view commons/core/parsing/BamParser.py @ 58:5f5c9b74c2dd

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author m-zytnicki
date Fri, 07 Feb 2014 11:53:36 -0500
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#
# Copyright INRA-URGI 2009-2012
# 
# This software is governed by the CeCILL license under French law and
# abiding by the rules of distribution of free software. You can use,
# modify and/ or redistribute the software under the terms of the CeCILL
# license as circulated by CEA, CNRS and INRIA at the following URL
# "http://www.cecill.info".
# 
# As a counterpart to the access to the source code and rights to copy,
# modify and redistribute granted by the license, users are provided only
# with a limited warranty and the software's author, the holder of the
# economic rights, and the successive licensors have only limited
# liability.
# 
# In this respect, the user's attention is drawn to the risks associated
# with loading, using, modifying and/or developing or reproducing the
# software by the user in light of its specific status of free software,
# that may mean that it is complicated to manipulate, and that also
# therefore means that it is reserved for developers and experienced
# professionals having in-depth computer knowledge. Users are therefore
# encouraged to load and test the software's suitability as regards their
# requirements in conditions enabling the security of their systems and/or
# data to be ensured and, more generally, to use and operate it in the
# same conditions as regards security.
# 
# The fact that you are presently reading this means that you have had
# knowledge of the CeCILL license and that you accept its terms.
#
import re, sys, gzip, struct
from commons.core.parsing.MapperParser import MapperParser
from SMART.Java.Python.structure.Mapping import Mapping
from SMART.Java.Python.structure.SubMapping import SubMapping
from SMART.Java.Python.structure.Interval import Interval


BAM_DNA_LOOKUP = "=ACMGRSVTWYHKDBN"

BAM_CIGAR_LOOKUP = "MIDNSHP=X"
BAM_CIGAR_SHIFT = 4
BAM_CIGAR_MASK = ((1 << BAM_CIGAR_SHIFT) - 1)



def pack_int32(x):
	return struct.pack('<i', x)

def pack_uint32(x):
	return struct.pack('<I', x)

def unpack_int8(x):
	return struct.unpack('<b', x)[0]

def unpack_int16(x):
	return struct.unpack('<h', x)[0]

def unpack_int32(x):
	return struct.unpack('<i', x)[0]

def unpack_int64(x):
	return struct.unpack('<q', x)[0]

def unpack_uint8(x):
	return struct.unpack('<B', x)[0]

def unpack_uint16(x):
	return struct.unpack('<H', x)[0]

def unpack_uint32(x):
	return struct.unpack('<I', x)[0]

def unpack_uint64(x):
	return struct.unpack('<Q', x)[0]

def unpack_float(x):
	return struct.unpack('<f', x)[0]

def unpack_string(x):
	length = len(x)
	format_string = "<{0}s".format(length)
	string = struct.unpack(format_string, x)[0]
	if string[-1] == '\0':
		return string[:-1]
	else:
		return string


BAM_TAG_CODE = {"c": unpack_int8, \
				"C": unpack_uint8, \
				"s": unpack_int16, \
				"S": unpack_uint16, \
				"i": unpack_int32, \
				"I": unpack_uint32, \
				"f": unpack_float, \
				#"A": unpack_int8, \
				"A": lambda x: x, \
				"Z": unpack_int8, \
				"H": unpack_int8}

BAM_TAG_VALUE = {"c": int, \
				 "C": int, \
				 "s": int, \
				 "S": int, \
				 "i": int, \
				 "I": int, \
				 "f": float, \
				 "A": lambda x: x}

