#!/opt/chipster/tools/Python-2.7.12/bin/python """ 'Tile' the blocks of a maf file over each of a set of intervals. The highest scoring block that covers any part of a region will be used, and pieces not covered by any block filled with "-" or optionally "*". This version uses synteny annotation if found on the alignment blocks, and will attempt to fill gaps with special characters depending on the type of gap, similar to the projected alignment display of the UCSC genome browser: '*' for new, '=' for inverse/inset, '#' for contig, 'X' for missing. - The list of species to tile is specified by the first argument (either a newick tree or just a comma separated list). - a 2bit file is expected for the reference species to fill in missing sequence - The remaining arguments are a list of maf files which must have corresponding ".index" files. TODO: The seq_db format is specific to something old and obsure at PSU, need to standardize. usage: %prog list,of,species,to,keep ref.2bit indexed_maf_files ... -m, --missingData: Inserts wildcards for missing block rows instead of '-' -s, --strand: Use strand information for intervals, reveres complement if '-' """ import psyco_full from bx.cookbook import doc_optparse import operator import bx.align.maf as maf import bx.align as align import bx.seq.twobit from bx import misc import bx.seq.nib import os import string import sys tree_tx = string.maketrans( "(),", " " ) def main(): options, args = doc_optparse.parse( __doc__ ) try: sources = args[0].translate( tree_tx ).split() ref_2bit = bx.seq.twobit.TwoBitFile( open( args[1] ) ) index = maf.MultiIndexed( args[2:] ) out = maf.Writer( sys.stdout ) missing_data = bool(options.missingData) use_strand = bool(options.strand) except: doc_optparse.exception() for line in sys.stdin: fields = line.split() ref_src, start, end = fields[0:3] if use_strand and len( fields ) > 5: strand = fields[5] else: strand = '+' do_interval( sources, index, out, ref_src, int( start ), int( end ), ref_2bit, missing_data, strand ) out.close() def get_fill_char( maf_status ): """ Return the character that should be used to fill between blocks having a given status """ ## assert maf_status not in ( maf.MAF_CONTIG_NESTED_STATUS, maf.MAF_NEW_NESTED_STATUS, ## maf.MAF_MAYBE_NEW_NESTED_STATUS ), \ ## "Nested rows do not make sense in a single coverage MAF (or do they?)" if maf_status in ( maf.MAF_NEW_STATUS, maf.MAF_MAYBE_NEW_STATUS, maf.MAF_NEW_NESTED_STATUS, maf.MAF_MAYBE_NEW_NESTED_STATUS ): return "*" elif maf_status in ( maf.MAF_INVERSE_STATUS, maf.MAF_INSERT_STATUS ): return "=" elif maf_status in ( maf.MAF_CONTIG_STATUS, maf.MAF_CONTIG_NESTED_STATUS ): return "#" elif maf_status == maf.MAF_MISSING_STATUS: return "X" else: raise ValueError("Unknwon maf status") def guess_fill_char( left_comp, right_comp ): """ For the case where there is no annotated synteny we will try to guess it """ # No left component, obiously new return "*" # First check that the blocks have the same src (not just species) and # orientation if ( left_comp.src == right_comp.src and left_comp.strand != right_comp.strand ): # Are they completely contiguous? Easy to call that a gap if left_comp.end == right_comp.start: return "-" # TODO: should be able to make some guesses about short insertions # here # All other cases we have no clue about return "*" def remove_all_gap_columns( texts ): """ Remove any columns containing only gaps from alignment texts """ seqs = [ list( t ) for t in texts ] i = 0 text_size = len( texts[0] ) while i < text_size: all_gap = True for seq in seqs: if seq[i] not in ( '-', '#', '*', '=', 'X', '@' ): all_gap = False if all_gap: for seq in seqs: del seq[i] text_size -= 1 else: i += 1 return [ ''.join( s ) for s in seqs ] def do_interval( sources, index, out, ref_src, start, end, ref_2bit, missing_data, strand ): """ Join together alignment blocks to create a semi human projected local alignment (small reference sequence deletions are kept as supported by the local alignment). """ ref_src_size = None # Make sure the reference component is also the first in the source list assert sources[0].split('.')[0] == ref_src.split('.')[0], "%s != %s" \ % ( sources[0].split('.')[0], ref_src.split('.')[0] ) # Extract non-species part from ref_src for grabbing sequence ref_chr = ref_src if "." in ref_src: ref_chr = ref_src[ref_src.index(".")