#!/usr/bin/env python '''unit testing code for pysam. Execute in the :file:`tests` directory as it requires the Makefile and data files located there. ''' import sys, os, shutil, gzip import pysam import unittest import itertools import subprocess import glob import re IS_PYTHON3 = sys.version_info[0] >= 3 def myzip_open( infile, mode = "r" ): '''open compressed file and decode.''' def _convert(f): for l in f: yield l.decode("ascii") if IS_PYTHON3: if mode == "r": return _convert(gzip.open(infile,"r")) else: return gzip.open( mode ) def loadAndConvert( infile, encode = True ): '''load data from infile and convert all fields to bytes. infile can be either plain or compressed (ending in .gz). ''' data = [] if infile.endswith(".gz"): for line in gzip.open( infile ): line = line.decode("ascii") if line.startswith("#"): continue d = line.strip().split("\t") if encode: data.append( [x.encode("ascii") for x in d ] ) else: data.append( d ) else: with open(infile) as f: for line in f: if line.startswith("#"): continue d = line.strip().split("\t") if encode: data.append( [x.encode("ascii") for x in d ] ) else: data.append( d ) return data def splitToBytes( s ): '''split string and return list of bytes.''' return [x.encode("ascii") for x in s.split("\t")] def checkBinaryEqual( filename1, filename2 ): '''return true if the two files are binary equal.''' if os.path.getsize( filename1 ) != os.path.getsize( filename2 ): return False infile1 = open(filename1, "rb") infile2 = open(filename2, "rb") d1, d2 = infile1.read(), infile2.read() found = False for c1,c2 in zip( d1, d2 ): if c1 != c2: break else: found = True infile1.close() infile2.close() return found class TestIndexing(unittest.TestCase): filename = "example.gtf.gz" filename_idx = "example.gtf.gz.tbi" def setUp( self ): self.tmpfilename = "tmp_%i.gtf.gz" % id(self) shutil.copyfile( self.filename, self.tmpfilename ) def testIndexPreset( self ): '''test indexing via preset.''' pysam.tabix_index( self.tmpfilename, preset = "gff" ) checkBinaryEqual( self.tmpfilename + ".tbi", self.filename_idx ) def tearDown( self ): os.unlink( self.tmpfilename ) os.unlink( self.tmpfilename + ".tbi" ) class TestCompression(unittest.TestCase): filename = "example.gtf.gz" filename_idx = "example.gtf.gz.tbi" preset = "gff" def setUp( self ): self.tmpfilename = "tmp_%i" % id(self) infile = gzip.open( self.filename, "rb") outfile = open( self.tmpfilename, "wb" ) outfile.write( infile.read() ) outfile.close() infile.close() def testCompression( self ): '''see also issue 106''' pysam.tabix_compress( self.tmpfilename, self.tmpfilename + ".gz" ) checkBinaryEqual( self.tmpfilename, self.tmpfilename + ".gz" ) def testIndexPresetUncompressed( self ): '''test indexing via preset.''' pysam.tabix_index( self.tmpfilename, preset = self.preset ) # check if uncompressed file has been removed self.assertEqual( os.path.exists( self.tmpfilename ), False ) checkBinaryEqual( self.tmpfilename + ".gz", self.filename ) checkBinaryEqual( self.tmpfilename + ".gz.tbi", self.filename_idx ) def testIndexPresetCompressed( self ): '''test indexing via preset.''' pysam.tabix_compress( self.tmpfilename, self.tmpfilename + ".gz" ) pysam.tabix_index( self.tmpfilename + ".gz", preset = self.preset ) checkBinaryEqual( self.tmpfilename + ".gz", self.filename ) checkBinaryEqual( self.tmpfilename + ".gz.tbi", self.filename_idx ) def tearDown( self ): try: os.unlink( self.tmpfilename ) os.unlink( self.tmpfilename + ".gz" ) os.unlink( self.tmpfilename + ".gz.tbi" ) except OSError: pass class TestCompressionSam( TestCompression ): filename = "example.sam.gz" filename_index = "example.sam.gz.tbi" preset = "sam" class TestCompressionBed( TestCompression ): filename = "example.bed.gz" filename_index = "example.bed.gz.tbi" preset = "bed" class TestCompressionVCF( TestCompression ): filename = "example.vcf.gz" filename_index = "example.vcf.gz.tbi" preset = "vcf" class TestIteration( unittest.TestCase ): filename = "example.gtf.gz" def setUp( self ): self.tabix = pysam.Tabixfile( self.filename ) lines = [] inf = gzip.open( self.filename, "rb") for line in inf: line = line.decode('ascii') if line.startswith("#"): continue lines.append( line ) inf.close() # creates index of contig, start, end, adds content without newline. self.compare = [ (x[0][0], int(x[0][3]), int(x[0][4]), x[1]) for x in [ (y.split("\t"), y[:-1]) for y in lines ] ] def getSubset( self, contig = None, start = None, end = None): if contig == None: # all lines subset = [ x[3] for x in self.compare ] else: if start != None and end == None: # until end of contig subset = [ x[3] for x in self.compare if x[0] == contig and x[2] > start ] elif start == None and end != None: # from start of contig subset = [ x[3] for x in self.compare if x[0] == contig and x[1] <= end ] elif start == None and end == None: subset = [ x[3] for x in self.compare if x[0] == contig ] else: # all within interval subset = [ x[3] for x in self.compare if x[0] == contig and \ min( x[2], end) - max(x[1], start) > 0 ] return subset def checkPairwise( self, result, ref ): '''check pairwise results. ''' result.sort() ref.sort() a = set(result) b = set(ref) self.assertEqual( len(result), len(ref), "unexpected number of results: result=%i, expected ref=%i, differences are %s: %s" \ % (len(result), len(ref), a.difference(b), b.difference(a) )) for x, d in enumerate( list(zip( result, ref ))): self.assertEqual( d[0], d[1], "unexpected results in pair %i:\n'%s', expected\n'%s'" % \ (x, d[0], d[1]) ) def testAll( self ): result = list(self.tabix.fetch()) ref = self.getSubset( ) self.checkPairwise( result, ref ) def testPerContig( self ): for contig in ("chr1", "chr2", "chr1", "chr2" ): result = list(self.tabix.fetch( contig )) ref = self.getSubset( contig ) self.checkPairwise( result, ref ) def testPerContigToEnd( self ): end = None for contig in ("chr1", "chr2", "chr1", "chr2" ): for start in range( 0, 200000, 1000): result = list(self.tabix.fetch( contig, start, end )) ref = self.getSubset( contig, start, end ) self.checkPairwise( result, ref ) def testPerContigFromStart( self ): start = None for contig in ("chr1", "chr2", "chr1", "chr2" ): for end in range( 0, 200000, 1000): result = list(self.tabix.fetch( contig, start, end )) ref = self.getSubset( contig, start, end ) self.checkPairwise( result, ref ) def testPerContig( self ): start, end = None, None for contig in ("chr1", "chr2", "chr1", "chr2" ): result = list(self.tabix.fetch( contig, start, end )) ref = self.getSubset( contig, start, end ) self.checkPairwise( result, ref ) def testPerInterval( self ): start, end = None, None for contig in ("chr1", "chr2", "chr1", "chr2" ): for start in range( 0, 200000, 2000): for end in range( start, start + 2000, 500): result = list(self.tabix.fetch( contig, start, end )) ref = self.getSubset( contig, start, end ) self.checkPairwise( result, ref ) def testInvalidIntervals( self ): # invalid intervals (start > end) self.assertRaises( ValueError, self.tabix.fetch, "chr1", 0, -10) self.assertRaises( ValueError, self.tabix.fetch, "chr1", 200, 0) # out of range intervals self.assertRaises( IndexError, self.tabix.fetch, "chr1", -10, 200) self.assertRaises( IndexError, self.tabix.fetch, "chr1", -10, -20) # unknown chromosome self.assertRaises( KeyError, self.tabix.fetch, "chrUn" ) # out of range access # to be implemented # self.assertRaises( IndexError, self.tabix.fetch, "chr1", 1000000, 2000000 ) # raise no error for invalid intervals self.tabix.fetch( "chr1", 100,100) def testGetContigs( self ): self.assertEqual( sorted(self.tabix.contigs), [b"chr1", b"chr2"] ) # check that contigs is read-only self.assertRaises( AttributeError, setattr, self.tabix, "contigs", ["chr1", "chr2"] ) def testHeader( self ): ref = [] inf = gzip.open( self.filename ) for x in inf: x = x.decode("ascii") if not x.startswith("#"): break ref.append( x[:-1].encode('ascii') ) inf.close() header = list( self.tabix.header ) self.assertEqual( ref, header ) def testReopening( self ): '''test repeated opening of the same file.''' def func1(): # opens any tabix file inf = pysam.Tabixfile(self.filename) return for i in range(10000): func1() class TestParser( unittest.TestCase ): filename = "example.gtf.gz" def setUp( self ): self.tabix = pysam.Tabixfile( self.filename ) self.compare = loadAndConvert( self.filename ) def testRead( self ): for x, r in enumerate(self.tabix.fetch( parser = pysam.asTuple() )): self.assertEqual( self.compare[x], list(r) ) self.assertEqual( len(self.compare[x]), len(r) ) # test indexing for c in range(0,len(r)): self.assertEqual( self.compare[x][c], r[c] ) # test slicing access for c in range(0, len(r)-1): for cc in range(c+1, len(r)): self.assertEqual( self.compare[x][c:cc], r[c:cc] ) def testWrite( self ): for x, r in enumerate(self.tabix.fetch( parser = pysam.asTuple() )): self.assertEqual( self.compare[x], list(r) ) c = list(r) for y in range(len(r)): r[y] = "test_%05i" % y c[y] = "test_%05i" % y self.assertEqual( [x.encode("ascii") for x in c], list(r) ) self.assertEqual( "\t".join( c ), str(r) ) # check second assignment for y in range(len(r)): r[y] = "test_%05i" % y self.assertEqual( [x.encode("ascii") for x in c], list(r) ) self.assertEqual( "\t".join( c ), str(r) ) def testUnset( self ): for x, r in enumerate(self.tabix.fetch( parser = pysam.asTuple() )): self.assertEqual( self.compare[x], list(r) ) c = list(r) e = [ x.decode('ascii') for x in r ] for y in range(len(r)): r[y] = None c[y] = None e[y] = "" self.assertEqual( c, list(r) ) self.assertEqual( "\t".join(e), str(r) ) def testIteratorCompressed( self ): '''test iteration from compressed file.''' with gzip.open( self.filename ) as infile: for x, r in enumerate(pysam.tabix_iterator( infile, pysam.asTuple() )): self.assertEqual( self.compare[x], list(r) ) self.assertEqual( len(self.compare[x]), len(r) ) # test indexing for c in range(0,len(r)): self.assertEqual( self.compare[x][c], r[c] ) # test slicing access for c in range(0, len(r)-1): for cc in range(c+1, len(r)): self.assertEqual( self.compare[x][c:cc], r[c:cc] ) def testIteratorUncompressed( self ): '''test iteration from uncompressed file.''' tmpfilename = 'tmp_testIteratorUncompressed' infile = gzip.open( self.filename, "rb") outfile = open( tmpfilename, "wb" ) outfile.write( infile.read() ) outfile.close() infile.close() with open( tmpfilename ) as infile: for x, r in enumerate(pysam.tabix_iterator( infile, pysam.asTuple() )): self.assertEqual( self.compare[x], list(r) ) self.assertEqual( len(self.compare[x]), len(r) ) # test indexing for c in range(0,len(r)): self.assertEqual( self.compare[x][c], r[c] ) # test slicing access for c in range(0, len(r)-1): for cc in range(c+1, len(r)): self.assertEqual( self.compare[x][c:cc], r[c:cc] ) os.unlink( tmpfilename ) class TestIterators( unittest.TestCase ): filename = "example.gtf.gz" iterator = pysam.tabix_generic_iterator parser = pysam.asTuple is_compressed = False def setUp( self ): self.tabix = pysam.Tabixfile( self.filename ) self.compare = loadAndConvert( self.filename ) self.tmpfilename_uncompressed = 'tmp_TestIterators' infile = gzip.open( self.filename, "rb") outfile = open( self.tmpfilename_uncompressed, "wb" ) outfile.write( infile.read() ) outfile.close() infile.close() def open( self ): if self.is_compressed: infile = gzip.open( self.filename ) else: infile = open( self.tmpfilename_uncompressed ) return infile def testIteration( self ): infile = self.open() for x, r in enumerate(self.iterator( infile, self.parser())): self.assertEqual( self.compare[x], list(r) ) self.assertEqual( len(self.compare[x]), len(r) ) # test indexing for c in range(0,len(r)): self.assertEqual( self.compare[x][c], r[c] ) # test slicing access for c in range(0, len(r)-1): for cc in range(c+1, len(r)): self.assertEqual( self.compare[x][c:cc], r[c:cc] ) def testClosedFile( self ): '''test for error when iterating from closed file.''' infile = self.open() infile.close() # iterating from a closed file should raise a value error self.assertRaises( ValueError, self.iterator, infile, self.parser()) def testClosedFileIteration( self ): '''test for error when iterating from file that has been closed''' infile = self.open() i = self.iterator( infile, self.parser()) x = i.next() infile.close() # Not implemented #self.assertRaises( ValueError, i.next ) def tearUp( self ): os.unlink( self.tmpfilename_uncompressed ) class TestIteratorsGenericCompressed( TestIterators ): is_compressed = True class TestIteratorsFileCompressed( TestIterators ): iterator = pysam.tabix_file_iterator is_compressed = True class TestIteratorsFileUncompressed( TestIterators ): iterator = pysam.tabix_file_iterator is_compressed = False class TestGTF( TestParser ): def testRead( self ): for x, r in enumerate(self.tabix.fetch( parser = pysam.asGTF() )): c = self.compare[x] self.assertEqual( len(c), len(r) ) self.assertEqual( list(c), list(r) ) self.assertEqual( c, splitToBytes( str(r) ) ) self.assertTrue( r.gene_id.startswith("ENSG") ) if r.feature != b'gene': self.assertTrue( r.transcript_id.startswith("ENST") ) self.assertEqual( c[0], r.contig ) class TestBed( unittest.TestCase ): filename = "example.bed.gz" def setUp( self ): self.tabix = pysam.Tabixfile( self.filename) self.compare = loadAndConvert( self.filename ) def testRead( self ): for x, r in enumerate(self.tabix.fetch( parser = pysam.asBed() )): c = self.compare[x] self.assertEqual( len(c), len(r) ) self.assertEqual( c, splitToBytes( str(r) ) ) self.assertEqual( list(c), list(r) ) self.assertEqual( c[0], r.contig) self.assertEqual( int(c[1]), r.start) self.assertEqual( int(c[2]), r.end) def testWrite( self ): for