Exemple #1
0
def _get_model(model_identifier):
    """
    Helper to look up a model from an "app_label.module_name" string.
    """
    try:
        Model = models.get_model(*model_identifier.split("."))
    except TypeError:
        Model = None
    if Model is None:
        raise base.DeserializationError(u"Invalid model identifier: '%s'" %
                                        model_identifier)
    return Model
def kml(request,
        label,
        model,
        field_name=None,
        compress=False,
        using=DEFAULT_DB_ALIAS):
    """
    This view generates KML for the given app label, model, and field name.

    The model's default manager must be GeoManager, and the field name
    must be that of a geographic field.
    """
    placemarks = []
    klass = get_model(label, model)
    if not klass:
        raise Http404(
            'You must supply a valid app label and module name.  Got "%s.%s"' %
            (label, model))

    if field_name:
        try:
            info = klass._meta.get_field_by_name(field_name)
            if not isinstance(info[0], GeometryField):
                raise Exception
        except:
            raise Http404('Invalid geometry field.')

    connection = connections[using]

    if connection.ops.postgis:
        # PostGIS will take care of transformation.
        placemarks = klass._default_manager.using(using).kml(
            field_name=field_name)
    else:
        # There's no KML method on Oracle or MySQL, so we use the `kml`
        # attribute of the lazy geometry instead.
        placemarks = []
        if connection.ops.oracle:
            qs = klass._default_manager.using(using).transform(
                4326, field_name=field_name)
        else:
            qs = klass._default_manager.using(using).all()
        for mod in qs:
            mod.kml = getattr(mod, field_name).kml
            placemarks.append(mod)

    # Getting the render function and rendering to the correct.
    if compress:
        render = render_to_kmz
    else:
        render = render_to_kml
    return render('gis/kml/placemarks.kml', {'places': placemarks})
 def model_page(self, request, app_label, model_name, rest_of_url=None):
     """
     Handles the model-specific functionality of the databrowse site, delegating
     to the appropriate ModelDatabrowse class.
     """
     model = models.get_model(app_label, model_name)
     if model is None:
         raise http.Http404("App %r, model %r, not found." %
                            (app_label, model_name))
     try:
         databrowse_class = self.registry[model]
     except KeyError:
         raise http.Http404(
             "This model exists but has not been registered with databrowse."
         )
     return databrowse_class(model, self).root(request, rest_of_url)
def post_comment(request, next=None, using=None):
    """
    Post a comment.

    HTTP POST is required. If ``POST['submit'] == "preview"`` or if there are
    errors a preview template, ``comments/preview.html``, will be rendered.
    """
    # Fill out some initial data fields from an authenticated user, if present
    data = request.POST.copy()
    if request.user.is_authenticated():
        if not data.get('name', ''):
            data["name"] = request.user.get_full_name(
            ) or request.user.username
        if not data.get('email', ''):
            data["email"] = request.user.email

    # Check to see if the POST data overrides the view's next argument.
    next = data.get("next", next)

    # Look up the object we're trying to comment about
    ctype = data.get("content_type")
    object_pk = data.get("object_pk")
    if ctype is None or object_pk is None:
        return CommentPostBadRequest(
            "Missing content_type or object_pk field.")
    try:
        model = models.get_model(*ctype.split(".", 1))
        target = model._default_manager.using(using).get(pk=object_pk)
    except TypeError:
        return CommentPostBadRequest("Invalid content_type value: %r" %
                                     escape(ctype))
    except AttributeError:
        return CommentPostBadRequest(
            "The given content-type %r does not resolve to a valid model." % \
                escape(ctype))
    except ObjectDoesNotExist:
        return CommentPostBadRequest(
            "No object matching content-type %r and object PK %r exists." % \
                (escape(ctype), escape(object_pk)))
    except (ValueError, ValidationError), e:
        return CommentPostBadRequest(
            "Attempting go get content-type %r and object PK %r exists raised %s" % \
                (escape(ctype), escape(object_pk), e.__class__.__name__))
Exemple #5
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 def _get_model_from_node(self, node, attr):
     """
     Helper to look up a model from a <object model=...> or a <field
     rel=... to=...> node.
     """
     model_identifier = node.getAttribute(attr)
     if not model_identifier:
         raise base.DeserializationError(
             "<%s> node is missing the required '%s' attribute" \
                 % (node.nodeName, attr))
     try:
         Model = models.get_model(*model_identifier.split("."))
     except TypeError:
         Model = None
     if Model is None:
         raise base.DeserializationError(
             "<%s> node has invalid model identifier: '%s'" % \
                 (node.nodeName, model_identifier))
     return Model
 def model_class(self):
     "Returns the Python model class for this type of content."
     from my_django.db import models
     return models.get_model(self.app_label, self.model,
                             only_installed=False)
Exemple #7
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    def handle(self, *app_labels, **options):
        from my_django.db.models import get_app, get_apps, get_model

        format = options.get('format')
        indent = options.get('indent')
        using = options.get('database')
        excludes = options.get('exclude')
        show_traceback = options.get('traceback')
        use_natural_keys = options.get('use_natural_keys')
        use_base_manager = options.get('use_base_manager')

