def _construct_resolved_attributes( self, res_opt: 'ResolveOptions', under: Optional['CdmAttributeContext'] ) -> 'ResolvedAttributeSetBuilder': # find and cache the complete set of attributes # attributes definitions originate from and then get modified by subsequent re-defintions from (in this order): # the datatype used as an attribute, traits applied to that datatype, # the purpose of the attribute, any traits applied to the attribute. from cdm.resolvedmodel import AttributeResolutionContext, ResolvedAttribute, ResolvedAttributeSetBuilder from .cdm_attribute_resolution_guidance_def import CdmAttributeResolutionGuidanceDefinition rasb = ResolvedAttributeSetBuilder() rasb._resolved_attribute_set.attribute_context = under # add this attribute to the set # make a new one and apply any traits new_att = ResolvedAttribute(res_opt, self, self.name, under) rasb.own_one(new_att) rts = self._fetch_resolved_traits(res_opt) if self.owner and self.owner.object_type == CdmObjectType.ENTITY_DEF: rasb._resolved_attribute_set.set_target_owner(self.owner) if self.projection: rasb._resolved_attribute_set.apply_traits(rts) proj_directive = ProjectionDirective(res_opt, self) proj_ctx = self.projection._construct_projection_context( proj_directive, under, rasb._resolved_attribute_set) ras = self.projection._extract_resolved_attributes(proj_ctx, under) rasb._resolved_attribute_set = ras else: # using resolution guidance # this context object holds all of the info about what needs to happen to resolve these attributes. # make a copy and add defaults if missing res_guide_with_default = None if self.resolution_guidance is not None: res_opt._used_resolution_guidance = True res_guide_with_default = self.resolution_guidance.copy(res_opt) else: res_guide_with_default = CdmAttributeResolutionGuidanceDefinition( self.ctx) # rename_format is not currently supported for type attributes res_guide_with_default.rename_format = None res_guide_with_default._update_attribute_defaults(None, self) arc = AttributeResolutionContext(res_opt, res_guide_with_default, rts) # from the traits of the datatype, purpose and applied here, see if new attributes get generated rasb.apply_traits(arc) rasb.generate_applier_attributes( arc, False) # false = don't apply these traits to added things # this may have added symbols to the dependencies, so merge them res_opt._symbol_ref_set._merge(arc.res_opt._symbol_ref_set) return rasb
def _append_projection_attribute_state(self, proj_ctx: 'ProjectionContext', proj_output_set: 'ProjectionAttributeStateSet', \ attr_ctx: 'CdmAttributeContext') -> 'ProjectionAttributeStateSet': # Create a new attribute context for the operation attr_ctx_op_add_attr_group_param = AttributeContextParameters() attr_ctx_op_add_attr_group_param._under = attr_ctx attr_ctx_op_add_attr_group_param._type = CdmAttributeContextType.OPERATION_ADD_ATTRIBUTE_GROUP attr_ctx_op_add_attr_group_param._name = 'operation/index{}/{}'.format( self._index, self.get_name()) attr_ctx_op_add_attr_group = CdmAttributeContext._create_child_under( proj_ctx._projection_directive._res_opt, attr_ctx_op_add_attr_group_param) # Create a new attribute context for the attribute group we will create attr_ctx_attr_group_param = AttributeContextParameters() attr_ctx_attr_group_param._under = attr_ctx_op_add_attr_group attr_ctx_attr_group_param._type = CdmAttributeContextType.ATTRIBUTE_DEFINITION attr_ctx_attr_group_param._name = self.attribute_group_name attr_ctx_attr_group = CdmAttributeContext._create_child_under( proj_ctx._projection_directive._res_opt, attr_ctx_attr_group_param) # Create a new resolve attribute set builder that will be used to combine all the attributes into one set rasb = ResolvedAttributeSetBuilder() # Iterate through all the projection attribute states generated from the source's resolved attributes # Each projection attribute state contains a resolved attribute that it is corresponding to for current_PAS in proj_ctx._current_attribute_state_set._states: # Create a copy of the resolved attribute resolved_attribute = current_PAS._current_resolved_attribute.copy( ) # type: ResolvedAttribute # Add the attribute to the resolved attribute set rasb._resolved_attribute_set.merge(resolved_attribute) # Add each attribute's attribute context to the resolved attribute set attribute context attr_param = AttributeContextParameters() attr_param._under = attr_ctx_attr_group attr_param._type = CdmAttributeContextType.ATTRIBUTE_DEFINITION attr_param._name = resolved_attribute.resolved_name resolved_attribute.att_ctx = CdmAttributeContext._create_child_under( proj_ctx._projection_directive._res_opt, attr_param) resolved_attribute.att_ctx._add_lineage( current_PAS._current_resolved_attribute.att_ctx) # Create a new resolved attribute that will hold the attribute set containing all the attributes res_attr_new = ResolvedAttribute( proj_ctx._projection_directive._res_opt, rasb._resolved_attribute_set, self.attribute_group_name, attr_ctx_attr_group) # Create a new projection attribute state pointing to the resolved attribute set that represents the attribute group new_PAS = ProjectionAttributeState(self.ctx) new_PAS._current_resolved_attribute = res_attr_new proj_output_set._add(new_PAS) return proj_output_set
