Mercurial > repos > xuebing > sharplabtool
view tools/annotation_profiler/annotation_profiler_for_interval.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 #Dan Blankenberg #For a set of intervals, this tool returns the same set of intervals #with 2 additional fields: the name of a Table/Feature and the number of #bases covered. The original intervals are repeated for each Table/Feature. import sys, struct, optparse, os, random from galaxy import eggs import pkg_resources; pkg_resources.require( "bx-python" ) import bx.intervals.io import bx.bitset try: import psyco psyco.full() except: pass assert sys.version_info[:2] >= ( 2, 4 ) class CachedRangesInFile: DEFAULT_STRUCT_FORMAT = '<I' def __init__( self, filename, profiler_info ): self.file_size = os.stat( filename ).st_size self.file = open( filename, 'rb' ) self.filename = filename self.fmt = profiler_info.get( 'profiler_struct_format', self.DEFAULT_STRUCT_FORMAT ) self.fmt_size = int( profiler_info.get( 'profiler_struct_size', struct.calcsize( self.fmt ) ) ) self.length = int( self.file_size / self.fmt_size / 2 ) self._cached_ranges = [ None for i in xrange( self.length ) ] def __getitem__( self, i ): if self._cached_ranges[i] is not None: return self._cached_ranges[i] if i < 0: i = self.length + i offset = i * self.fmt_size * 2 self.file.seek( offset ) try: start = struct.unpack( self.fmt, self.file.read( self.fmt_size ) )[0] end = struct.unpack( self.fmt, self.file.read( self.fmt_size ) )[0] except Exception, e: raise IndexError, e self._cached_ranges[i] = ( start, end ) return start, end def __len__( self ): return self.length class RegionCoverage: def __init__( self, filename_base, profiler_info ): try: self._coverage = CachedRangesInFile( "%s.covered" % filename_base, profiler_info ) except Exception, e: #print "Error loading coverage file %s: %s" % ( "%s.covered" % filename_base, e ) self._coverage = [] try: self._total_coverage = int( open( "%s.total_coverage" % filename_base ).read() ) except Exception, e: #print "Error loading total coverage file %s: %s" % ( "%s.total_coverage" % filename_base, e ) self._total_coverage = 0 def get_start_index( self, start ): #binary search: returns index of range closest to start if start > self._coverage[-1][1]: return len( self._coverage ) - 1 i = 0 j = len( self._coverage) - 1 while i < j: k = ( i + j ) / 2 if start <= self._coverage[k][1]: j = k else: i = k + 1 return i def get_coverage( self, start, end ): return self.get_coverage_regions_overlap( start, end )[0] def get_coverage_regions_overlap( self, start, end ): return self.get_coverage_regions_index_overlap( start, end )[0:2] def get_coverage_regions_index_overlap( self, start, end ): if len( self._coverage ) < 1 or start > self._coverage[-1][1] or end < self._coverage[0][0]: return 0, 0, 0 if self._total_coverage and start <= self._coverage[0][0] and end >= self._coverage[-1][1]: return self._total_coverage, len( self._coverage ), 0 coverage = 0 region_count = 0 start_index = self.get_start_index( start ) for i in xrange( start_index, len( self._coverage ) ): c_start, c_end = self._coverage[i] if c_start > end: break if c_start <= end and c_end >= start: coverage += min( end, c_end ) - max( start, c_start ) region_count += 1 return coverage, region_count, start_index class CachedCoverageReader: def __init__( self, base_file_path, buffer = 10, table_names = None, profiler_info = None ): self._base_file_path = base_file_path self._buffer = buffer #number of chromosomes to keep in memory at a time self._coverage = {} if table_names is None: table_names = [ table_dir for table_dir in os.listdir( self._base_file_path ) if os.path.isdir( os.path.join( self._base_file_path, table_dir ) ) ] for tablename in table_names: self._coverage[tablename] = {} if profiler_info is None: profiler_info = {} self._profiler_info = profiler_info def iter_table_coverage_by_region( self, chrom, start, end ): for tablename, coverage, regions in self.iter_table_coverage_regions_by_region( chrom, start, end ): yield tablename, coverage def iter_table_coverage_regions_by_region( self, chrom, start, end ): for tablename, coverage, regions, index in self.iter_table_coverage_regions_index_by_region( chrom, start, end ): yield tablename, coverage, regions def