import logging import warnings from typing import List from unicodedata import category from pathlib import Path from urllib.parse import urldefrag from urllib.parse import urljoin from rdflib.term import URIRef, Variable, _is_valid_uri __doc__ = """ =================== Namespace Utilities =================== RDFLib provides mechanisms for managing Namespaces. In particular, there is a :class:`~rdflib.namespace.Namespace` class that takes as its argument the base URI of the namespace. .. code-block:: pycon >>> from rdflib.namespace import Namespace >>> RDFS = Namespace("http://www.w3.org/1999/02/22-rdf-syntax-ns#") Fully qualified URIs in the namespace can be constructed either by attribute or by dictionary access on Namespace instances: .. code-block:: pycon >>> RDFS.seeAlso rdflib.term.URIRef('http://www.w3.org/1999/02/22-rdf-syntax-ns#seeAlso') >>> RDFS['seeAlso'] rdflib.term.URIRef('http://www.w3.org/1999/02/22-rdf-syntax-ns#seeAlso') Automatic handling of unknown predicates ----------------------------------------- As a programming convenience, a namespace binding is automatically created when :class:`rdflib.term.URIRef` predicates are added to the graph. Importable namespaces ----------------------- The following namespaces are available by directly importing from rdflib: * BRICK * CSVW * DC * DCAT * DCMITYPE * DCTERMS * DCAM * DOAP * FOAF * ODRL2 * ORG * OWL * PROF * PROV * QB * RDF * RDFS * SDO * SH * SKOS * SOSA * SSN * TIME * VANN * VOID * XSD .. code-block:: pycon >>> from rdflib.namespace import RDFS >>> RDFS.seeAlso rdflib.term.URIRef('http://www.w3.org/2000/01/rdf-schema#seeAlso') """ __all__ = ["is_ncname", "split_uri", "Namespace", "ClosedNamespace", "NamespaceManager"] logger = logging.getLogger(__name__) class Namespace(str): """ Utility class for quickly generating URIRefs with a common prefix >>> from rdflib.namespace import Namespace >>> n = Namespace("http://example.org/") >>> n.Person # as attribute rdflib.term.URIRef('http://example.org/Person') >>> n['first-name'] # as item - for things that are not valid python identifiers rdflib.term.URIRef('http://example.org/first-name') >>> n.Person in n True >>> n2 = Namespace("http://example2.org/") >>> n.Person in n2 False """ def __new__(cls, value): try: rt = str.__new__(cls, value) except UnicodeDecodeError: rt = str.__new__(cls, value, "utf-8") return rt @property def title(self): # Override for DCTERMS.title to return a URIRef instead of str.title method return URIRef(self + "title") def term(self, name): # need to handle slices explicitly because of __getitem__ override return URIRef(self + (name if isinstance(name, str) else "")) def __getitem__(self, key): return self.term(key) def __getattr__(self, name): if name.startswith("__"): # ignore any special Python names! raise AttributeError return self.term(name) def __repr__(self): return f"Namespace({super().__repr__()})" def __contains__(self, ref): """Allows to check if a URI is within (starts with) this Namespace. >>> from rdflib import URIRef >>> namespace = Namespace('http://example.org/') >>> uri = URIRef('http://example.org/foo') >>> uri in namespace True >>> person_class = namespace['Person'] >>> person_class in namespace True >>> obj = URIRef('http://not.example.org/bar') >>> obj in namespace False """ return ref.startswith(self) # test namespace membership with "ref in ns" syntax class URIPattern(str): """ Utility class for creating URIs according to some pattern This supports either new style formatting with .format or old-style with % operator >>> u=URIPattern("http://example.org/%s/%d/resource") >>> u%('books', 12345) rdflib.term.URIRef('http://example.org/books/12345/resource') """ def __new__(cls, value): try: rt = str.__new__(cls, value) except UnicodeDecodeError: rt = str.