Mercurial > repos > xuebing > sharplabtool
view tools/filters/join.py @ 0:9071e359b9a3
Uploaded
author | xuebing |
---|---|
date | Fri, 09 Mar 2012 19:37:19 -0500 |
parents | |
children |
line wrap: on
line source
#!/usr/bin/env python #Dan Blankenberg """ Script to Join Two Files on specified columns. Takes two tab delimited files, two column numbers (base 1) and outputs a new tab delimited file with lines joined by tabs. User can also opt to have have non-joining rows of file1 echoed. """ import optparse, os, sys, tempfile, struct import psyco_full try: simple_json_exception = None from galaxy import eggs from galaxy.util.bunch import Bunch from galaxy.util import stringify_dictionary_keys import pkg_resources pkg_resources.require("simplejson") import simplejson except Exception, e: simplejson_exception = e simplejson = None class OffsetList: def __init__( self, filesize = 0, fmt = None ): self.file = tempfile.NamedTemporaryFile( 'w+b' ) if fmt: self.fmt = fmt elif filesize and filesize <= sys.maxint * 2: self.fmt = 'I' else: self.fmt = 'Q' self.fmt_size = struct.calcsize( self.fmt ) @property def size( self ): self.file.flush() return self.file_size / self.fmt_size @property def file_size( self ): self.file.flush() return os.stat( self.file.name ).st_size def add_offset( self, offset ): if not isinstance( offset, list ): offset = [offset] self.file.seek( self.file_size ) for off in offset: self.file.write( struct.pack( self.fmt, off ) ) def get_offsets( self, start = 0 ): self.file.seek( start * self.fmt_size ) while True: packed = self.file.read( self.fmt_size ) if not packed: break yield struct.unpack( self.fmt, packed )[0] def get_offset_by_index( self, index ): self.file.seek( index * self.fmt_size ) return struct.unpack( self.fmt, self.file.read( self.fmt_size ) )[0] def set_offset_at_index( self, index, offset ): if not isinstance( offset, list ): offset = [offset] if index >= self.size: self.add_offset( offset ) else: temp_file = tempfile.NamedTemporaryFile( 'w+b' ) self.file.seek( 0 ) temp_file.write( self.file.read( ( index ) * self.fmt_size ) ) for off in offset: temp_file.write( struct.pack( self.fmt, off ) ) temp_file.write( self.file.read() ) self.file = temp_file class SortedOffsets( OffsetList ): def __init__( self, indexed_filename, column, split = None ): OffsetList.__init__( self, os.stat( indexed_filename ).st_size ) self.indexed_filename = indexed_filename self.indexed_file = open( indexed_filename, 'rb' ) self.column = column self.split = split self.last_identifier = None self.last_identifier_merged = None self.last_offset_merged = 0 def merge_with_dict( self, new_offset_dict ): if not new_offset_dict: return #no items to merge in keys = new_offset_dict.keys() keys.sort() identifier2 = keys.pop( 0 ) result_offsets = OffsetList( fmt = self.fmt ) offsets1 = enumerate( self.get_offsets() ) try: index1, offset1 = offsets1.next() identifier1 = self.get_identifier_by_offset( offset1 ) except StopIteration: offset1 = None identifier1 = None index1 = 0 while True: if identifier1 is None and identifier2 is None: self.file = result_offsets.file #self is now merged results return elif identifier1 is None or ( identifier2 and identifier2 < identifier1 ): result_offsets.add_offset( new_offset_dict[identifier2] ) if keys: identifier2 = keys.pop( 0 ) else: identifier2 = None elif identifier2 is None: result_offsets.file.seek( result_offsets.file_size ) self.file.seek( index1 * self.fmt_size ) result_offsets.file.write( self.file.read() ) identifier1 = None offset1 = None else: result_offsets.add_offset( offset1 ) try: index1, offset1 = offsets1.next() identifier1 = self.get_identifier_by_offset( offset1 ) except StopIteration: offset1 = None identifier1 = None index1 += 1 #methods to help link offsets to lines, ids, etc def get_identifier_by_line( self, line ): if isinstance( line, str ): fields = line.rstrip( '\r\n' ).split( self.split ) if self.column < len( fields ): return fields[self.column] return None def get_line_by_offset( self, offset ): self.indexed_file.seek( offset ) return self.indexed_file.readline() def