def _construct_resolved_attributes( self, res_opt: 'ResolveOptions', under: Optional['CdmAttributeContext'] ) -> 'ResolvedAttributeSetBuilder': from cdm.resolvedmodel import ResolvedAttributeSetBuilder from cdm.utilities import AttributeContextParameters rasb = ResolvedAttributeSetBuilder() if under: acp_att_grp = AttributeContextParameters( under=under, type=CdmAttributeContextType.ATTRIBUTE_GROUP, name=self.get_name(), regarding=self, include_traits=False) under = rasb.ras.create_attribute_context(res_opt, acp_att_grp) if self.members: for att in self.members: acp_att = None if under: acp_att = AttributeContextParameters( under=under, type=CdmAttributeContextType.ATTRIBUTE_DEFINITION, name=att.fetch_object_definition_name(), regarding=att, include_traits=False) rasb.merge_attributes( att._fetch_resolved_attributes(res_opt, acp_att)) rasb.ras.attribute_context = under # things that need to go away rasb.remove_requested_atts() return rasb
def _construct_resolved_attributes( self, res_opt: 'ResolveOptions', under: Optional['CdmAttributeContext'] ) -> 'ResolvedAttributeSetBuilder': # find and cache the complete set of attributes from cdm.resolvedmodel import ResolvedAttributeSetBuilder from cdm.utilities import AttributeContextParameters from cdm.objectmodel import CdmEntityDefinition rasb = ResolvedAttributeSetBuilder() rasb._resolved_attribute_set.attribute_context = under definition = self.fetch_object_definition(res_opt) if definition: acp_ref = None if under: # ask for a 'pass through' context, that is, no new context at this level acp_ref = AttributeContextParameters( under=under, type=CdmAttributeContextType.PASS_THROUGH) res_atts = definition._fetch_resolved_attributes(res_opt, acp_ref) if res_atts and res_atts._set: # res_atts = res_atts.copy() should not need this copy now that we copy from the cache. lets try! rasb.merge_attributes(res_atts) rasb.remove_requested_atts() else: logger.warning( self.ctx, self._TAG, CdmObjectReference._construct_resolved_traits.__name__, self.at_corpus_path, CdmLogCode.WARN_RESOLVE_OBJECT_FAILED, self.fetch_object_definition_name()) return rasb
def _construct_resolved_attributes( self, res_opt: 'ResolveOptions', under: Optional['CdmAttributeContext'] ) -> 'ResolvedAttributeSetBuilder': # find and cache the complete set of attributes from cdm.resolvedmodel import ResolvedAttributeSetBuilder from cdm.utilities import AttributeContextParameters rasb = ResolvedAttributeSetBuilder() rasb.ras.attribute_context = under definition = self.fetch_object_definition(res_opt) if definition: acp_ref = None if under: # ask for a 'pass through' context, that is, no new context at this level acp_ref = AttributeContextParameters( under=under, type=CdmAttributeContextType.PASS_THROUGH) res_atts = definition._fetch_resolved_attributes(res_opt, acp_ref) if res_atts and res_atts._set: res_atts = res_atts.copy() rasb.merge_attributes(res_atts) rasb.remove_requested_atts() else: def_name = self.fetch_object_definition_name() logger.warning( self._TAG, self.ctx, 'unable to resolve an object from the reference \'{}\''.format( def_name)) return rasb
def _construct_resolved_attributes( self, res_opt: 'ResolveOptions', under: Optional['CdmAttributeContext'] ) -> 'ResolvedAttributeSetBuilder': from cdm.resolvedmodel import ResolvedAttributeSetBuilder from cdm.utilities import AttributeContextParameters rasb = ResolvedAttributeSetBuilder() rasb._resolved_attribute_set.attribute_context = under acp_ent = None if under: acp_ent = AttributeContextParameters( under=under, type=CdmAttributeContextType.ENTITY, name=self.entity_shape.fetch_object_definition_name(), regarding=self.entity_shape, include_traits=True) if self.entity_shape: rasb.merge_attributes( self.entity_shape._fetch_resolved_attributes(res_opt, acp_ent)) # things that need to go away rasb.remove_requested_atts() return rasb