__new__(cls, value, "utf-8") return rt def __mod__(self, *args, **kwargs): return URIRef(super().__mod__(*args, **kwargs)) def format(self, *args, **kwargs): return URIRef(super().format(*args, **kwargs)) def __repr__(self): return f"URIPattern({super().__repr__()})" class DefinedNamespaceMeta(type): """ Utility metaclass for generating URIRefs with a common prefix """ _NS: Namespace _warn: bool = True _fail: bool = False # True means mimic ClosedNamespace _extras: List[str] = [] # List of non-pythonesque items _underscore_num: bool = False # True means pass "_n" constructs def __getitem__(cls, name, default=None): name = str(name) if str(name).startswith("__"): return super().__getitem__(name, default) if (cls._warn or cls._fail) and name not in cls: if cls._fail: raise AttributeError(f"term '{name}' not in namespace '{cls._NS}'") else: warnings.warn( f"Code: {name} is not defined in namespace {cls.__name__}", stacklevel=3, ) return cls._NS[name] def __getattr__(cls, name): return cls.__getitem__(name) def __repr__(cls): return f'Namespace("{cls._NS}")' def __str__(cls): return str(cls._NS) def __add__(cls, other): return cls.__getitem__(other) def __contains__(cls, item): """Determine whether a URI or an individual item belongs to this namespace""" item_str = str(item) if item_str.startswith("__"): return super().__contains__(item) if item_str.startswith(str(cls._NS)): item_str = item_str[len(str(cls._NS)) :] return any( item_str in c.__annotations__ or item_str in c._extras or (cls._underscore_num and item_str[0] == "_" and item_str[1:].isdigit()) for c in cls.mro() if issubclass(c, DefinedNamespace) ) class DefinedNamespace(metaclass=DefinedNamespaceMeta): """ A Namespace with an enumerated list of members. Warnings are emitted if unknown members are referenced if _warn is True """ def __init__(self): raise TypeError("namespace may not be instantiated") class ClosedNamespace(Namespace): """ A namespace with a closed list of members Trying to create terms not listed is an error """ def __new__(cls, uri, terms): rt = super().__new__(cls, uri) rt.__uris = {t: URIRef(rt + t) for t in terms} return rt @property def uri(self): # Back-compat return str(self) def term(self, name): uri = self.__uris.get(name) if uri is None: raise KeyError(f"term '{name}' not in namespace '{self}'") return uri def __getitem__(self, key): return self.term(key) def __getattr__(self, name): if name.startswith("__"): # ignore any special Python names! raise AttributeError else: try: return self.term(name) except KeyError as e: raise AttributeError(e) def __repr__(self): return f"{self.__module__}.{self.__class__.__name__}({str(self)!r})" def __dir__(self): return list(self.__uris) def __contains__(self, ref): return ( ref in self.__uris.values() ) # test namespace membership with "ref in ns" syntax def _ipython_key_completions_(self): return dir(self) XMLNS = Namespace("http://www.w3.org/XML/1998/namespace") class NamespaceManager(object): """ Class for managing prefix => namespace mappings Sample usage from FuXi ... .. code-block:: python ruleStore = N3RuleStore(additionalBuiltins=additionalBuiltins) nsMgr = NamespaceManager(Graph(ruleStore)) ruleGraph = Graph(ruleStore,namespace_manager=nsMgr) and ... .. code-block:: pycon >>> import rdflib >>> from rdflib import Graph >>> from rdflib.namespace import Namespace, NamespaceManager >>> exNs = Namespace('http://example.com/') >>> namespace_manager = NamespaceManager(Graph()) >>> namespace_manager.bind('ex', exNs, override=False) >>> g = Graph() >>> g.namespace_manager = namespace_manager >>> all_ns = [n for n in g.namespace_manager.namespaces()] >>> assert ('ex', rdflib.term.URIRef('http://example.com/')) in all_ns >>> """ def __init__(self, graph): self.graph = graph self.__cache = {} self.__cache_strict = {} self.__log = None self.__strie = {} self.