iter_table_coverage_regions_index_by_region( self, chrom, start, end ): for tablename, chromosomes in self._coverage.iteritems(): if chrom not in chromosomes: if len( chromosomes ) >= self._buffer: #randomly remove one chromosome from this table del chromosomes[ chromosomes.keys().pop( random.randint( 0, self._buffer - 1 ) ) ] chromosomes[chrom] = RegionCoverage( os.path.join ( self._base_file_path, tablename, chrom ), self._profiler_info ) coverage, regions, index = chromosomes[chrom].get_coverage_regions_index_overlap( start, end ) yield tablename, coverage, regions, index class TableCoverageSummary: def __init__( self, coverage_reader, chrom_lengths ): self.coverage_reader = coverage_reader self.chrom_lengths = chrom_lengths self.chromosome_coverage = {} #dict of bitset by chromosome holding user's collapsed input intervals self.total_interval_size = 0 #total size of user's input intervals self.total_interval_count = 0 #total number of user's input intervals self.table_coverage = {} #dict of total coverage by user's input intervals by table self.table_chromosome_size = {} #dict of dict of table:chrom containing total coverage of table for a chrom self.table_chromosome_count = {} #dict of dict of table:chrom containing total number of coverage ranges of table for a chrom self.table_regions_overlaped_count = {} #total number of table regions overlaping user's input intervals (non unique) self.interval_table_overlap_count = {} #total number of user input intervals which overlap table self.region_size_errors = {} #dictionary of lists of invalid ranges by chromosome def add_region( self, chrom, start, end ): chrom_length = self.chrom_lengths.get( chrom ) region_start = min( start, chrom_length ) region_end = min( end, chrom_length ) region_length = region_end - region_start if region_length < 1 or region_start != start or region_end != end: if chrom not in self.region_size_errors: self.region_size_errors[chrom] = [] self.region_size_errors[chrom].append( ( start, end ) ) if region_length < 1: return self.total_interval_size += region_length self.total_interval_count += 1 if chrom not in self.chromosome_coverage: self.chromosome_coverage[chrom] = bx.bitset.BitSet( chrom_length ) self.chromosome_coverage[chrom].set_range( region_start, region_length ) for table_name, coverage, regions in self.coverage_reader.iter_table_coverage_regions_by_region( chrom, region_start, region_end ): if table_name not in self.table_coverage: self.table_coverage[table_name] = 0 self.table_chromosome_size[table_name] = {} self.table_regions_overlaped_count[table_name] = 0 self.interval_table_overlap_count[table_name] = 0 self.table_chromosome_count[table_name] = {} if chrom not in self.table_chromosome_size[table_name]: self.table_chromosome_size[table_name][chrom] = self.coverage_reader._coverage[table_name][chrom]._total_coverage self.table_chromosome_count[table_name][chrom] = len( self.coverage_reader._coverage[table_name][chrom]._coverage ) self.table_coverage[table_name] += coverage if coverage: self.interval_table_overlap_count[table_name] += 1 self.table_regions_overlaped_count[table_name] += regions def iter_table_coverage( self ): def get_nr_coverage(): #returns non-redundant coverage, where user's input intervals have been collapse to resolve overlaps table_coverage = {} #dictionary of tables containing number of table bases overlaped by nr intervals interval_table_overlap_count = {} #dictionary of tables containing number of nr intervals overlaping table table_regions_overlap_count = {} #dictionary of tables containing number of regions overlaped (unique) interval_count = 0 #total number of nr intervals interval_size = 0 #holds total size of nr intervals region_start_end = {} #holds absolute start,end for each user input chromosome for chrom, chromosome_bitset in self.chromosome_coverage.iteritems(): #loop through user's collapsed input intervals end = 0 last_end_index = {} interval_size += chromosome_bitset.count_range() while True: if end >= chromosome_bitset.size: break start = chromosome_bitset.next_set( end ) if start >= chromosome_bitset.size: break end = chromosome_bitset.next_clear( start ) interval_count += 1 if chrom not in region_start_end: region_start_end[chrom] = [start, end] else: region_start_end[chrom][1] = end for