BAM_TAG_SIZE = {"c": 1, \
				"C": 1, \
				"s": 2, \
				"S": 2, \
				"i": 4, \
				"I": 4, \
				"f": 4, \
				"A": 1}


class CigarOp(object):
	def __init__(self, data):
		self._length = data >> BAM_CIGAR_SHIFT
		self._type   = BAM_CIGAR_LOOKUP[ data & BAM_CIGAR_MASK ]


class CigarData(object):
	def __init__(self, data, num_ops):
		self._ops = []
		for i in range(num_ops):
			cigar_data = unpack_uint32(data[i*4: (i+1)*4])
			self._ops.append(CigarOp(cigar_data))		

	def getCigarData(self):
		return self._ops
	
	def __str__(self):
		return "".join(["%d%s" % (op._length, op._type) for op in self._ops])


class TagsData(object):
	def __init__(self):
		self._tags = {}

	def add(self, tag):
		self._tags[tag._tag] = tag

	def getTags(self):
		return self._tags

	def __str__(self):
		return " ".join([self._tags[tag] for tag in sorted(self._tags.keys())])
		

class TagData(object):
	def __init__(self, tag, type, value):
		self._tag = tag
		self._type = type
		self._value = value

	def __str__(self):
		if self._type in "AZHB":
			return "%s:%s:%s" % (self._tag, self._type, self._value)
		if self._type in "cCsSiI":
			return "%s:%s:%d" % (self._tag, self._type, self._value)
		return "%s:%s:%f" % (self._tag, self._type, self._value)


class TagParser(object):
	def __init__(self, data):
		self._data = data
		self._tags = TagsData()
		self._parse()

	def _parse(self):
		while self._data:
			tag  = "%s%s" % (chr(unpack_int8(self._data[0])), chr(unpack_int8(self._data[1])))
			type = chr(unpack_int8(self._data[2]))
			self._data = self._data[3:]
			if type in BAM_TAG_VALUE:
				value = self._parseUnique(type)
			elif type == "Z":
				value = self._parseString()
			elif type == "H":
				size = unpack_int8(self._data[0])
				self._data = self._data[1:]
				value = self._parseSeveral("C", size)
			elif type == "B":
				secondType = unpack_int8(self._data[0])
				size       = unpack_int8(self._data[1]) + unpack_int8(self._data[2]) * 16 + unpack_int8(self._data[3]) * 16 * 16 + unpack_int8(self._data[4]) * 16 * 16 * 16
				self._data = self._data[5:]
				value      = self._parseSeveral(secondType, size)
			else:
				raise Exception("Cannot parse type '%s'." % (type))
			fullTag = TagData(tag, type, value)
			self._tags.add(fullTag)

	def _parseUnique(self, type):
		value = BAM_TAG_CODE[type](self._data[:BAM_TAG_SIZE[type]])
		self._data = self._data[BAM_TAG_SIZE[type]:]
		return value

	def _parseSeveral(self, type, size):
		value = []
		for i in range(size):
			value.append(self._parseUnique(type))
		return value

	def _parseString(self):
		value      = ""
		char       = self._data[0]
		self._data = self._data[1:]
		while unpack_int8(char) != 0:
			value     += char
			char       = self._data[0]
			self._data = self._data[1:]
		return value
			
	def getTags(self):
		return self._tags.getTags()

	def __str__(self):
		return self._tags


class AlignedRead(object):
	def __init__(self, data, refs):
		self._data = data
		self._refs = refs

	def parse(self):
		self._parse_common()
		self._parse_flag_nc()
		self._parse_bin_mq_nl()
		self._parse_name()
		self._parse_cigar()
		self._parse_sequence()
		self._parse_quality()
		self._parse_tags()
	
	def _parse_common(self):
		ref_id           = unpack_int32(self._data[0:4])
		self._chromosome = self._refs[ref_id]
		self._pos        = unpack_int32(self._data[4:8]) + 1
		mate_ref_id      = unpack_int32(self._data[20:24])
		if mate_ref_id == -1:
			self._rnext = "*"
		else:
			self._rnext = self._refs[mate_ref_id]
		if self._rnext == self._chromosome:
			self._rnext = "="
		self._pnext = unpack_int32(self._data[24:28]) + 1
		self._tlen  = unpack_int32(self._data[28:32])
	
