# Copyright 2010 by Thomas Schmitt. # # This file is part of the Biopython distribution and governed by your # choice of the "Biopython License Agreement" or the "BSD 3-Clause License". # Please see the LICENSE file that should have been included as part of this # package. """Bio.SeqIO support for the "seqxml" file format, SeqXML. This module is for reading and writing SeqXML format files as SeqRecord objects, and is expected to be used via the Bio.SeqIO API. SeqXML is a lightweight XML format which is supposed be an alternative for FASTA files. For more Information see http://www.seqXML.org and Schmitt et al (2011), https://doi.org/10.1093/bib/bbr025 """ from xml import sax from xml.sax import handler from xml.sax.saxutils import XMLGenerator from xml.sax.xmlreader import AttributesImpl from Bio.Seq import Seq from Bio.SeqRecord import SeqRecord from .Interfaces import SequenceIterator from .Interfaces import SequenceWriter class ContentHandler(handler.ContentHandler): """Handles XML events generated by the parser (PRIVATE).""" def __init__(self): """Create a handler to handle XML events.""" super().__init__() self.source = None self.sourceVersion = None self.seqXMLversion = None self.ncbiTaxID = None self.speciesName = None self.startElementNS = None self.data = None self.records = [] def startDocument(self): """Set XML handlers when an XML declaration is found.""" self.startElementNS = self.startSeqXMLElement def startSeqXMLElement(self, name, qname, attrs): """Handle start of a seqXML element.""" if name != (None, "seqXML"): raise ValueError("Failed to find the start of seqXML element") if qname is not None: raise RuntimeError("Unexpected qname for seqXML element") schema = None for key, value in attrs.items(): namespace, localname = key if namespace is None: if localname == "source": self.source = value elif localname == "sourceVersion": self.sourceVersion = value elif localname == "seqXMLversion": self.seqXMLversion = value elif localname == "ncbiTaxID": # check if it is an integer, but store as string number = int(value) self.ncbiTaxID = value elif localname == "speciesName": self.speciesName = value else: raise ValueError("Unexpected attribute for XML Schema") elif namespace == "http://www.w3.org/2001/XMLSchema-instance": if localname == "noNamespaceSchemaLocation": schema = value else: raise ValueError("Unexpected attribute for XML Schema in namespace") else: raise ValueError( f"Unexpected namespace '{namespace}' for seqXML attribute" ) if self.seqXMLversion is None: raise ValueError("Failed to find seqXMLversion") url = f"http://www.seqxml.org/{self.seqXMLversion}/seqxml.xsd" if schema != url: raise ValueError( "XML Schema '%s' found not consistent with reported seqXML version %s" % (schema, self.seqXMLversion) ) self.endElementNS = self.endSeqXMLElement self.startElementNS = self.startEntryElement def endSeqXMLElement(self, name, qname): """Handle end of the seqXML element.""" namespace, localname = name if namespace is not None: raise RuntimeError(f"Unexpected namespace '{namespace}' for seqXML end") if qname is not None: raise RuntimeError(f"Unexpected qname '{qname}' for seqXML end") if localname != "seqXML": raise RuntimeError("Failed to find end of seqXML element") self.startElementNS = None self.endElementNS = None def startEntryElement(self, name, qname, attrs): """Set new entry with id and the optional entry source (PRIVATE).""" if name != (None, "entry"): raise ValueError("Expected to find the start of an entry element") if qname is not None: raise RuntimeError("Unexpected qname for entry element") record = SeqRecord("", id=None) if self.speciesName is not None: record.annotations["organism"] = self.speciesName if self.ncbiTaxID is not None: record.annotations["ncbi_taxid"] = self.ncbiTaxID record.annotations["source"] = self.source for key, value in attrs.items(): namespace, localname = key if namespace is None: if localname == "id": record.id = value elif localname == "source": record.annotations["source"] = value else: raise ValueError( f"Unexpected attribute {localname} in entry element" ) else: raise ValueError( f"Unexpected namespace '{namespace}' for entry attribute" ) if record.id