def _construct_resolved_attributes( self, res_opt: 'ResolveOptions', under: Optional['CdmAttributeContext'] ) -> 'ResolvedAttributeSetBuilder': # find and cache the complete set of attributes # attributes definitions originate from and then get modified by subsequent re-defintions from (in this order): # the datatype used as an attribute, traits applied to that datatype, # the purpose of the attribute, any traits applied to the attribute. from cdm.resolvedmodel import AttributeResolutionContext, ResolvedAttribute, ResolvedAttributeSetBuilder from .cdm_attribute_resolution_guidance_def import CdmAttributeResolutionGuidanceDefinition rasb = ResolvedAttributeSetBuilder() rasb.ras.attribute_context = under # add this attribute to the set # make a new one and apply any traits new_att = ResolvedAttribute(res_opt, self, self.name, under) rasb.own_one(new_att) rts = self._fetch_resolved_traits(res_opt) # this context object holds all of the info about what needs to happen to resolve these attributes. # make a copy and add defaults if missing res_guide_with_default = None if self.resolution_guidance is not None: res_guide_with_default = self.resolution_guidance.copy(res_opt) else: res_guide_with_default = CdmAttributeResolutionGuidanceDefinition( self.ctx) res_guide_with_default._update_attribute_defaults(None) arc = AttributeResolutionContext(res_opt, res_guide_with_default, rts) # from the traits of the datatype, purpose and applied here, see if new attributes get generated rasb.apply_traits(arc) rasb.generate_applier_attributes( arc, False) # false = don't apply these traits to added things # this may have added symbols to the dependencies, so merge them res_opt.symbol_ref_set.merge(arc.res_opt.symbol_ref_set) return rasb
def _construct_resolved_attributes( self, res_opt: 'ResolveOptions', under: Optional['CdmAttributeContext'] ) -> 'ResolvedAttributeSetBuilder': from cdm.resolvedmodel import ResolvedAttributeSetBuilder from cdm.utilities import AttributeContextParameters rasb = ResolvedAttributeSetBuilder() all_under = under # type: CdmAttributeContext if under: acp_att_grp = AttributeContextParameters( under=under, type=CdmAttributeContextType.ATTRIBUTE_GROUP, name=self.get_name(), regarding=self, include_traits=False) under = rasb._resolved_attribute_set.create_attribute_context( res_opt, acp_att_grp) if self.members: for att in self.members: acp_att = None if under: acp_att = AttributeContextParameters( under=under, type=CdmAttributeContextType.ATTRIBUTE_DEFINITION, name=att.fetch_object_definition_name(), regarding=att, include_traits=False) ras_from_att = att._fetch_resolved_attributes( res_opt, acp_att) # type: ResolvedAttributeSet # before we just merge, need to handle the case of 'attribute restatement' AKA an entity with an attribute having the same name as an attribute # from a base entity. thing might come out with different names, if they do, then any attributes owned by a similar named attribute before # that didn't just pop out of that same named attribute now need to go away. # mark any attributes formerly from this named attribute that don't show again as orphans rasb._resolved_attribute_set.mark_orphans_for_removal( cast(CdmAttributeItem, att).fetch_object_definition_name, ras_from_att) rasb.merge_attributes(ras_from_att) rasb._resolved_attribute_set.attribute_context = all_under # context must be the one expected from the caller's pov. # things that need to go away rasb.remove_requested_atts() return rasb
def _construct_resolved_attributes( self, res_opt: 'ResolveOptions', under: Optional['CdmAttributeContext'] = None ) -> 'ResolvedAttributeSetBuilder': from cdm.resolvedmodel import AttributeResolutionContext, ResolvedAttribute, ResolvedAttributeSetBuilder, ResolvedTrait from cdm.utilities import AttributeContextParameters, AttributeResolutionDirectiveSet from .cdm_attribute_resolution_guidance_def import CdmAttributeResolutionGuidanceDefinition from .cdm_object import CdmObject rasb = ResolvedAttributeSetBuilder() ctx_ent = self.entity under_att = under acp_ent = None if under_att: # make a context for this attribute that holds the attributes that come up from the entity acp_ent = AttributeContextParameters( under=under_att, type=CdmAttributeContextType.ENTITY, name=ctx_ent.fetch_object_definition_name(), regarding=ctx_ent, include_traits=True) rts_this_att = self._fetch_resolved_traits(res_opt) # this context object holds all of the info about what needs to happen to resolve these attributes. # make a copy and add defaults if missing res_guide_with_default = None if self.resolution_guidance is not None: res_guide_with_default = self.resolution_guidance.copy(res_opt) else: res_guide_with_default = CdmAttributeResolutionGuidanceDefinition( self.ctx) res_guide_with_default._update_attribute_defaults(self.name) arc = AttributeResolutionContext(res_opt, res_guide_with_default, rts_this_att) # complete cheating but is faster. # this purpose will remove all of the attributes that get collected here, so dumb and slow to go get them rel_info = self._get_relationship_info(arc.res_opt, arc) if rel_info.is_by_ref: # make the entity context that a real recursion would have give us if under: under = rasb.ras.create_attribute_context(res_opt, acp_ent) # if selecting from one of many attributes, then make a context for each one if under and rel_info.selects_one: # the right way to do this is to get a resolved entity from the embedded entity and then # look through the attribute context hierarchy for non-nested entityReferenceAsAttribute nodes # that seems like a disaster