get_identifier_by_offset( self, offset ): return self.get_identifier_by_line( self.get_line_by_offset( offset ) ) #indexed set of offsets, index is built on demand class OffsetIndex: def __init__( self, filename, column, split = None, index_depth = 3 ): self.filename = filename self.file = open( filename, 'rb' ) self.column = column self.split = split self._offsets = {} self._index = None self.index_depth = index_depth def _build_index( self ): self._index = {} for start_char, sorted_offsets in self._offsets.items(): self._index[start_char]={} for i, offset in enumerate( sorted_offsets.get_offsets() ): identifier = sorted_offsets.get_identifier_by_offset( offset ) if identifier[0:self.index_depth] not in self._index[start_char]: self._index[start_char][identifier[0:self.index_depth]] = i def get_lines_by_identifier( self, identifier ): if not identifier: return #if index doesn't exist, build it if self._index is None: self._build_index() #identifier cannot exist if identifier[0] not in self._index or identifier[0:self.index_depth] not in self._index[identifier[0]]: return #identifier might exist, search for it offset_index = self._index[identifier[0]][identifier[0:self.index_depth]] while True: if offset_index >= self._offsets[identifier[0]].size: return offset = self._offsets[identifier[0]].get_offset_by_index( offset_index ) identifier2 = self._offsets[identifier[0]].get_identifier_by_offset( offset ) if not identifier2 or identifier2 > identifier: return if identifier2 == identifier: yield self._offsets[identifier[0]].get_line_by_offset( offset ) offset_index += 1 def get_offsets( self ): keys = self._offsets.keys() keys.sort() for key in keys: for offset in self._offsets[key].get_offsets(): yield offset def get_line_by_offset( self, offset ): self.file.seek( offset ) return self.file.readline() def get_identifiers_offsets( self ): keys = self._offsets.keys() keys.sort() for key in keys: for offset in self._offsets[key].get_offsets(): yield self._offsets[key].get_identifier_by_offset( offset ), offset def get_identifier_by_line( self, line ): if isinstance( line, str ): fields = line.rstrip( '\r\n' ).split( self.split ) if self.column < len( fields ): return fields[self.column] return None def merge_with_dict( self, d ): if not d: return #no data to merge self._index = None keys = d.keys() keys.sort() identifier = keys.pop( 0 ) first_char = identifier[0] temp = { identifier: d[identifier] } while True: if not keys: if first_char not in self._offsets: self._offsets[first_char] = SortedOffsets( self.filename, self.column, self.split ) self._offsets[first_char].merge_with_dict( temp ) return identifier = keys.pop( 0 ) if identifier[0] == first_char: temp[identifier] = d[identifier] else: if first_char not in self._offsets: self._offsets[first_char] = SortedOffsets( self.filename, self.column, self.split ) self._offsets[first_char].merge_with_dict( temp ) temp = { identifier: d[identifier] } first_char = identifier[0] class BufferedIndex: def __init__( self, filename, column, split = None, buffer = 1000000, index_depth = 3 ): self.index = OffsetIndex( filename, column, split, index_depth ) self.buffered_offsets = {} f = open( filename, 'rb' ) offset = f.tell() identified_offset_count = 1 while True: offset = f.tell() line = f.readline() if not line: break #EOF identifier = self.index.get_identifier_by_line( line ) if identifier: #flush buffered offsets, if buffer size reached if buffer and identified_offset_count % buffer == 0: self.index.merge_with_dict( self.buffered_offsets ) self.buffered_offsets = {} if identifier not in self.buffered_offsets: self.buffered_offsets[identifier] = [] self.buffered_offsets[identifier].append( offset ) identified_offset_count += 1 f.close() def get_lines_by_identifier( self, identifier ): for line in self.index.get_lines_by_identifier( identifier ): yield line if identifier in self.buffered_offsets: for offset in self.buffered_offsets[identifier]: yield self.index.get_line_by_offset( offset ) def fill_empty_columns( line, split, fill_values ): if not fill_values: return line filled_columns = [] for i, field