__trie = {} for p, n in self.namespaces(): # self.bind is not always called insert_trie(self.__trie, str(n)) # DefinedNamespace bindings. self.bind("brick", BRICK) self.bind("csvw", CSVW) self.bind("dc", DC) self.bind("dcat", DCAT) self.bind("dcmitype", DCMITYPE) self.bind("dcterms", DCTERMS) self.bind("dcam", DCAM) self.bind("doap", DOAP) self.bind("foaf", FOAF) self.bind("odrl", ODRL2) self.bind("org", ORG) self.bind("owl", OWL) self.bind("prof", PROF) self.bind("prov", PROV) self.bind("qb", QB) self.bind("rdf", RDF) self.bind("rdfs", RDFS) self.bind("schema", SDO) self.bind("sh", SH) self.bind("skos", SKOS) self.bind("sosa", SOSA) self.bind("ssn", SSN) self.bind("time", TIME) self.bind("vann", VANN) self.bind("void", VOID) self.bind("xsd", XSD) # Namespace bindings. self.bind("xml", XMLNS) def __contains__(self, ref): # checks if a reference is in any of the managed namespaces with syntax # "ref in manager". Note that we don't use "ref in ns", as # NamespaceManager.namespaces() returns Iterator[Tuple[str, URIRef]] # rather than Iterator[Tuple[str, Namespace]] return any(ref.startswith(ns) for prefix, ns in self.namespaces()) def reset(self): self.__cache = {} self.__strie = {} self.__trie = {} for p, n in self.namespaces(): # repopulate the trie insert_trie(self.__trie, str(n)) @property def store(self): return self.graph.store def qname(self, uri): prefix, namespace, name = self.compute_qname(uri) if prefix == "": return name else: return ":".join((prefix, name)) def qname_strict(self, uri): prefix, namespace, name = self.compute_qname_strict(uri) if prefix == "": return name else: return ":".join((prefix, name)) def normalizeUri(self, rdfTerm) -> str: """ Takes an RDF Term and 'normalizes' it into a QName (using the registered prefix) or (unlike compute_qname) the Notation 3 form for URIs: <...URI...> """ try: namespace, name = split_uri(rdfTerm) if namespace not in self.__strie: insert_strie(self.__strie, self.__trie, str(namespace)) namespace = URIRef(str(namespace)) except: if isinstance(rdfTerm, Variable): return "?%s" % rdfTerm else: return "<%s>" % rdfTerm prefix = self.store.prefix(namespace) if prefix is None and isinstance(rdfTerm, Variable): return "?%s" % rdfTerm elif prefix is None: return "<%s>" % rdfTerm else: qNameParts = self.compute_qname(rdfTerm) return ":".join([qNameParts[0], qNameParts[-1]]) def compute_qname(self, uri, generate=True): if not _is_valid_uri(uri): raise ValueError( '"{}" does not look like a valid URI, cannot serialize this. Did you want to urlencode it?'.format( uri ) ) if uri not in self.__cache: try: namespace, name = split_uri(uri) except ValueError as e: namespace = URIRef(uri) prefix = self.store.prefix(namespace) if not prefix: raise e if namespace not in self.__strie: insert_strie(self.__strie, self.__trie, namespace) if self.__strie[namespace]: pl_namespace = get_longest_namespace(self.__strie[namespace], uri) if pl_namespace is not None: namespace = pl_namespace name = uri[len(namespace) :] namespace = URIRef(namespace) prefix = self.store.prefix(namespace) # warning multiple prefixes problem if prefix is None: if not generate: raise KeyError( "No known prefix for {} and generate=False".format(namespace) ) num = 1 while 1: prefix = "ns%s" % num if not self.store.namespace(prefix): break num += 1 self.bind(prefix, namespace) self.__cache[uri] = (prefix, namespace, name) return self.__cache[uri] def compute_qname_strict(self, uri, generate=True): # code repeated to avoid branching on strict every time # if output needs to be strict (e.g. for xml) then # only the strict output should bear the overhead prefix, namespace, name = self.compute_qname(uri) if is_ncname(str(name)): return prefix, namespace, name else: if uri not in self.