waiting to happen given endless looping, etc. # for now, just insist that only the top level entity attributes declared in the ref entity will work ent_pick_from = self.entity.fetch_object_definition(res_opt) atts_pick = ent_pick_from.attributes if ent_pick_from and atts_pick: for attribute in atts_pick: if attribute.object_type == CdmObjectType.ENTITY_ATTRIBUTE_DEF: # a table within a table. as expected with a selects_one attribute # since this is by ref, we won't get the atts from the table, but we do need the traits that hold the key # these are the same contexts that would get created if we recursed # first this attribute acp_ent_att = AttributeContextParameters( under=under, type=CdmAttributeContextType. ATTRIBUTE_DEFINITION, name=attribute.fetch_object_definition_name(), regarding=attribute, include_traits=True) pick_under = rasb.ras.create_attribute_context( res_opt, acp_ent_att) # and the entity under that attribute pick_ent = attribute.entity acp_ent_att_ent = AttributeContextParameters( under=pick_under, type=CdmAttributeContextType.ENTITY, name=pick_ent.fetch_object_definition_name(), regarding=pick_ent, include_traits=True) rasb.ras.create_attribute_context( res_opt, acp_ent_att_ent) # if we got here because of the max depth, need to impose the directives to make the trait work as expected if rel_info.max_depth_exceeded: if not arc.res_opt.directives: arc.res_opt.directives = AttributeResolutionDirectiveSet() arc.res_opt.directives.add('referenceOnly') else: res_link = CdmObject._copy_resolve_options(res_opt) res_link.symbol_ref_set = res_opt.symbol_ref_set res_link._relationship_depth = rel_info.next_depth rasb.merge_attributes( self.entity._fetch_resolved_attributes(res_link, acp_ent)) # from the traits of purpose and applied here, see if new attributes get generated rasb.ras.attribute_context = under_att rasb.apply_traits(arc) rasb.generate_applier_attributes( arc, True) # True = apply the prepared traits to new atts # this may have added symbols to the dependencies, so merge them res_opt.symbol_ref_set.merge(arc.res_opt.symbol_ref_set) # use the traits for linked entity identifiers to record the actual foreign key links if rasb.ras and rasb.ras.set and rel_info.is_by_ref: for att in rasb.ras.set: reqd_trait = att.resolved_traits.find( res_opt, 'is.linkedEntity.identifier') if not reqd_trait: continue if not reqd_trait.parameter_values: logger.warning( self._TAG, self.ctx, 'is.linkedEntity.identifier does not support arguments' ) continue ent_references = [] att_references = [] def add_entity_reference(entity_ref: 'CdmEntityReference', namespace: str): ent_def = entity_ref.fetch_object_definition(res_opt) required_trait = entity_ref._fetch_resolved_traits( res_opt).find(res_opt, 'is.identifiedBy') if required_trait and ent_def: att_ref = required_trait.parameter_values.fetch_parameter_value( 'attribute').value att_name = att_ref.named_reference.split('/')[-1] # path should be absolute and without a namespace relative_ent_path = self.ctx.corpus.storage.create_absolute_corpus_path( ent_def.at_corpus_path, ent_def.in_document) if relative_ent_path.startswith(namespace + ':'): relative_ent_path = relative_ent_path[len(namespace ) + 1:] ent_references.append(relative_ent_path) att_references.append(att_name) if rel_info.selects_one: ent_pick_from = self.entity.fetch_object_definition( res_opt) atts_pick = ent_pick_from.attributes if ent_pick_from else None if atts_pick: for attribute in atts_pick: if attribute.object_type == CdmObjectType.ENTITY_ATTRIBUTE_DEF: add_entity_reference( attribute.entity, self.in_document.namespace) else: add_entity_reference(self.entity, self.in_document.namespace) c_ent = self.ctx.corpus.make_object( CdmObjectType.CONSTANT_ENTITY_DEF) c_ent.entity_shape = self.ctx.corpus.make_ref( CdmObjectType.ENTITY_REF, 'entityGroupSet', True) c_ent.constant_values = [[ entity_ref, att_references[idx] ] for idx, entity_ref in enumerate(ent_references)] param = self.ctx.corpus.make_ref(CdmObjectType.ENTITY_REF, c_ent, False) reqd_trait.parameter_values.update_parameter_value( res_opt, 'entityReferences', param) # a 'structured' directive wants to keep all entity attributes together in a group if arc and arc.res_opt.directives and arc.res_opt.directives.has( 'structured'): ra_sub = ResolvedAttribute(rts_this_att.res_opt, rasb.ras, self.name, rasb.ras.attribute_context) if rel_info.is_array: # put a resolved trait on this att group, yuck, # hope I never need to do this again and then need to make a function for this tr = self.ctx.corpus.make_object(CdmObjectType.TRAIT_REF, 'is.linkedEntity.array', True) t = tr.fetch_object_definition(res_opt) rt = ResolvedTrait(t, None, [], []) ra_sub.resolved_traits = ra_sub.resolved_traits.merge(rt, True) rasb = ResolvedAttributeSetBuilder() rasb.own_one(ra_sub) return rasb