is None: raise ValueError("Failed to find entry ID") self.records.append(record) self.startElementNS = self.startEntryFieldElement self.endElementNS = self.endEntryElement def endEntryElement(self, name, qname): """Handle end of an entry element.""" if name != (None, "entry"): raise ValueError("Expected to find the end of an entry element") if qname is not None: raise RuntimeError("Unexpected qname for entry element") self.startElementNS = self.startEntryElement self.endElementNS = self.endSeqXMLElement def startEntryFieldElement(self, name, qname, attrs): """Receive a field of an entry element and forward it.""" namespace, localname = name if namespace is not None: raise ValueError( f"Unexpected namespace '{namespace}' for {localname} element" ) if qname is not None: raise RuntimeError(f"Unexpected qname '{qname}' for {localname} element") if localname == "species": return self.startSpeciesElement(attrs) if localname == "description": return self.startDescriptionElement(attrs) if localname in ("DNAseq", "RNAseq", "AAseq"): return self.startSequenceElement(attrs) if localname == "DBRef": return self.startDBRefElement(attrs) if localname == "property": return self.startPropertyElement(attrs) raise ValueError(f"Unexpected field {localname} in entry") def startSpeciesElement(self, attrs): """Parse the species information.""" name = None ncbiTaxID = None for key, value in attrs.items(): namespace, localname = key if namespace is None: if localname == "name": name = value elif localname == "ncbiTaxID": # check if it is an integer, but store as string number = int(value) ncbiTaxID = value else: raise ValueError( f"Unexpected attribute '{key}' found in species tag" ) else: raise ValueError( f"Unexpected namespace '{namespace}' for species attribute" ) # The attributes "name" and "ncbiTaxID" are required: if name is None: raise ValueError("Failed to find species name") if ncbiTaxID is None: raise ValueError("Failed to find ncbiTaxId") record = self.records[-1] # The keywords for the species annotation are taken from SwissIO record.annotations["organism"] = name # TODO - Should have been a list to match SwissProt parser: record.annotations["ncbi_taxid"] = ncbiTaxID self.endElementNS = self.endSpeciesElement def endSpeciesElement(self, name, qname): """Handle end of a species element.""" namespace, localname = name if namespace is not None: raise RuntimeError(f"Unexpected namespace '{namespace}' for species end") if qname is not None: raise RuntimeError(f"Unexpected qname '{qname}' for species end") if localname != "species": raise RuntimeError("Failed to find end of species element") self.endElementNS = self.endEntryElement def startDescriptionElement(self, attrs): """Parse the description.""" if attrs: raise ValueError("Unexpected attributes found in description element") if self.data is not None: raise RuntimeError(f"Unexpected data found: '{self.data}'") self.data = "" self.endElementNS = self.endDescriptionElement def endDescriptionElement(self, name, qname): """Handle the end of a description element.""" namespace, localname = name if namespace is not None: raise RuntimeError( f"Unexpected namespace '{namespace}' for description end" ) if qname is not None: raise RuntimeError(f"Unexpected qname '{qname}' for description end") if localname != "description": raise RuntimeError("Failed to find end of description element") record = self.records[-1] description = self.data if description: # ignore if empty string record.description = description self.data = None self.endElementNS = self.endEntryElement def startSequenceElement(self, attrs): """Parse DNA, RNA, or protein sequence.""" if attrs: raise ValueError("Unexpected attributes found in sequence element") if self.data is not None: raise RuntimeError(f"Unexpected data found: '{self.data}'") self.data = "" self.endElementNS = self.endSequenceElement def endSequenceElement(self, name, qname): """Handle the end of a sequence element.""" namespace, localname = name if namespace is not None: raise RuntimeError(f"Unexpected namespace '{namespace}' for sequence end") if qname is not None: raise RuntimeError(f"Unexpected qname '{qname}' for sequence end") record = self.records[-1] if localname == "DNAseq": record.annotations["molecule_type"] = "DNA" elif localname == "RNAseq": record.annotations["molecule_type"] = "RNA" elif localname == "AAseq": record.annotations["molecule_type"] = "protein" else: raise RuntimeError( f"Failed to find end of sequence (localname = {localname})" ) record.seq = Seq(self.data) self.data = None self.endElementNS = self.endEntryElement def startDBRefElement(self, attrs): """Parse a database cross reference.""" source = None ID = None for key, value in attrs.items(): namespace, localname = key if namespace is None: if localname == "source": source = value elif localname == "id": ID = value else: raise ValueError( f"Unexpected attribute '{key}' found for DBRef element" ) else: raise ValueError( f"Unexpected namespace '{namespace}' for DBRef attribute" ) # The attributes "source" and "id" are required: if source is None: raise ValueError("Failed to find source for DBRef element") if ID is None: raise ValueError("Failed to find id for DBRef element") if self.data is not None: raise RuntimeError(f"Unexpected data found: '{self.data}'") self.data = "" record = self.records[-1] dbxref = f"{source}:{ID}" if dbxref not in record.dbxrefs: record.dbxrefs.append(dbxref) self.endElementNS = self.endDBRefElement def endDBRefElement(self, name, qname): """Handle the end of a DBRef element.""" namespace, localname = name if namespace is not None: raise RuntimeError(f"Unexpected namespace '{namespace}' for DBRef element") if qname is not None: raise RuntimeError(f"Unexpected qname '{qname}' for DBRef element") if localname != "DBRef": raise RuntimeError(f"Unexpected localname '{localname}' for DBRef element") if self.data: raise RuntimeError( f"Unexpected data received for DBRef element: '{self.data}'" ) self.data = None self.endElementNS = self.endEntryElement def startPropertyElement(self, attrs): """Handle the start of a property element.""" property_name = None property_value = None for key, value in attrs.items(): namespace, localname = key if namespace is None: if localname == "name": property_name = value elif localname == "value": property_value = value else: raise ValueError( "Unexpected attribute '%s' found for property element", key ) else: raise ValueError( f"Unexpected namespace '{namespace}' for property attribute" ) # The attribute "name" is required: if property_name is None: raise ValueError("Failed to find name for property element") record = self.records[-1] if property_name == "molecule_type": # At this point, record.annotations["molecule_type"] is either # "DNA", "RNA", or "protein"; property_value may be a more detailed # description such as "mRNA" or "genomic DNA". assert record.annotations[property_name] in property_value record.annotations[property_name] = property_value else: if property_name not in record.annotations: record.annotations[property_name] = [] record.annotations[property_name].append(property_value) self.endElementNS = self.endPropertyElement def endPropertyElement(self, name, qname): """Handle the end of a property element.""" namespace, localname = name if namespace is not None: raise RuntimeError( f"Unexpected namespace '{namespace}' for property element" ) if qname is not None: raise RuntimeError(f"Unexpected qname '{qname}' for property element") if localname != "property": raise RuntimeError( f"Unexpected localname '{localname}' for property element" ) self.endElementNS = self.endEntryElement def characters(self, data): """Handle character data.""" if self.data is not None: self.data += data class SeqXmlIterator(SequenceIterator): """Parser for seqXML files. Parses seqXML files and creates SeqRecords. Assumes valid seqXML please validate beforehand. It is assumed that all information for one record can be found within a record element or above. Two types of methods are called when the start tag of an element is reached. To receive only the attributes of an element before its end tag is reached implement _attr_TAGNAME. To get an element and its children as a DOM tree implement _elem_TAGNAME. Everything that is part of the DOM tree will not trigger any further method calls. """ BLOCK = 1024 def __init__(self, stream_or_path, namespace=None): """Create the object and initialize the XML parser.""" # Make sure we got a binary handle. If we got a text handle, then # the parser will still run but unicode characters will be garbled # if the text handle was opened with a different encoding than the # one specified in the XML file. With a binary handle, the correct # encoding is picked up by the parser from the XML file. self.parser = sax.make_parser() content_handler = ContentHandler() self.parser.setContentHandler(content_handler) self.parser.setFeature(handler.feature_namespaces, True) super().