__cache_strict: try: namespace, name = split_uri(uri, NAME_START_CATEGORIES) except ValueError as e: message = ( "This graph cannot be serialized to a strict format " "because there is no valid way to shorten {}".format(uri) ) raise ValueError(message) # omitted for strict since NCNames cannot be empty # namespace = URIRef(uri) # prefix = self.store.prefix(namespace) # if not prefix: # raise e if namespace not in self.__strie: insert_strie(self.__strie, self.__trie, namespace) # omitted for strict # if self.__strie[namespace]: # pl_namespace = get_longest_namespace(self.__strie[namespace], uri) # if pl_namespace is not None: # namespace = pl_namespace # name = uri[len(namespace):] namespace = URIRef(namespace) prefix = self.store.prefix( namespace ) # warning multiple prefixes problem if prefix is None: if not generate: raise KeyError( "No known prefix for {} and generate=False".format( namespace ) ) num = 1 while 1: prefix = "ns%s" % num if not self.store.namespace(prefix): break num += 1 self.bind(prefix, namespace) self.__cache_strict[uri] = (prefix, namespace, name) return self.__cache_strict[uri] def bind(self, prefix, namespace, override=True, replace=False): """bind a given namespace to the prefix if override, rebind, even if the given namespace is already bound to another prefix. if replace, replace any existing prefix with the new namespace """ namespace = URIRef(str(namespace)) # When documenting explain that override only applies in what cases if prefix is None: prefix = "" elif " " in prefix: raise KeyError("Prefixes may not contain spaces.") bound_namespace = self.store.namespace(prefix) # Check if the bound_namespace contains a URI # and if so convert it into a URIRef for comparison # This is to prevent duplicate namespaces with the # same URI if bound_namespace: bound_namespace = URIRef(bound_namespace) if bound_namespace and bound_namespace != namespace: if replace: self.store.bind(prefix, namespace) insert_trie(self.__trie, str(namespace)) return # prefix already in use for different namespace # # append number to end of prefix until we find one # that's not in use. if not prefix: prefix = "default" num = 1 while 1: new_prefix = "%s%s" % (prefix, num) tnamespace = self.store.namespace(new_prefix) if tnamespace and namespace == URIRef(tnamespace): # the prefix is already bound to the correct # namespace return if not self.store.namespace(new_prefix): break num += 1 self.store.bind(new_prefix, namespace) else: bound_prefix = self.store.prefix(namespace) if bound_prefix is None: self.store.bind(prefix, namespace) elif bound_prefix == prefix: pass # already bound else: if override or bound_prefix.startswith("_"): # or a generated prefix self.store.bind(prefix, namespace) insert_trie(self.__trie, str(namespace)) def namespaces(self): for prefix, namespace in self.store.namespaces(): namespace = URIRef(namespace) yield prefix, namespace def absolutize(self, uri, defrag=1): base = Path.cwd().as_uri() result = urljoin("%s/" % base, uri, allow_fragments=not defrag) if defrag: result = urldefrag(result)[0] if not defrag: if uri and uri[-1] == "#" and result[-1] != "#": result = "%s#" % result return URIRef(result) # From: http://www.w3.org/TR/REC-xml#NT-CombiningChar # # * Name start characters must have one of the categories Ll, Lu, Lo, # Lt, Nl. # # * Name characters other than Name-start characters must have one of # the categories Mc, Me, Mn, Lm, or Nd. # # * Characters in the compatibility area (i.e. with character code # greater than #xF900 and less than #xFFFE) are not allowed in XML # names. # # * Characters which have a font or compatibility decomposition # (i.e. those with a "compatibility formatting tag" in field 5 of the # database -- marked by field 5 beginning with a "<") are not allowed. # # * The following characters are treated as name-start characters rather # than name characters, because the property file classifies