class CdmEntityDefinition(CdmObjectDefinition, CdmReferencesEntities): def __init__(self, ctx: 'CdmCorpusContext', name: str, extends_entity: Optional['CdmEntityReference']) -> None: super().__init__(ctx) # the entity attribute Context. self.attribute_context = None # type: Optional[CdmAttributeContext] # the entity entity name. self.entity_name = name # type: str # the entity extended by this entity. self.extends_entity = extends_entity # type: Optional[CdmEntityReference] # the resolution guidance for attributes taken from the entity extended by this entity self.extends_entity_resolution_guidance = None # type: Optional[CdmAttributeResolutionGuidanceDefinition] # --- internal --- self._rasb = None # type: Optional[ResolvedAttributeSetBuilder] self._resolving_entity_references = False # type: bool self._attributes = CdmCollection(self.ctx, self, CdmObjectType.TYPE_ATTRIBUTE_DEF) # type: CdmCollection self._ttpm = None # type: Optional[TraitToPropertyMap] self._TAG = CdmEntityDefinition.__name__ @property def attributes(self) -> 'CdmCollection[CdmAttributeItem]': """the entity attributes.""" return self._attributes @property def object_type(self) -> 'CdmObjectType': return CdmObjectType.ENTITY_DEF @property def source_name(self) -> str: return cast(str, self._trait_to_property_map._fetch_property_value('sourceName')) @source_name.setter def source_name(self, val: str) -> None: self._trait_to_property_map._update_property_value('sourceName', val) @property def description(self) -> str: return cast(str, self._trait_to_property_map._fetch_property_value('description')) @description.setter def description(self, val: str) -> None: self._trait_to_property_map._update_property_value('description', val) @property def display_name(self) -> str: return cast(str, self._trait_to_property_map._fetch_property_value('displayName')) @display_name.setter def display_name(self, val: str) -> None: self._trait_to_property_map._update_property_value('displayName', val) @property def version(self) -> str: return cast(str, self._trait_to_property_map._fetch_property_value('version')) @version.setter def version(self, val: str) -> None: self._trait_to_property_map._update_property_value('version', val) @property def cdm_schemas(self) -> List[str]: return cast(List[str], self._trait_to_property_map._fetch_property_value('cdmSchemas')) @cdm_schemas.setter def cdm_schemas(self, val: List[str]) -> None: self._trait_to_property_map._update_property_value('cdmSchemas', val) @property def primary_key(self) -> str: return cast(str, self._trait_to_property_map._fetch_property_value('primaryKey')) @property def _trait_to_property_map(self) -> 'TraitToPropertyMap': from cdm.utilities import TraitToPropertyMap if not self._ttpm: self._ttpm = TraitToPropertyMap(self) return self._ttpm def _add_attribute_def(self, attribute_def: 'CdmAttributeItem') -> 'CdmAttributeItem': self.attributes.append(attribute_def) return attribute_def def _construct_resolved_attributes(self, res_opt: 'ResolveOptions', under: Optional['CdmAttributeContext'] = None) -> 'ResolvedAttributeSetBuilder': # find and cache the complete set of attributes # attributes definitions originate from and then get modified by subsequent re-defintions from (in this order): # an extended entity, traits applied to extended entity, exhibited traits of main entity, # the (datatype or entity) used as an attribute, traits applied to that datatype or entity, # the relationsip of the attribute, the attribute definition itself and included attribute groups, # any traits applied to the attribute. from cdm.resolvedmodel import ResolvedAttributeSetBuilder from cdm.utilities import AttributeContextParameters self._rasb = ResolvedAttributeSetBuilder() self._rasb.ras.attribute_context = under if self.extends_entity: ext_ref = self.extends_entity extends_ref_under = None acp_ext_ent = None if under: acp_ext = AttributeContextParameters( under=under, type=CdmAttributeContextType.ENTITY_REFERENCE_EXTENDS, name='extends', regarding=None, include_traits=False) extends_ref_under = self._rasb.ras.create_attribute_context(res_opt, acp_ext) if ext_ref.explicit_reference and ext_ref.fetch_object_definition(res_opt).object_type == CdmObjectType.PROJECTION_DEF: # A Projection ext_ref_obj_def = ext_ref.fetch_object_definition(res_opt) if extends_ref_under: acp_ext_ent = AttributeContextParameters( under=extends_ref_under, type=CdmAttributeContextType.PROJECTION, name=ext_ref_obj_def.get_name(), regarding=ext_ref, include_traits=False ) proj_directive = ProjectionDirective(res_opt, self, ext_ref) proj_def = ext_ref_obj_def proj_ctx = proj_def._construct_projection_context(proj_directive, extends_ref_under) self._rasb.ras = proj_def._extract_resolved_attributes(proj_ctx) else: # An Entity Reference if extends_ref_under: acp_ext_ent = AttributeContextParameters( under=extends_ref_under, type=CdmAttributeContextType.ENTITY, name=ext_ref.named_reference if ext_ref.named_reference else ext_ref.explicit_reference.get_name(), regarding=ext_ref, include_traits=False ) # save moniker, extended entity may attach a different moniker that we do not # want to pass along to getting this entities attributes old_moniker = res_opt._from_moniker self._rasb.merge_attributes(self.extends_entity._fetch_resolved_attributes(res_opt, acp_ext_ent)) if not res_opt._check_attribute_count(self._rasb.ras._resolved_attribute_count): logger.error(self._TAG, self.ctx, 'Maximum number of resolved attributes reached for the entity: {}.'