in enumerate( line.split( split ) ): if field or i >= len( fill_values ): filled_columns.append( field ) else: filled_columns.append( fill_values[i] ) if len( fill_values ) > len( filled_columns ): filled_columns.extend( fill_values[ len( filled_columns ) : ] ) return split.join( filled_columns ) def join_files( filename1, column1, filename2, column2, out_filename, split = None, buffer = 1000000, keep_unmatched = False, keep_partial = False, index_depth = 3, fill_options = None ): #return identifier based upon line def get_identifier_by_line( line, column, split = None ): if isinstance( line, str ): fields = line.rstrip( '\r\n' ).split( split ) if column < len( fields ): return fields[column] return None if fill_options is None: fill_options = Bunch( fill_unjoined_only = True, file1_columns = None, file2_columns = None ) out = open( out_filename, 'w+b' ) index = BufferedIndex( filename2, column2, split, buffer, index_depth ) for line1 in open( filename1, 'rb' ): identifier = get_identifier_by_line( line1, column1, split ) if identifier: written = False for line2 in index.get_lines_by_identifier( identifier ): if not fill_options.fill_unjoined_only: out.write( "%s%s%s\n" % ( fill_empty_columns( line1.rstrip( '\r\n' ), split, fill_options.file1_columns ), split, fill_empty_columns( line2.rstrip( '\r\n' ), split, fill_options.file2_columns ) ) ) else: out.write( "%s%s%s\n" % ( line1.rstrip( '\r\n' ), split, line2.rstrip( '\r\n' ) ) ) written = True if not written and keep_unmatched: out.write( fill_empty_columns( line1.rstrip( '\r\n' ), split, fill_options.file1_columns ) ) if fill_options: if fill_options.file2_columns: out.write( "%s%s" % ( split, fill_empty_columns( "", split, fill_options.file2_columns ) ) ) out.write( "\n" ) elif keep_partial: out.write( fill_empty_columns( line1.rstrip( '\r\n' ), split, fill_options.file1_columns ) ) if fill_options: if fill_options.file2_columns: out.write( "%s%s" % ( split, fill_empty_columns( "", split, fill_options.file2_columns ) ) ) out.write( "\n" ) out.close() def main(): parser = optparse.OptionParser() parser.add_option( '-b','--buffer', dest='buffer', type='int',default=1000000, help='Number of lines to buffer at a time. Default: 1,000,000 lines. A buffer of 0 will attempt to use memory only.' ) parser.add_option( '-d','--index_depth', dest='index_depth', type='int',default=3, help='Depth to use on filebased offset indexing. Default: 3.' ) parser.add_option( '-p','--keep_partial', action='store_true', dest='keep_partial', default=False, help='Keep rows in first input which are missing identifiers.') parser.add_option( '-u','--keep_unmatched', action='store_true', dest='keep_unmatched', default=False, help='Keep rows in first input which are not joined with the second input.') parser.add_option( '-f','--fill_options_file', dest='fill_options_file', type='str',default=None, help='Fill empty columns with a values from a JSONified file.') options, args = parser.parse_args() fill_options = None if options.fill_options_file is not None: try: if simplejson is None: raise simplejson_exception fill_options = Bunch( **stringify_dictionary_keys( simplejson.load( open( options.fill_options_file ) ) ) ) #simplejson.load( open( options.fill_options_file ) ) except Exception, e: print "Warning: Ignoring fill options due to simplejson error (%s)." % e if fill_options is None: fill_options = Bunch() if 'fill_unjoined_only' not in fill_options: fill_options.fill_unjoined_only = True if 'file1_columns' not in fill_options: fill_options.file1_columns = None if 'file2_columns' not in fill_options: fill_options.file2_columns = None try: filename1 = args[0] filename2 = args[1] column1 = int( args[2] ) - 1 column2 = int( args[3] ) - 1 out_filename = args[4] except: print >> sys.stderr, "Error parsing command line." sys.exit() #Character for splitting fields and joining lines split = "\t" return join_files( filename1, column1, filename2, column2, out_filename, split, options.buffer, options.keep_unmatched, options.keep_partial, options.index_depth, fill_options = fill_options ) if __name__ == "__main__": main()