+1:] # Determine the overall length of the interval base_len = end - start # Counter for the last reference species base we have processed last_stop = start # Rows in maf blocks come in in arbitrary order, we'll convert things # to the destred order of the tiled block source_to_index = dict( ( name, i ) for ( i, name ) in enumerate( sources ) ) # This gets all the maf blocks overlapping our interval of interest # NOTE: Unlike maf_tile we're expecting # things to be single coverage in the reference species, so we won't # sort by score and lay down. blocks = index.get( ref_src, start, end ) # The last component seen for each species onto which we are tiling last_components = [ None ] * len( sources ) last_status = [ None ] * len( sources ) cols_needing_fill = [ 0 ] * len( sources ) # The list of strings in which we build up the tiled alignment tiled_rows = [ "" for i in range( len( sources ) ) ] # Enumerate the (ordered) list of blocks for i, block in enumerate( blocks ): # Check for overlap in reference species ref = block.get_component_by_src_start( ref_src ) if ref.start < last_stop: if ref.end < last_stop: continue block = block.slice_by_component( ref, last_stop, min( end, ref.end ) ) ref = block.get_component_by_src_start( ref_src ) block = block.slice_by_component( ref, max( start, ref.start ), min( end, ref.end ) ) ref = block.get_component_by_src_start( ref_src ) # print block assert last_components[0] is None or ref.start >= last_components[0].end, \ "MAF must be sorted and single coverage in reference species!" assert ref.strand == "+", \ "MAF must have all reference species blocks on the plus strand" # Store the size of the reference sequence for building fake block if ref_src_size is None: ref_src_size = ref.src_size # Handle the reference component seperately, it has no synteny status # but we will try to fill in missing sequence if ref.start > last_stop: # Need to fill in some reference sequence chunk_len = ref.start - last_stop text = ref_2bit[ ref_chr ].get( last_stop, last_stop + chunk_len ) tiled_rows[0] += text for source in sources[1:]: cols_needing_fill[ source_to_index[ source ] ] += chunk_len # Do reference component chunk_len = len( ref.text ) tiled_rows[0] += ref.text # Do each other component for source in sources[1:]: source_index = source_to_index[ source ] comp = block.get_component_by_src_start( source ) if comp: if comp.synteny_left is None: left_status, left_length = None, -1 else: left_status, left_length = comp.synteny_left if comp.synteny_right is None: right_status, right_length = None, -1 else: right_status, right_length = comp.synteny_right # We have a component, do we need to do some filling? cols_to_fill = cols_needing_fill[ source_index ] if cols_to_fill > 0: # Adjacent components should have matching status ## assert last_status[ source_index ] is None or last_status[ source_index ] == left_status, \ ## "left status (%s) does not match right status (%s) of last component for %s" \ ## % ( left_status, last_status[ source_index ], source ) if left_status is None: fill_char = guess_fill_char( last_components[source_index], comp ) else: fill_char = get_fill_char( left_status ) tiled_rows[ source_index ] += ( fill_char * cols_to_fill ) cols_needing_fill[ source_index ] = 0 # Okay, filled up to current position, now append the text tiled_rows[ source_index ] += comp.text assert len( tiled_rows[ source_index ] ) == len( tiled_rows[ 0 ] ), \ "length of tiled row should match reference row" last_components[ source_index ] = comp last_status[ source_index ] = right_status else: # No component, we'll have to fill this region when we know # the status cols_needing_fill[ source_index ] += chunk_len last_stop = ref.end # No more components, clean up the ends if last_stop < end: # Need to fill in some reference sequence chunk_len = end - last_stop tiled_rows[0] += ref_2bit[ ref_chr ].get( last_stop, last_stop + chunk_len ) for source in sources[1:]: cols_needing_fill[ source_to_index[ source ] ] += chunk_len # Any final filling that needs to be done? for source in sources[1:]: source_index = source_to_index[ source ] fill_needed = cols_needing_fill[ source_index ] if fill_needed > 0: if last_components[ source_index ] is None: # print >>sys.stderr, "Never saw any components for %s, filling with @" % source fill_char = '@' else: if last_status[ source_index ] is None: fill_char = '*' else: fill_char = get_fill_char( last_status[ source_index ] ) tiled_rows[ source_index ] += fill_char * fill_needed assert len( tiled_rows[ source_index ] ) == len( tiled_rows[ 0 ] ), \ "length of tiled row should match reference row" # Okay, now make up the fake alignment from the tiled rows. tiled_rows = remove_all_gap_columns( tiled_rows ) a = align.Alignment() for i, name in enumerate( sources ): text = "".join( tiled_rows[i] ) size = len( text ) - text.count( "-" ) if i == 0: if ref_src_size is None: ref_src_size = ref_2bit[ ref_chr ].length c = align.Component( ref_src, start, end-start, "+", ref_src_size, text ) else: c = align.Component( name + ".fake", 0, size, "?", size, text ) a.add_component( c ) if strand == '-': a = a.reverse_complement() out.write( a ) main()