.format(self.entity_name)) return None if self.extends_entity_resolution_guidance: # some guidance was given on how to integrate the base attributes into the set. apply that guidance rts_base = self._fetch_resolved_traits(res_opt) # type: ResolvedTraitSet # this context object holds all of the info about what needs to happen to resolve these attributes. # make a copy and set defaults if needed res_guide = self.extends_entity_resolution_guidance.copy(res_opt) # CdmAttributeResolutionGuidanceDefinition res_guide._update_attribute_defaults(res_guide.fetch_object_definition_name()) # holds all the info needed by the resolver code arc = AttributeResolutionContext(res_opt, res_guide, rts_base) # type: AttributeResolutionContext self._rasb.generate_applier_attributes(arc, False) # true = apply the prepared traits to new atts # reset to the old moniker res_opt._from_moniker = old_moniker self._rasb.mark_inherited() self._rasb.ras.attribute_context = under if self.attributes: for att in self.attributes: acp_att = None if under: acp_att = AttributeContextParameters( under=under, type=CdmAttributeContextType.ATTRIBUTE_DEFINITION, name=att.fetch_object_definition_name(), regarding=att, include_traits=False) self._rasb.merge_attributes(att._fetch_resolved_attributes(res_opt, acp_att)) if not res_opt._check_attribute_count(self._rasb.ras._resolved_attribute_count): logger.error(self._TAG, self.ctx, 'Maximum number of resolved attributes reached for the entity: {}.'.format(self.entity_name)) return None self._rasb.mark_order() self._rasb.ras.attribute_context = under # things that need to go away self._rasb.remove_requested_atts() return self._rasb def _construct_resolved_traits(self, rtsb: 'ResolvedTraitSetBuilder', res_opt: 'ResolveOptions') -> None: from cdm.resolvedmodel import ResolvedTraitSet base = self.extends_entity if base: # merge in all from base class rtsb.merge_traits(base._fetch_resolved_traits(res_opt)) if self.attributes: rts_elevated = ResolvedTraitSet(res_opt) for att in self.attributes: rts_att = att._fetch_resolved_traits(res_opt) if rts_att and rts_att.has_elevated: rts_elevated = rts_elevated.merge_set(rts_att, True) rtsb.merge_traits(rts_elevated) self._construct_resolved_traits_def(None, rtsb, res_opt) def copy(self, res_opt: Optional['ResolveOptions'] = None, host: Optional['CdmEntityDefinition'] = None) -> 'CdmEntityDefinition': if not res_opt: res_opt = ResolveOptions(wrt_doc=self, directives=self.ctx.corpus.default_resolution_directives) if not host: copy = CdmEntityDefinition(self.ctx, self.entity_name, None) else: copy = host copy.ctx = self.ctx copy.entity_name = self.entity_name copy.attributes.clear() copy.extends_entity = cast('CdmEntityReference', self.extends_entity.copy(res_opt)) if self.extends_entity else None copy.extends_entity_resolution_guidance = self.extends_entity_resolution_guidance.copy(res_opt) if self.extends_entity_resolution_guidance else None copy.attribute_context = cast('CdmAttributeContext', self.attribute_context.copy(res_opt)) if self.attribute_context else None for att in self.attributes: copy.attributes.append(att) self._copy_def(res_opt, copy) return copy # TODO: Refactor and split this function to be more structured. async def create_resolved_entity_async(self, new_ent_name: str, res_opt: Optional['ResolveOptions'] = None, folder: 'CdmFolderDefinition' = None, new_doc_name: str = None) -> 'CdmEntityDefinition': """Create a resolved copy of the entity.""" if not res_opt: res_opt = ResolveOptions(self, self.ctx.corpus.default_resolution_directives) if not res_opt.wrt_doc: logger.error(self._TAG, self.ctx, 'No WRT document was supplied.', self.create_resolved_entity_async.__name__) return None if not new_ent_name: logger.error(self._TAG, self.ctx, 'No Entity Name provided.', self.create_resolved_entity_async.__name__) return None folder = folder or self.in_document.folder file_name = new_doc_name or new_ent_name + PersistenceLayer.CDM_EXTENSION orig_doc = self.in_document.at_corpus_path # Don't overwite the source document. target_at_corpus_path = self.ctx.corpus.storage.create_absolute_corpus_path(folder.at_corpus_path, folder) + file_name if StringUtils.equals_with_ignore_case(target_at_corpus_path, orig_doc): logger.error(self._TAG, self.ctx, 'Attempting to replace source entity\'s document \'{}\''.format( target_at_corpus_path), self.create_resolved_entity_async.