	def _parse_bin_mq_nl(self):
		bin_mq_nl = unpack_uint32(self._data[8:12])
		self._bin = bin_mq_nl >> 16
		self._mappingQuality = bin_mq_nl >> 8 & 0xff
		self._query_name_length = bin_mq_nl & 0xff

	def _parse_flag_nc(self):
		flag_nc = unpack_uint32(self._data[12:16])
		self._flag = flag_nc >> 16
		self._num_cigar_ops = flag_nc & 0xffff
		
	def _parse_name(self):
		start = 32
		stop = start + self._query_name_length
		self._name = unpack_string(self._data[start:stop])
	
	def _parse_cigar(self):
		start = 32 + self._query_name_length
		stop = start + (self._num_cigar_ops * 4)
		_buffer = self._data[start:stop]
		cigar = CigarData(_buffer, self._num_cigar_ops)
		self._cigar = cigar.getCigarData()
	
	def _parse_sequence(self):
		seq_length = unpack_int32(self._data[16:20])
		start = 32 + self._query_name_length + (self._num_cigar_ops * 4)
		stop = start + (seq_length + 1) / 2
		_buffer = self._data[start:stop]
		self._sequence = ""
		for i in range(seq_length):
			x = unpack_uint8(_buffer[(i / 2)])
			index = (x >> (4 * (1 - (i % 2)))) & 0xf 
			base = BAM_DNA_LOOKUP[index]
			self._sequence += base

	def _parse_quality(self):
		seq_length = unpack_int32(self._data[16:20])
		start = 32 + self._query_name_length + (self._num_cigar_ops * 4) + (seq_length + 1) / 2
		stop = start + seq_length
		_buffer = self._data[start:stop]
		self._quality = "".join(["%s" % (chr(unpack_int8(x) + 33)) for x in _buffer])

	def _parse_tags(self):
		seq_length = unpack_int32(self._data[16:20])
		start = 32 + self._query_name_length + (self._num_cigar_ops * 4) + (seq_length + 1) / 2 + (seq_length + 1) - 1
		stop = start + seq_length
		_buffer = self._data[start:]
		tagParser = TagParser(_buffer)
		self._tags = tagParser.getTags()
		

class FileReader(object):

	def __init__(self, handle):
		self._handle = handle
		self._readHeader()

	def _readHeader(self):
		magic = unpack_string(self._handle.read(4))
		if magic != "BAM\1":
			raise Exception("File should start with 'BAM\1', starting with '%s' instead." % (magic))
		tlen       = unpack_int32(self._handle.read(4))
		text       = unpack_string(self._handle.read(tlen))
		nrefs      = unpack_int32(self._handle.read(4))
		self._refs = []
		for i in range(nrefs):
			sizeName = unpack_int32(self._handle.read(4))
			name     = unpack_string(self._handle.read(sizeName))
			size     = unpack_int32(self._handle.read(4))
			self._refs.append(name)
		self._startPos = self._handle.tell()

	def reset(self):
		self._handle.seek(self._startPos)

	def getNextAlignment(self):
		try:
			blockSize = unpack_int32(self._handle.read(4))
		except struct.error:
			return False
		block       = self._handle.read(blockSize)
		currentRead = AlignedRead(block, self._refs)
		return currentRead
			


def parseAlignedRead(read):
	if (read._flag & 0x4) == 0x4:
		return None

	mapping	      = Mapping()
	direction     = 1 if (read._flag & 0x10) == 0x0 else -1
	genomeStart   = read._pos
	nbOccurrences = 1
	nbMismatches  = 0
	nbMatches	  = 0
	nbGaps		  = 0
	subMapping	  = None
	queryOffset   = 0
	targetOffset  = 0
	readStart	  = None