__init__(stream_or_path, mode="b", fmt="SeqXML") def parse(self, handle): """Start parsing the file, and return a SeqRecord generator.""" parser = self.parser content_handler = parser.getContentHandler() BLOCK = self.BLOCK while True: # Read in another block of the file... text = handle.read(BLOCK) if not text: if content_handler.startElementNS is None: raise ValueError("Empty file.") else: raise ValueError("XML file contains no data.") parser.feed(text) seqXMLversion = content_handler.seqXMLversion if seqXMLversion is not None: break self.seqXMLversion = seqXMLversion self.source = content_handler.source self.sourceVersion = content_handler.sourceVersion self.ncbiTaxID = content_handler.ncbiTaxID self.speciesName = content_handler.speciesName records = self.iterate(handle) return records def iterate(self, handle): """Iterate over the records in the XML file.""" parser = self.parser content_handler = parser.getContentHandler() records = content_handler.records BLOCK = self.BLOCK while True: if len(records) > 1: # Then at least the first record is finished record = records.pop(0) yield record # Read in another block of the file... text = handle.read(BLOCK) if not text: break parser.feed(text) # We have reached the end of the XML file; # send out the remaining records yield from records records.clear() parser.close() class SeqXmlWriter(SequenceWriter): """Writes SeqRecords into seqXML file. SeqXML requires the SeqRecord annotations to specify the molecule_type; the molecule type is required to contain the term "DNA", "RNA", or "protein". """ def __init__( self, target, source=None, source_version=None, species=None, ncbiTaxId=None ): """Create Object and start the xml generator. Arguments: - target - Output stream opened in binary mode, or a path to a file. - source - The source program/database of the file, for example UniProt. - source_version - The version or release number of the source program or database from which the data originated. - species - The scientific name of the species of origin of all entries in the file. - ncbiTaxId - The NCBI taxonomy identifier of the species of origin. """ super().__init__(target, "wb") handle = self.handle self.xml_generator = XMLGenerator(handle, "utf-8") self.xml_generator.startDocument() self.source = source self.source_version = source_version self.species = species self.ncbiTaxId = ncbiTaxId def write_header(self): """Write root node with document metadata.""" attrs = { "xmlns:xsi": "http://www.w3.org/2001/XMLSchema-instance", "xsi:noNamespaceSchemaLocation": "http://www.seqxml.org/0.4/seqxml.xsd", "seqXMLversion": "0.4", } if self.source is not None: attrs["source"] = self.source if self.source_version is not None: attrs["sourceVersion"] = self.source_version if self.species is not None: if not isinstance(self.species, str): raise TypeError("species should be of type string") attrs["speciesName"] = self.species if self.ncbiTaxId is not None: if not isinstance(self.ncbiTaxId, (str, int)): raise TypeError("ncbiTaxID should be of type string or int") attrs["ncbiTaxID"] = self.ncbiTaxId self.xml_generator.startElement("seqXML", AttributesImpl(attrs)) def write_record(self, record): """Write one record.""" if not record.id or record.id == "": raise ValueError("SeqXML requires identifier") if not isinstance(record.id, str): raise TypeError("Identifier should be of type string") attrb = {"id": record.id} if ( "source" in record.annotations and self.source != record.annotations["source"] ): if not isinstance(record.annotations["source"], str): raise TypeError("source should be of type