table_name, coverage, region_count, start_index in self.coverage_reader.iter_table_coverage_regions_index_by_region( chrom, start, end ): if table_name not in table_coverage: table_coverage[table_name] = 0 interval_table_overlap_count[table_name] = 0 table_regions_overlap_count[table_name] = 0 table_coverage[table_name] += coverage if coverage: interval_table_overlap_count[table_name] += 1 table_regions_overlap_count[table_name] += region_count if table_name in last_end_index and last_end_index[table_name] == start_index: table_regions_overlap_count[table_name] -= 1 last_end_index[table_name] = start_index + region_count - 1 table_region_coverage = {} #total coverage for tables by bounding nr interval region table_region_count = {} #total number for tables by bounding nr interval region for chrom, start_end in region_start_end.items(): for table_name, coverage, region_count in self.coverage_reader.iter_table_coverage_regions_by_region( chrom, start_end[0], start_end[1] ): if table_name not in table_region_coverage: table_region_coverage[table_name] = 0 table_region_count[table_name] = 0 table_region_coverage[table_name] += coverage table_region_count[table_name] += region_count return table_region_coverage, table_region_count, interval_count, interval_size, table_coverage, table_regions_overlap_count, interval_table_overlap_count table_region_coverage, table_region_count, nr_interval_count, nr_interval_size, nr_table_coverage, nr_table_regions_overlap_count, nr_interval_table_overlap_count = get_nr_coverage() for table_name in self.table_coverage: #TODO: determine a type of statistic, then calculate and report here yield table_name, sum( self.table_chromosome_size.get( table_name, {} ).values() ), sum( self.table_chromosome_count.get( table_name, {} ).values() ), table_region_coverage.get( table_name, 0 ), table_region_count.get( table_name, 0 ), self.total_interval_count, self.total_interval_size, self.table_coverage[table_name], self.table_regions_overlaped_count.get( table_name, 0), self.interval_table_overlap_count.get( table_name, 0 ), nr_interval_count, nr_interval_size, nr_table_coverage[table_name], nr_table_regions_overlap_count.get( table_name, 0 ), nr_interval_table_overlap_count.get( table_name, 0 ) def profile_per_interval( interval_filename, chrom_col, start_col, end_col, out_filename, keep_empty, coverage_reader ): out = open( out_filename, 'wb' ) for region in bx.intervals.io.NiceReaderWrapper( open( interval_filename, 'rb' ), chrom_col = chrom_col, start_col = start_col, end_col = end_col, fix_strand = True, return_header = False, return_comments = False ): for table_name, coverage, region_count in coverage_reader.iter_table_coverage_regions_by_region( region.chrom, region.start, region.end ): if keep_empty or coverage: #only output regions that have atleast 1 base covered unless empty are requested out.write( "%s\t%s\t%s\t%s\n" % ( "\t".join( region.fields ), table_name, coverage, region_count ) ) out.close() def profile_summary( interval_filename, chrom_col, start_col, end_col, out_filename, keep_empty, coverage_reader, chrom_lengths ): out = open( out_filename, 'wb' ) table_coverage_summary = TableCoverageSummary( coverage_reader, chrom_lengths ) for region in bx.intervals.io.NiceReaderWrapper( open( interval_filename, 'rb' ), chrom_col = chrom_col, start_col = start_col, end_col = end_col, fix_strand = True, return_header = False, return_comments = False ): table_coverage_summary.add_region( region.chrom, region.start, region.end ) out.write( "#tableName\ttableChromosomeCoverage\ttableChromosomeCount\ttableRegionCoverage\ttableRegionCount\tallIntervalCount\tallIntervalSize\tallCoverage\tallTableRegionsOverlaped\tallIntervalsOverlapingTable\tnrIntervalCount\tnrIntervalSize\tnrCoverage\tnrTableRegionsOverlaped\tnrIntervalsOverlapingTable\n" ) for table_name, table_chromosome_size, table_chromosome_count, table_region_coverage, table_region_count, total_interval_count, total_interval_size, total_coverage, table_regions_overlaped_count, interval_region_overlap_count, nr_interval_count, nr_interval_size, nr_coverage, nr_table_regions_overlaped_count, nr_interval_table_overlap_count in table_coverage_summary.iter_table_coverage(): if keep_empty or total_coverage: #only output tables that have atleast 1 