	for tag, value in read._tags.iteritems():
		if tag == "X0":
			nbOccurrences = value._value
		elif tag == "X1":
			nbOccurrences += value._value
		elif tag == "XM":
			nbMismatches = value._value
	mapping.setTagValue("nbOccurrences", nbOccurrences)
	mapping.setTagValue("quality", read._mappingQuality)

	for operation in read._cigar:
		if operation._type == "M":
			if readStart == None:
				readStart = queryOffset
			if subMapping == None:
				subMapping = SubMapping()
				subMapping.setSize(operation._length)
				subMapping.setDirection(direction)
				subMapping.queryInterval.setName(read._name)
				subMapping.queryInterval.setStart(queryOffset)
				subMapping.queryInterval.setDirection(direction)
				subMapping.targetInterval.setChromosome(read._chromosome)
				subMapping.targetInterval.setStart(genomeStart + targetOffset)
				subMapping.targetInterval.setDirection(1)
			nbMatches	 += operation._length
			targetOffset += operation._length
			queryOffset  += operation._length
			currentNumber = 0
			continue
		if operation._type == "I":
			nbGaps	   += 1
			queryOffset  += operation._length
			currentNumber = 0
			continue
		if operation._type == "D":
			if subMapping != None:
				subMapping.queryInterval.setEnd(queryOffset - 1)
				subMapping.targetInterval.setEnd(genomeStart + targetOffset - 1)
				mapping.addSubMapping(subMapping)
			subMapping	  = None
			nbGaps	     += 1
			targetOffset += operation._length
			currentNumber = 0
			continue
		if operation._type == "N":
			if subMapping != None:
				subMapping.queryInterval.setEnd(queryOffset - 1)
				subMapping.targetInterval.setEnd(genomeStart + targetOffset - 1)
				mapping.addSubMapping(subMapping)
			subMapping	= None
			targetOffset += operation._length
			currentNumber = 0
			continue
		if operation._type == "S":
			nbMismatches += operation._length
			targetOffset += operation._length
			queryOffset  += operation._length
			currentNumber = 0
			continue
		if operation._type == "H":
			targetOffset += operation._length
			queryOffset  += operation._length
			currentNumber = 0
			continue
		if operation._type == "P":
			continue
		raise Exception("Do not understand parameter '%s'" % (operation._type))

	if subMapping != None:
		subMapping.queryInterval.setEnd(queryOffset - 1)
		subMapping.targetInterval.setEnd(genomeStart + targetOffset - 1)
		mapping.addSubMapping(subMapping)
	mapping.queryInterval.setStart(readStart)
	mapping.queryInterval.setEnd(queryOffset - 1)
	mapping.targetInterval.setEnd(genomeStart + targetOffset - 1)
	mapping.setNbMismatches(nbMismatches)
	mapping.setNbGaps(nbGaps)
	mapping.queryInterval.setName(read._name)
	mapping.queryInterval.setDirection(direction)
	mapping.targetInterval.setChromosome(read._chromosome)
	mapping.targetInterval.setStart(genomeStart)
	mapping.targetInterval.setDirection(direction)
	mapping.setSize(len(read._sequence))
	mapping.setDirection(direction)
	return mapping

	
class BamParser(MapperParser):
	"""A class that parses BAM format"""

	def __init__(self, fileName, verbosity = 0):
		self.verbosity = verbosity
		self.handle = gzip.open(fileName, "rb")
		self.reader = FileReader(self.handle)
		self.nbMappings = None
		self.fileName   = fileName


	def __del__(self):
		self.handle.close()


	def getFileFormats():
		return ["bam"]
	getFileFormats = staticmethod(getFileFormats)


	def reset(self):
		self.reader.reset()


	def getNextMapping(self):
		self.currentMapping = None
		while self.currentMapping == None:
			read = self.reader.getNextAlignment()
			if not read:
				self.currentMapping = False
				return False
			read.parse()
			self.currentMapping = parseAlignedRead(read)
		return self.currentMapping
		
		
	def setDefaultTagValue(self, name, value):
		pass


	def skipFirstLines(self):
		pass