Mercurial > repos > xuebing > sharplabtool
view tools/new_operations/gops_intersect.py @ 1:cdcb0ce84a1b
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| author | xuebing |
|---|---|
| date | Fri, 09 Mar 2012 19:45:15 -0500 |
| parents | 9071e359b9a3 |
| children |
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#!/usr/bin/env python """ Find regions of first interval file that overlap regions in a second interval file. Interval files can either be BED or GFF format. usage: %prog interval_file_1 interval_file_2 out_file -1, --cols1=N,N,N,N: Columns for start, end, strand in first file -2, --cols2=N,N,N,N: Columns for start, end, strand in second file -m, --mincols=N: Require this much overlap (default 1bp) -p, --pieces: just print pieces of second set (after padding) -G, --gff1: input 1 is GFF format, meaning start and end coordinates are 1-based, closed interval -H, --gff2: input 2 is GFF format, meaning start and end coordinates are 1-based, closed interval """ from galaxy import eggs import pkg_resources pkg_resources.require( "bx-python" ) import sys, traceback, fileinput from warnings import warn from bx.intervals import * from bx.intervals.io import * from bx.intervals.operations.intersect import * from bx.cookbook import doc_optparse from galaxy.tools.util.galaxyops import * from galaxy.datatypes.util.gff_util import GFFFeature, GFFReaderWrapper, convert_bed_coords_to_gff assert sys.version_info[:2] >= ( 2, 4 ) def main(): mincols = 1 upstream_pad = 0 downstream_pad = 0 options, args = doc_optparse.parse( __doc__ ) try: chr_col_1, start_col_1, end_col_1, strand_col_1 = parse_cols_arg( options.cols1 ) chr_col_2, start_col_2, end_col_2, strand_col_2 = parse_cols_arg( options.cols2 ) if options.mincols: mincols = int( options.mincols ) pieces = bool( options.pieces ) in1_gff_format = bool( options.gff1 ) in2_gff_format = bool( options.gff2 ) in_fname, in2_fname, out_fname = args except: doc_optparse.exception() # Set readers to handle either GFF or default format. if in1_gff_format: in1_reader_wrapper = GFFReaderWrapper else: in1_reader_wrapper = NiceReaderWrapper if in2_gff_format: in2_reader_wrapper = GFFReaderWrapper else: in2_reader_wrapper = NiceReaderWrapper g1 = in1_reader_wrapper( fileinput.FileInput( in_fname ), chrom_col=chr_col_1, start_col=start_col_1, end_col=end_col_1, strand_col=strand_col_1, fix_strand=True ) if in1_gff_format: # Intersect requires coordinates in BED format. g1.convert_to_bed_coord=True g2 = in2_reader_wrapper( fileinput.FileInput( in2_fname ), chrom_col=chr_col_2, start_col=start_col_2, end_col=end_col_2, strand_col=strand_col_2, fix_strand=True ) if in2_gff_format: # Intersect requires coordinates in BED format. g2.convert_to_bed_coord=True out_file = open( out_fname, "w" ) try: for feature in intersect( [g1,g2], pieces=pieces, mincols=mincols ): if isinstance( feature, GFFFeature ): # Convert back to GFF coordinates since reader converted automatically. convert_bed_coords_to_gff( feature ) for interval in feature.intervals: out_file.write( "%s\n" % "\t".join( interval.fields ) ) elif isinstance( feature, GenomicInterval ): out_file.write( "%s\n" % "\t".join( feature.fields ) ) else: out_file.write( "%s\n" % feature ) except ParseError, e: out_file.close() fail( "Invalid file format: %s" % str( e ) ) out_file.close() if g1.skipped > 0: print skipped( g1, filedesc=" of 1st dataset" ) if g2.skipped > 0: print skipped( g2, filedesc=" of 2nd dataset" ) if __name__ == "__main__": main()