        excluded_apps = set()
        excluded_models = set()
        for exclude in excludes:
            if '.' in exclude:
                app_label, model_name = exclude.split('.', 1)
                model_obj = get_model(app_label, model_name)
                if not model_obj:
                    raise CommandError('Unknown model in excludes: %s' %
                                       exclude)
                excluded_models.add(model_obj)
            else:
                try:
                    app_obj = get_app(exclude)
                    excluded_apps.add(app_obj)
                except ImproperlyConfigured:
                    raise CommandError('Unknown app in excludes: %s' % exclude)

        if len(app_labels) == 0:
            app_list = SortedDict(
                (app, None) for app in get_apps() if app not in excluded_apps)
        else:
            app_list = SortedDict()
            for label in app_labels:
                try:
                    app_label, model_label = label.split('.')
                    try:
                        app = get_app(app_label)
                    except ImproperlyConfigured:
                        raise CommandError("Unknown application: %s" %
                                           app_label)
                    if app in excluded_apps:
                        continue
                    model = get_model(app_label, model_label)
                    if model is None:
                        raise CommandError("Unknown model: %s.%s" %
                                           (app_label, model_label))

                    if app in app_list.keys():
                        if app_list[app] and model not in app_list[app]:
                            app_list[app].append(model)
                    else:
                        app_list[app] = [model]
                except ValueError:
                    # This is just an app - no model qualifier
                    app_label = label
                    try:
                        app = get_app(app_label)
                    except ImproperlyConfigured:
                        raise CommandError("Unknown application: %s" %
                                           app_label)
                    if app in excluded_apps:
                        continue
                    app_list[app] = None

        # Check that the serialization format exists; this is a shortcut to
        # avoid collating all the objects and _then_ failing.
        if format not in serializers.get_public_serializer_formats():
            raise CommandError("Unknown serialization format: %s" % format)

        try:
            serializers.get_serializer(format)
        except KeyError:
            raise CommandError("Unknown serialization format: %s" % format)

        # Now collate the objects to be serialized.
        objects = []
        for model in sort_dependencies(app_list.items()):
            if model in excluded_models:
                continue
            if not model._meta.proxy and router.allow_syncdb(using, model):
                if use_base_manager:
                    objects.extend(model._base_manager.using(using).all())
                else:
                    objects.extend(model._default_manager.using(using).all())

        try:
            return serializers.serialize(format,
                                         objects,
                                         indent=indent,
                                         use_natural_keys=use_natural_keys)
        except Exception, e:
            if show_traceback:
                raise
            raise CommandError("Unable to serialize database: %s" % e)
Exemple #8
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def sort_dependencies(app_list):
    """Sort a list of app,modellist pairs into a single list of models.

    The single list of models is sorted so that any model with a natural key
    is serialized before a normal model, and any model with a natural key
    dependency has it's dependencies serialized first.
    """
    from my_django.db.models import get_model, get_models
    # Process the list of models, and get the list of dependencies
    model_dependencies = []
    models = set()
    for app, model_list in app_list:
        if model_list is None:
            model_list = get_models(app)

        for model in model_list:
            models.add(model)
            # Add any explicitly defined dependencies
            if hasattr(model, 'natural_key'):
                deps = getattr(model.natural_key, 'dependencies', [])
                if deps:
                    deps = [get_model(*d.split('.')) for d in deps]
            else:
                deps = []

            # Now add a dependency for any FK or M2M relation with
            # a model that defines a natural key
            for field in model._meta.fields:
                if hasattr(field.rel, 'to'):
                    rel_model = field.rel.to
                    if hasattr(rel_model, 'natural_key'):
                        deps.append(rel_model)
            for field in model._meta.many_to_many:
                rel_model = field.rel.to
                if hasattr(rel_model, 'natural_key'):
                    deps.append(rel_model)
            model_dependencies.append((model, deps))

    model_dependencies.reverse()
    # Now sort the models to ensure that dependencies are met. This
    # is done by repeatedly iterating over the input list of models.
    # If all the dependencies of a given model are in the final list,
    # that model is promoted to the end of the final list. This process
    # continues until the input list is empty, or we do a full iteration
    # over the input models without promoting a model to the final list.
    # If we do a full iteration without a promotion, that means there are
    # circular dependencies in the list.
    model_list = []
    while model_dependencies:
        skipped = []
        changed = False
        while model_dependencies:
            model, deps = model_dependencies.pop()

            # If all of the models in the dependency list are either already
            # on the final model list, or not on the original serialization list,
            # then we've found another model with all it's dependencies satisfied.
            found = True
            for candidate in ((d not in models or d in model_list)
                              for d in deps):
                if not candidate:
                    found = False
            if found:
                model_list.append(model)
                changed = True
            else:
                skipped.append((model, deps))
        if not changed:
            raise CommandError(
                "Can't resolve dependencies for %s in serialized app list." %
                ', '.join('%s.%s' %
                          (model._meta.app_label, model._meta.object_name)
                          for model, deps in sorted(
                              skipped, key=lambda obj: obj[0].__name__)))
        model_dependencies = skipped

    return model_list