string") attrb["source"] = record.annotations["source"] self.xml_generator.startElement("entry", AttributesImpl(attrb)) self._write_species(record) self._write_description(record) self._write_seq(record) self._write_dbxrefs(record) self._write_properties(record) self.xml_generator.endElement("entry") def write_footer(self): """Close the root node and finish the XML document.""" self.xml_generator.endElement("seqXML") self.xml_generator.endDocument() def _write_species(self, record): """Write the species if given (PRIVATE).""" local_ncbi_taxid = None if "ncbi_taxid" in record.annotations: local_ncbi_taxid = record.annotations["ncbi_taxid"] if isinstance(local_ncbi_taxid, list): # SwissProt parser uses a list (which could cope with chimeras) if len(local_ncbi_taxid) == 1: local_ncbi_taxid = local_ncbi_taxid[0] elif len(local_ncbi_taxid) == 0: local_ncbi_taxid = None else: raise ValueError( "Multiple entries for record.annotations['ncbi_taxid'], %r" % local_ncbi_taxid ) if "organism" in record.annotations and local_ncbi_taxid: local_org = record.annotations["organism"] if not isinstance(local_org, str): raise TypeError("organism should be of type string") if not isinstance(local_ncbi_taxid, (str, int)): raise TypeError("ncbiTaxID should be of type string or int") # The local species definition is only written if it differs from the global species definition if local_org != self.species or local_ncbi_taxid != self.ncbiTaxId: attr = {"name": local_org, "ncbiTaxID": str(local_ncbi_taxid)} self.xml_generator.startElement("species", AttributesImpl(attr)) self.xml_generator.endElement("species") def _write_description(self, record): """Write the description if given (PRIVATE).""" if record.description: if not isinstance(record.description, str): raise TypeError("Description should be of type string") description = record.description if description == "": description = "" if len(record.description) > 0: self.xml_generator.startElement("description", AttributesImpl({})) self.xml_generator.characters(description) self.xml_generator.endElement("description") def _write_seq(self, record): """Write the sequence (PRIVATE). Note that SeqXML requires the molecule type to contain the term "DNA", "RNA", or "protein". """ seq = bytes(record.seq) if not len(seq) > 0: raise ValueError("The sequence length should be greater than 0") molecule_type = record.annotations.get("molecule_type") if molecule_type is None: raise ValueError("molecule_type is not defined") elif "DNA" in molecule_type: seqElem = "DNAseq" elif "RNA" in molecule_type: seqElem = "RNAseq" elif "protein" in molecule_type: seqElem = "AAseq" else: raise ValueError(f"unknown molecule_type '{molecule_type}'") self.xml_generator.startElement(seqElem, AttributesImpl({})) self.xml_generator.characters(seq) self.xml_generator.endElement(seqElem) def _write_dbxrefs(self, record): """Write all database cross references (PRIVATE).""" if record.dbxrefs is not None: for dbxref in record.dbxrefs: if not isinstance(dbxref, str): raise TypeError("dbxrefs should be of type list of string") if dbxref.find(":") < 1: raise ValueError( "dbxrefs should be in the form ['source:id', 'source:id' ]" ) dbsource, dbid = dbxref.split(":", 1) attr = {"source": dbsource, "id": dbid} self.xml_generator.startElement("DBRef", AttributesImpl(attr)) self.xml_generator.endElement("DBRef") def _write_properties(self, record): """Write all annotations that are key value pairs with values of a primitive type or list of primitive types (PRIVATE).""" for key, value in record.annotations.items(): if key not in ("organism", "ncbi_taxid", "source"): if value is None: attr = {"name": key} self.xml_generator.startElement("property", AttributesImpl(attr)) self.xml_generator.endElement("property") elif isinstance(value, list): for v in value: if v is None: attr = {"name": key} else: attr = {"name": key, "value": str(v)} self.xml_generator.startElement( "property", AttributesImpl(attr) ) self.xml_generator.endElement("property") elif isinstance(value, (int, float, str)): attr = {"name": key, "value": str(value)} self.xml_generator.startElement("property", AttributesImpl(attr)) self.xml_generator.endElement("property")