__name__) return None if not await res_opt.wrt_doc._index_if_needed(res_opt, True): logger.error(self._TAG, self.ctx, 'Couldn\'t index source document.', self.create_resolved_entity_async.__name__) return None # Make the top level attribute context for this entity. # for this whole section where we generate the attribute context tree and get resolved attributes # set the flag that keeps all of the parent changes and document dirty from from happening was_resolving = self.ctx.corpus._is_currently_resolving self.ctx.corpus._is_currently_resolving = True ent_name = new_ent_name ctx = self.ctx att_ctx_ent = ctx.corpus.make_object(CdmObjectType.ATTRIBUTE_CONTEXT_DEF, ent_name, True) # type: CdmAttributeContext att_ctx_ent.ctx = ctx att_ctx_ent.in_document = self.in_document # Cheating a bit to put the paths in the right place. acp = AttributeContextParameters() acp._under = att_ctx_ent acp._type = CdmAttributeContextType.ATTRIBUTE_GROUP acp._name = 'attributeContext' att_ctx_ac = CdmAttributeContext._create_child_under(res_opt, acp) acp_ent = AttributeContextParameters() acp_ent._under = att_ctx_ac acp_ent._type = CdmAttributeContextType.ENTITY acp_ent._name = ent_name acp_ent._regarding = ctx.corpus.make_ref(CdmObjectType.ENTITY_REF, self.get_name(), True) # Use this whenever we need to keep references pointing at things that were already found. # Used when 'fixing' references by localizing to a new document. res_opt_copy = CdmObject._copy_resolve_options(res_opt) res_opt_copy._save_resolutions_on_copy = True # Resolve attributes with this context. the end result is that each resolved attribute points to the level of # the context where it was created. ras = self._fetch_resolved_attributes(res_opt_copy, acp_ent) if ras is None: self._resolving_attributes = False return None # Create a new copy of the attribute context for this entity. # TODO: all_att_ctx type ideally should be ordered set all_att_ctx = [] # type: List[CdmAttributeContext] new_node = cast('CdmAttributeContext', att_ctx_ent.copy_node(res_opt)) att_ctx_ent = att_ctx_ent._copy_attribute_context_tree(res_opt, new_node, ras, all_att_ctx, 'resolvedFrom') att_ctx = cast('CdmAttributeContext', cast('CdmAttributeContext', att_ctx_ent.contents[0]).contents[0]) self.ctx.corpus._is_currently_resolving = was_resolving # make a new document in given folder if provided or the same folder as the source entity folder.documents.remove(file_name) doc_res = folder.documents.append(file_name) # add a import of the source document orig_doc = self.ctx.corpus.storage.create_relative_corpus_path(orig_doc, doc_res) # just in case we missed the prefix doc_res.imports.append(orig_doc, "resolvedFrom") # make the empty entity ent_resolved = doc_res.definitions.append(ent_name) # set the context to the copy of the tree. fix the docs on the context nodes ent_resolved.attribute_context = att_ctx def visit_callback(obj: 'CdmObject', path: str) -> bool: obj.in_document = doc_res return False att_ctx.visit('{}/attributeContext/'.format(ent_name), visit_callback, None) # add the traits of the entity rts_ent = self._fetch_resolved_traits(res_opt) for rt in rts_ent.rt_set: trait_ref = CdmObject._resolved_trait_to_trait_ref(res_opt_copy, rt) ent_resolved.exhibits_traits.append(trait_ref) # The attributes have been named, shaped, etc. for this entity so now it is safe to go and make each attribute # context level point at these final versions of attributes. att_path_to_order = {} # type: Dict[str, int] def point_context_at_resolved_atts(ras_sub: 'ResolvedAttributeSet', path: str) -> None: for ra in ras_sub._set: ra_ctx_in_ent = [] # type: List[CdmAttributeContext] ra_ctx_set = ras_sub.rattr_to_attctxset.get(ra) # find the correct attctx for this copy, intersect these two sets # (interate over the shortest list) if len(all_att_ctx) < len(ra_ctx_set): for curr_att_ctx in all_att_ctx: if curr_att_ctx in ra_ctx_set: ra_ctx_in_ent.append(curr_att_ctx) else: for curr_att_ctx in ra_ctx_set: if curr_att_ctx in all_att_ctx: ra_ctx_in_ent.append(curr_att_ctx) for ra_ctx in ra_ctx_in_ent: refs = ra_ctx.contents # there might be more than one explanation for where and attribute came from when things get merges as they do # This won't work when I add the structured attributes to avoid name collisions. att_ref_path = path + ra.resolved_name if isinstance(ra.target, CdmObject): if not att_ref_path in att_path_to_order: att_ref = self.ctx.corpus.make_object(CdmObjectType.ATTRIBUTE_REF, att_ref_path, True) # type: CdmObjectReference # only need one explanation for this path to the insert order att_path_to_order[att_ref.named_reference] = ra.insert_order refs.append(att_ref) else: att_ref_path += '/members/' point_context_at_resolved_atts(cast('ResolvedAttributeSet', ra.target), att_ref_path) point_context_at_resolved_atts(ras, ent_name + '/hasAttributes/') # generated