t' ) if len (elems) < 3: raise RuntimeError( 'short snpcalls line for %s' % key ) if sequence != elems[0] or str( position ) != elems[1]: raise RuntimeError( 'snpcalls index for %s finds %s %s' % ( key, elems[0], elems[1] ) ) return elems[2] else: return None def get_flanking_dna( self, sequence=None, position=None, format='fasta' ): if format != 'fasta' and format != 'primer3': raise RuntimeError( 'invalid format for flanking dna: %s' % str( format ) ) seq = self.get_snp_seq( sequence, position ) if seq: p = seq.find('[') if p == -1: raise RuntimeError( 'snpcalls entry for %s %s missing left bracket: %s' % ( str( sequence ), str( position ), seq ) ) q = seq.find(']', p + 1) if q == -1: raise RuntimeError( 'snpcalls entry for %s %s missing right bracket: %s' % ( str( sequence ), str( position ), seq ) ) q += 1 if format == 'fasta': flanking_seq = '> ' else: flanking_seq = 'SEQUENCE_ID=' flanking_seq += "%s %s %s %s\n" % ( str( sequence ), str( position ), seq[p+1], seq[p+3] ) if format == 'primer3': flanking_seq += 'SEQUENCE_TEMPLATE=' flanking_seq += "%sn%s\n" % ( seq[0:p], seq[q:] ) if format == 'primer3': flanking_seq += "SEQUENCE_TARGET=%d,11\n=\n" % ( p - 5 ) return flanking_seq else: return None class LocationFile( object ): def __init__(self, filename): self.build_map(filename) def build_map(self, filename): self.map = {} self.open_file(filename) for line in self.read_lines(): elems = line.split('\t', 1) if len(elems) == 2: self.map[ elems[0].strip() ] = elems[1].strip() self.close_file() def read_lines(self): for line in self.fh: if not line.startswith('#'): line = line.rstrip('\r\n') yield line def open_file(self, filename): self.filename = filename try: self.fh = open(filename, 'r') except IOError, err: print >> sys.stderr, "Error opening location file '%s': %s" % (filename, str(err)) sys.exit(1) def close_file(self): self.fh.close() def loc_file( self, key ): if key in self.map: return self.map[key] else: print >> sys.stderr, "'%s' does not appear in location file '%s'" % (key, self.filename) sys.exit(1) class ChrLens( object ): def __init__( self, chrlen_filename ): self.chrlen_filename = chrlen_filename self.build_map() def build_map(self): self.map = {} self.open_file(self.chrlen_filename) for line in self.read_lines(): elems = line.split('\t', 1) if len(elems) == 2: chrom = elems[0].strip() chrom_len_text = elems[1].strip() try: chrom_len = int( chrom_len_text ) except ValueError: print >> sys.stderr, "Bad length '%s' for chromosome '%s' in '%s'" % (chrom_len_text, chrom, self.chrlen_filename) self.map[ chrom ] = chrom_len self.close_file() def read_lines(self): for line in self.fh: if not line.startswith('#'): line = line.rstrip('\r\n') yield line def open_file(self, filename): self.filename = filename try: self.fh = open(filename, 'r') except IOError, err: print >> sys.stderr, "Error opening chromosome length file '%s': %s" % (filename, str(err)) sys.exit(1) def close_file(self): self.fh.close() def length( self, key ): if key in self.map: return self.map[key] else: return None def __iter__( self ): for chrom in self.map: yield chrom