Mercurial > repos > xuebing > sharplabtool
view tools/maf/interval_maf_to_merged_fasta.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 """ Reads an interval or gene BED and a MAF Source. Produces a FASTA file containing the aligned intervals/gene sequences, based upon the provided coordinates Alignment blocks are layered ontop of each other based upon score. usage: %prog maf_file [options] -d, --dbkey=d: Database key, ie hg17 -c, --chromCol=c: Column of Chr -s, --startCol=s: Column of Start -e, --endCol=e: Column of End -S, --strandCol=S: Column of Strand -G, --geneBED: Input is a Gene BED file, process and join exons as one region -t, --mafSourceType=t: Type of MAF source to use -m, --mafSource=m: Path of source MAF file, if not using cached version -I, --mafIndex=I: Path of precomputed source MAF file index, if not using cached version -i, --interval_file=i: Input interval file -o, --output_file=o: Output MAF file -p, --species=p: Species to include in output -O, --overwrite_with_gaps=O: Overwrite bases found in a lower-scoring block with gaps interior to the sequence for a species. -z, --mafIndexFileDir=z: Directory of local maf_index.loc file usage: %prog dbkey_of_BED comma_separated_list_of_additional_dbkeys_to_extract comma_separated_list_of_indexed_maf_files input_gene_bed_file output_fasta_file cached|user GALAXY_DATA_INDEX_DIR """ #Dan Blankenberg from galaxy import eggs from galaxy.tools.util import maf_utilities import pkg_resources; pkg_resources.require( "bx-python" ) from bx.cookbook import doc_optparse import bx.intervals.io import sys assert sys.version_info[:2] >= ( 2, 4 ) def stop_err( msg ): sys.stderr.write( msg ) sys.exit() def __main__(): #Parse Command Line options, args = doc_optparse.parse( __doc__ ) mincols = 0 strand_col = -1 if options.dbkey: primary_species = options.dbkey else: primary_species = None if primary_species in [None, "?", "None"]: stop_err( "You must specify a proper build in order to extract alignments. You can specify your genome build by clicking on the pencil icon associated with your interval file." ) include_primary = True secondary_species = maf_utilities.parse_species_option( options.species ) if secondary_species: species = list( secondary_species ) # make copy of species list if primary_species in secondary_species: secondary_species.remove( primary_species ) else: include_primary = False else: species = None if options.interval_file: interval_file = options.interval_file else: stop_err( "Input interval file has not been specified." ) if options.output_file: output_file = options.output_file else: stop_err( "Output file has not been specified." ) if not options.geneBED: if options.chromCol: chr_col = int( options.chromCol ) - 1 else: stop_err( "Chromosome column not set, click the pencil icon in the history item to set the metadata attributes." ) if options.startCol: start_col = int( options.startCol ) - 1 else: stop_err( "Start column not set, click the pencil icon in the history item to set the metadata attributes." ) if options.endCol: end_col = int( options.endCol ) - 1 else: stop_err( "End column not set, click the pencil icon in the history item to set the metadata attributes." ) if options.strandCol: strand_col = int( options.strandCol ) - 1 mafIndexFile = "%s/maf_index.loc" % options.mafIndexFileDir overwrite_with_gaps = True if options.overwrite_with_gaps and options.overwrite_with_gaps.lower() == 'false': overwrite_with_gaps = False #Finish parsing command line #get index for mafs based on type index = index_filename = None #using specified uid for locally cached if options.mafSourceType.lower() in ["cached"]: index = maf_utilities.maf_index_by_uid( options.mafSource, mafIndexFile ) if index is None: stop_err( "The MAF source specified (%s) appears to be invalid." % ( options.mafSource ) ) elif options.mafSourceType.lower() in ["user"]: #index maf for use here, need to remove index_file when finished index, index_filename = maf_utilities.open_or_build_maf_index( options.mafSource, options.mafIndex, species = [primary_species] ) if index is None: stop_err( "Your MAF file appears to be malformed." ) else: stop_err( "Invalid MAF source type specified." ) #open output file output = open( output_file, "w" ) if options.geneBED: region_enumerator = maf_utilities.line_enumerator( open( interval_file, "r" ).readlines() ) else: region_enumerator = enumerate( bx.intervals.io.NiceReaderWrapper( open( interval_file, 'r' ), chrom_col = chr_col, start_col = start_col, end_col = end_col, strand_col = strand_col, fix_strand = True, return_header = False, return_comments = False ) ) #Step through intervals regions_extracted = 0 line_count = 0 for line_count, line in region_enumerator: try: if options.geneBED: #Process as Gene BED try: starts, ends, fields = maf_utilities.get_starts_ends_fields_from_gene_bed( line ) #create spliced alignment object alignment = maf_utilities.get_spliced_region_alignment( index, primary_species, fields[0], starts, ends, strand = '+', species = species, mincols = mincols, overwrite_with_gaps = overwrite_with_gaps ) primary_name = secondary_name = fields[3] alignment_strand = fields[5] except Exception, e: print "Error loading exon positions from input line %i: %s" % ( line_count, e ) continue else: #Process as standard intervals try: #create spliced alignment object alignment = maf_utilities.get_region_alignment( index, primary_species, line.chrom, line.start, line.end, strand = '+', species = species, mincols = mincols, overwrite_with_gaps = overwrite_with_gaps ) primary_name = "%s(%s):%s-%s" % ( line.chrom, line.strand, line.start, line.end ) secondary_name = "" alignment_strand = line.strand except Exception, e: print "Error loading region positions from input line %i: %s" % ( line_count, e ) continue #Write alignment to output file #Output primary species first, if requested if include_primary: output.write( ">%s.%s\n" %( primary_species, primary_name ) ) if alignment_strand == "-": output.write( alignment.get_sequence_reverse_complement( primary_species ) ) else: output.write( alignment.get_sequence( primary_species ) ) output.write( "\n" ) #Output all remainging species for spec in secondary_species or alignment.get_species_names( skip = primary_species ): if secondary_name: output.write( ">%s.%s\n" % ( spec, secondary_name ) ) else: output.write( ">%s\n" % ( spec ) ) if alignment_strand == "-": output.write( alignment.get_sequence_reverse_complement( spec ) ) else: output.write( alignment.get_sequence( spec ) ) output.write( "\n" ) output.write( "\n" ) regions_extracted += 1 except Exception, e: print "Unexpected error from input line %i: %s" % ( line_count, e ) continue #close output file output.close() #remove index file if created during run maf_utilities.remove_temp_index_file( index_filename ) #Print message about success for user if regions_extracted > 0: print "%i regions were processed successfully." % ( regions_extracted ) else: print "No regions were processed successfully." if line_count > 0 and options.geneBED: print "This tool requires your input file to conform to the 12 column BED standard." if __name__ == "__main__": __main__()