base covered unless empty are requested out.write( "%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\n" % ( table_name, table_chromosome_size, table_chromosome_count, table_region_coverage, table_region_count, total_interval_count, total_interval_size, total_coverage, table_regions_overlaped_count, interval_region_overlap_count, nr_interval_count, nr_interval_size, nr_coverage, nr_table_regions_overlaped_count, nr_interval_table_overlap_count ) ) out.close() #report chrom size errors as needed: if table_coverage_summary.region_size_errors: print "Regions provided extended beyond known chromosome lengths, and have been truncated as necessary, for the following intervals:" for chrom, regions in table_coverage_summary.region_size_errors.items(): if len( regions ) > 3: extra_region_info = ", ... " else: extra_region_info = "" print "%s has max length of %s, exceeded by %s%s." % ( chrom, chrom_lengths.get( chrom ), ", ".join( map( str, regions[:3] ) ), extra_region_info ) class ChromosomeLengths: def __init__( self, profiler_info ): self.chroms = {} self.default_bitset_size = int( profiler_info.get( 'bitset_size', bx.bitset.MAX ) ) chroms = profiler_info.get( 'chromosomes', None ) if chroms: for chrom in chroms.split( ',' ): for fields in chrom.rsplit( '=', 1 ): if len( fields ) == 2: self.chroms[ fields[0] ] = int( fields[1] ) else: self.chroms[ fields[0] ] = self.default_bitset_size def get( self, name ): return self.chroms.get( name, self.default_bitset_size ) def parse_profiler_info( filename ): profiler_info = {} try: for line in open( filename ): fields = line.rstrip( '\n\r' ).split( '\t', 1 ) if len( fields ) == 2: if fields[0] in profiler_info: if not isinstance( profiler_info[ fields[0] ], list ): profiler_info[ fields[0] ] = [ profiler_info[ fields[0] ] ] profiler_info[ fields[0] ].append( fields[1] ) else: profiler_info[ fields[0] ] = fields[1] except: pass #likely missing file return profiler_info def __main__(): parser = optparse.OptionParser() parser.add_option( '-k','--keep_empty', action="store_true", dest='keep_empty', default=False, help='Keep tables with 0 coverage' ) parser.add_option( '-b','--buffer', dest='buffer', type='int',default=10, help='Number of Chromosomes to keep buffered' ) parser.add_option( '-c','--chrom_col', dest='chrom_col', type='int',default=1, help='Chromosome column' ) parser.add_option( '-s','--start_col', dest='start_col', type='int',default=2, help='Start Column' ) parser.add_option( '-e','--end_col', dest='end_col', type='int',default=3, help='End Column' ) parser.add_option( '-p','--path', dest='path', type='str',default='/galaxy/data/annotation_profiler/hg18', help='Path to profiled data for this organism' ) parser.add_option( '-t','--table_names', dest='table_names', type='str',default='None', help='Table names requested' ) parser.add_option( '-i','--input', dest='interval_filename', type='str', help='Input Interval File' ) parser.add_option( '-o','--output', dest='out_filename', type='str', help='Input Interval File' ) parser.add_option( '-S','--summary', action="store_true", dest='summary', default=False, help='Display Summary Results' ) options, args = parser.parse_args() assert os.path.isdir( options.path ), IOError( "Configuration error: Table directory is missing (%s)" % options.path ) #get profiler_info profiler_info = parse_profiler_info( os.path.join( options.path, 'profiler_info.txt' ) ) table_names = options.table_names.split( "," ) if table_names == ['None']: table_names = None coverage_reader = CachedCoverageReader( options.path, buffer = options.buffer, table_names = table_names, profiler_info = profiler_info ) if options.summary: profile_summary( options.interval_filename, options.chrom_col - 1, options.start_col - 1, options.end_col -1, options.out_filename, options.keep_empty, coverage_reader, ChromosomeLengths( profiler_info ) ) else: profile_per_interval( options.interval_filename, options.chrom_col - 1, options.start_col - 1, options.end_col -1, options.out_filename, options.keep_empty, coverage_reader ) #print out data version info print 'Data version (%s:%s:%s)' % ( profiler_info.get( 'dbkey', 'unknown' ), profiler_info.get( 'profiler_hash', 'unknown' ), profiler_info.get( 'dump_time', 'unknown' ) ) if __name__ == "__main__": __main__()