them as # Alphabetic: [#x02BB-#x02C1], #x0559, #x06E5, #x06E6. # # * Characters #x20DD-#x20E0 are excluded (in accordance with Unicode # 2.0, section 5.14). # # * Character #x00B7 is classified as an extender, because the property # list so identifies it. # # * Character #x0387 is added as a name character, because #x00B7 is its # canonical equivalent. # # * Characters ':' and '_' are allowed as name-start characters. # # * Characters '-' and '.' are allowed as name characters. NAME_START_CATEGORIES = ["Ll", "Lu", "Lo", "Lt", "Nl"] SPLIT_START_CATEGORIES = NAME_START_CATEGORIES + ["Nd"] NAME_CATEGORIES = NAME_START_CATEGORIES + ["Mc", "Me", "Mn", "Lm", "Nd"] ALLOWED_NAME_CHARS = ["\u00B7", "\u0387", "-", ".", "_", "%", "(", ")"] # http://www.w3.org/TR/REC-xml-names/#NT-NCName # [4] NCName ::= (Letter | '_') (NCNameChar)* /* An XML Name, minus # the ":" */ # [5] NCNameChar ::= Letter | Digit | '.' | '-' | '_' | CombiningChar # | Extender def is_ncname(name): if name: first = name[0] if first == "_" or category(first) in NAME_START_CATEGORIES: for i in range(1, len(name)): c = name[i] if not category(c) in NAME_CATEGORIES: if c in ALLOWED_NAME_CHARS: continue return 0 # if in compatibility area # if decomposition(c)!='': # return 0 return 1 return 0 def split_uri(uri, split_start=SPLIT_START_CATEGORIES): if uri.startswith(XMLNS): return (XMLNS, uri.split(XMLNS)[1]) length = len(uri) for i in range(0, length): c = uri[-i - 1] if not category(c) in NAME_CATEGORIES: if c in ALLOWED_NAME_CHARS: continue for j in range(-1 - i, length): if category(uri[j]) in split_start or uri[j] == "_": # _ prevents early split, roundtrip not generate ns = uri[:j] if not ns: break ln = uri[j:] return (ns, ln) break raise ValueError("Can't split '{}'".format(uri)) def insert_trie(trie, value): # aka get_subtrie_or_insert """Insert a value into the trie if it is not already contained in the trie. Return the subtree for the value regardless of whether it is a new value or not.""" if value in trie: return trie[value] multi_check = False for key in tuple(trie.keys()): if len(value) > len(key) and value.startswith(key): return insert_trie(trie[key], value) elif key.startswith(value): # we know the value is not in the trie if not multi_check: trie[value] = {} multi_check = True # there can be multiple longer existing prefixes dict_ = trie.pop( key ) # does not break strie since key<->dict_ remains unchanged trie[value][key] = dict_ if value not in trie: trie[value] = {} return trie[value] def insert_strie(strie, trie, value): if value not in strie: strie[value] = insert_trie(trie, value) def get_longest_namespace(trie, value): for key in trie: if value.startswith(key): out = get_longest_namespace(trie[key], value) if out is None: return key else: return out return None from rdflib.namespace._BRICK import BRICK from rdflib.namespace._CSVW import CSVW from rdflib.namespace._DC import DC from rdflib.namespace._DCAT import DCAT from rdflib.namespace._DCMITYPE import DCMITYPE from rdflib.namespace._DCTERMS import DCTERMS from rdflib.namespace._DCAM import DCAM from rdflib.namespace._DOAP import DOAP from rdflib.namespace._FOAF import FOAF from rdflib.namespace._ODRL2 import ODRL2 from rdflib.namespace._ORG import ORG from rdflib.namespace._OWL import OWL from rdflib.namespace._PROF import PROF from rdflib.namespace._PROV import PROV from rdflib.namespace._QB import QB from rdflib.namespace._RDF import RDF from rdflib.namespace._RDFS import RDFS from rdflib.namespace._SDO import SDO from rdflib.namespace._SH import SH from rdflib.namespace._SKOS import SKOS from rdflib.namespace._SOSA import SOSA from rdflib.namespace._SSN import SSN from rdflib.namespace._TIME import TIME from rdflib.namespace._VANN import VANN from rdflib.namespace._VOID import VOID from rdflib.namespace._XSD import XSD