x, r in enumerate(self.tabix.fetch( parser = pysam.asBed() )): c = self.compare[x] self.assertEqual( c, splitToBytes(str(r) )) self.assertEqual( list(c), list(r) ) r.contig = "test" self.assertEqual( b"test", r.contig) self.assertEqual( b"test", r[0]) r.start += 1 self.assertEqual( int(c[1]) + 1, r.start ) self.assertEqual( str(int(c[1]) + 1), r[1].decode("ascii" )) r.end += 1 self.assertEqual( int(c[2]) + 1, r.end ) self.assertEqual( str(int(c[2]) + 1), r[2].decode("ascii") ) class TestVCF( unittest.TestCase ): filename = "example.vcf40" def setUp( self ): self.tmpfilename = "tmp_%s.vcf" % id(self) shutil.copyfile( self.filename, self.tmpfilename ) pysam.tabix_index( self.tmpfilename, preset = "vcf" ) def tearDown( self ): os.unlink( self.tmpfilename + ".gz" ) if os.path.exists( self.tmpfilename + ".gz.tbi" ): os.unlink( self.tmpfilename + ".gz.tbi" ) class TestVCFFromTabix( TestVCF ): columns = ("contig", "pos", "id", "ref", "alt", "qual", "filter", "info", "format" ) def setUp( self ): TestVCF.setUp( self ) self.tabix = pysam.Tabixfile( self.tmpfilename + ".gz" ) self.compare = loadAndConvert( self.filename ) def testRead( self ): ncolumns = len(self.columns) for x, r in enumerate(self.tabix.fetch( parser = pysam.asVCF() )): c = self.compare[x] for y, field in enumerate( self.columns ): # it is ok to have a missing format column if y == 8 and y == len(c): continue if field == "pos": self.assertEqual( int(c[y]) - 1, getattr( r, field ) ) self.assertEqual( int(c[y]) - 1, r.pos ) else: self.assertEqual( c[y], getattr( r, field ), "mismatch in field %s: %s != %s" %\ ( field,c[y], getattr( r, field ) ) ) if len(c) == 8: self.assertEqual( 0, len(r) ) else: self.assertEqual( len(c), len( r ) + ncolumns ) for y in range(len(c) - ncolumns): self.assertEqual( c[ncolumns+y], r[y] ) def testWrite( self ): ncolumns = len(self.columns) for x, r in enumerate(self.tabix.fetch( parser = pysam.asVCF() )): c = self.compare[x] # check unmodified string cmp_string = str(r) ref_string = "\t".join( [x.decode() for x in c] ) self.assertEqual( ref_string, cmp_string ) # set fields and compare field-wise for y, field in enumerate( self.columns ): # it is ok to have a missing format column if y == 8 and y == len(c): continue if field == "pos": rpos = getattr( r, field ) self.assertEqual( int(c[y]) - 1, rpos ) self.assertEqual( int(c[y]) - 1, r.pos ) # increment pos by 1 setattr( r, field, rpos + 1 ) self.assertEqual( getattr( r, field ), rpos + 1 ) c[y] = str(int(c[y]) + 1 ) else: setattr( r, field, "test_%i" % y) c[y] = ("test_%i" % y).encode('ascii') self.assertEqual( c[y], getattr( r, field ), "mismatch in field %s: %s != %s" %\ ( field,c[y], getattr( r, field ) ) ) if len(c) == 8: self.assertEqual( 0, len(r) ) else: self.assertEqual( len(c), len( r ) + ncolumns ) for y in range(len(c) - ncolumns): c[ncolumns+y] = ("test_%i" % y).encode('ascii') r[y] = ("test_%i" % y).encode('ascii') self.assertEqual( c[ncolumns+y], r[y] ) class TestVCFFromVCF( TestVCF ): columns = ("chrom", "pos", "id", "ref", "alt", "qual", "filter", "info", "format" ) # tests failing while parsing fail_on_parsing = ( (5, "Flag fields should not have a value"), (9, "aouao" ), (13, "aoeu" ), (18, "Error BAD_NUMBER_OF_PARAMETERS" ), (24, "Error HEADING_NOT_SEPARATED_BY_TABS" ) ) # tests failing on opening fail_on_opening = ( (24, "Error HEADING_NOT_SEPARATED_BY_TABS" ), ) def setUp( self ): TestVCF.setUp( self ) self.vcf = pysam.VCF() self.compare = loadAndConvert( self.filename, encode = False ) def testParsing( self ): # self.vcf.connect( self.tmpfilename + ".gz" ) ncolumns = len(self.columns) fn = os.path.basename( self.filename ) with open(self.filename) as f: for x, msg in self.fail_on_opening: if "%i.vcf" % x == fn: self.assertRaises( ValueError, self.vcf.parse, f ) return else: iter = self.vcf.parse(f) for x, msg in self.fail_on_parsing: if "%i.vcf" % x == fn: self.assertRaises( ValueError, list, iter ) break # python 2.7 # self.assertRaisesRegexp( ValueError, re.compile(msg), self.vcf.parse, f ) else: # do the actual parsing for x, r in enumerate(iter): c = self.compare[x] for y, field in enumerate( self.columns ): # it is ok to have a missing format column if y == 8 and y == len(c): continue val = r[field] if field == "pos": self.assertEqual( int(c[y]) - 1, val ) elif field == "alt": if c[y] == ".": # convert . to empty list self.assertEqual( [], val, "mismatch in field %s: expected %s, got %s" %\ ( field,c[y], val ) ) else: # convert to list self.assertEqual( c[y].split(","), val, "mismatch in field %s: expected %s, got %s" %\ ( field,c[y], val ) ) elif field == "filter": if c[y] == "PASS" or c[y] == ".": # convert PASS to empty list self.assertEqual( [], val, "mismatch in field %s: expected %s, got %s" %\ ( field,c[y], val ) ) else: # convert to list self.assertEqual( c[y].split(";"), val, "mismatch in field %s: expected %s, got %s" %\ ( field,c[y], val ) ) elif field == "info": # tests for info field not implemented pass elif field == "qual" and c[y] == ".": self.assertEqual( -1, val, "mismatch in field %s: expected %s, got %s" %\ ( field,c[y], val ) ) elif field == "format": # format field converted to list self.assertEqual( c[y].split(":"), val, "mismatch in field %s: expected %s, got %s" %\ ( field,c[y], val ) ) elif type(val) in (int, float): if c[y] == ".": self.assertEqual( None, val, "mismatch in field %s: expected %s, got %s" %\ ( field,c[y], val ) ) else: self.assertEqual( float( c[y]), float(val), "mismatch in field %s: expected %s, got %s" %\ ( field,c[y], val ) ) else: self.assertEqual( c[y], val, "mismatch in field %s: expected %s, got %s" %\ ( field, c[y], val ) ) ############################################################################ # create a test class for each example vcf file. # Two samples are created - # 1. Testing pysam/tabix access # 2. Testing the VCF class vcf_files = glob.glob( "vcf-examples/*.vcf" ) for vcf_file in vcf_files: n = "VCFFromTabixTest_%s" % os.path.basename( vcf_file[:-4] ) globals()[n] = type( n, (TestVCFFromTabix,), dict( filename=vcf_file,) ) n = "VCFFromVCFTest_%s" % os.path.basename( vcf_file[:-4] ) globals()[n] = type( n, (TestVCFFromVCF,), dict( filename=vcf_file,) ) ############################################################################ class TestRemoteFileHTTP( unittest.TestCase): url = "http://genserv.anat.ox.ac.uk/downloads/pysam/test/example.gtf.gz" region = "chr1:1-1000" local = "example.gtf.gz" def testFetchAll( self ): remote_file = pysam.Tabixfile(self.url, "r") remote_result = list(remote_file.fetch()) local_file = pysam.Tabixfile(self.local, "r") local_result = list(local_file.fetch()) self.assertEqual( len(remote_result), len(local_result) ) for x, y in zip(remote_result, local_result): self.assertEqual( x, y ) if __name__ == "__main__": unittest.main()