attribute structures may end up with 0 attributes after that. prune them def clean_sub_group(sub_item, under_generated) -> bool: if sub_item.object_type == CdmObjectType.ATTRIBUTE_REF: return True # not empty ac = sub_item # type: CdmAttributeContext if ac.type == CdmAttributeContextType.GENERATED_SET: under_generated = True if not ac.contents: return False # empty # look at all children, make a set to remove to_remove = [] # type: List[CdmAttributeContext] for sub_sub in ac.contents: if not clean_sub_group(sub_sub, under_generated): potential_target = under_generated if not potential_target: # cast is safe because we returned false meaning empty and not a attribute ref # so is this the set holder itself? potential_target = sub_sub.type == CdmAttributeContextType.GENERATED_SET if potential_target: to_remove.append(sub_sub) for to_die in to_remove: ac.contents.remove(to_die) return bool(ac.contents) clean_sub_group(att_ctx, False) # Create an all-up ordering of attributes at the leaves of this tree based on insert order. Sort the attributes # in each context by their creation order and mix that with the other sub-contexts that have been sorted. def get_order_num(item: 'CdmObject') -> int: if item.object_type == CdmObjectType.ATTRIBUTE_CONTEXT_DEF: return order_contents(item) if item.object_type == CdmObjectType.ATTRIBUTE_REF: return att_path_to_order[item.named_reference] # put the mystery item on top. return -1 def order_contents(under: 'CdmAttributeContext') -> int: if under._lowest_order is None: under._lowest_order = -1 if len(under.contents) == 1: under._lowest_order = get_order_num(under.contents[0]) else: def get_and_update_order(item1: 'CdmObject', item2: 'CdmObject'): left_order = get_order_num(item1) right_order = get_order_num(item2) if left_order != -1 and (under._lowest_order == -1 or left_order < under._lowest_order): under._lowest_order = left_order if right_order != -1 and (under._lowest_order == -1 or right_order < under._lowest_order): under._lowest_order = right_order return left_order - right_order under.contents.sort(key=functools.cmp_to_key(get_and_update_order)) return under._lowest_order order_contents(att_ctx) # Resolved attributes can gain traits that are applied to an entity when referenced since these traits are # described in the context, it is redundant and messy to list them in the attribute. So, remove them. Create and # cache a set of names to look for per context. There is actually a hierarchy to this. All attributes from the # base entity should have all traits applied independently of the sub-context they come from. Same is true of # attribute entities. So do this recursively top down. ctx_to_trait_names = {} # type: Dict[CdmAttributeContext, Set[str]] def collect_context_traits(sub_att_ctx: 'CdmAttributeContext', inherited_trait_names: Set[str]) -> None: trait_names_here = set(inherited_trait_names) traits_here = sub_att_ctx.exhibits_traits if traits_here: for tat in traits_here: trait_names_here.add(tat.named_reference) ctx_to_trait_names[sub_att_ctx] = trait_names_here for cr in sub_att_ctx.contents: if cr.object_type == CdmObjectType.ATTRIBUTE_CONTEXT_DEF: # do this for all types? collect_context_traits(cast('CdmAttributeContext', cr), trait_names_here) collect_context_traits(att_ctx, set()) # add the attributes, put them in attribute groups if structure needed. res_att_to_ref_path = {} # type: Dict[ResolvedAttribute, str] def add_attributes(ras_sub: 'ResolvedAttributeSet', container: 'Union[CdmEntityDefinition, CdmAttributeGroupDefinition]', path: str) -> None: for ra in ras_sub._set: att_path = path + ra.resolved_name # use the path of the context associated with this attribute to find the new context that matches on path. ra_ctx_set = ras_sub.rattr_to_attctxset[ra] # find the correct att_ctx for this copy. # ra_ctx = next((ac for ac in all_att_ctx if ac in ra_ctx_set), None) # type: CdmAttributeContext if len(all_att_ctx) < len(ra_ctx_set): for curr_att_ctx in all_att_ctx: if curr_att_ctx in ra_ctx_set: ra_ctx = curr_att_ctx break else: for curr_att_ctx in ra_ctx_set: if curr_att_ctx in all_att_ctx: ra_ctx = curr_att_ctx break if isinstance(ra.target, ResolvedAttributeSet) and cast('ResolvedAttributeSet', ra.target)._set: # this is a set of attributes. Make an attribute group to hold them. att_grp = self.ctx.corpus.make_object(CdmObjectType.ATTRIBUTE_GROUP_DEF, ra.resolved_name) # type: CdmAttributeGroupDefinition att_grp.attribute_context = self.ctx.corpus.make_object(CdmObjectType.ATTRIBUTE_CONTEXT_REF, ra_ctx.at_corpus_path, True) # take any traits from the set and make them look like traits exhibited by the group. avoid_set = ctx_to_trait_names[ra_ctx] rts_att = ra.resolved_traits for rt in rts_att.rt_set: if not rt.trait.ugly: # Don't mention your ugly traits. if not avoid_set or rt.trait_name not in avoid_set: # Avoid the ones from the context. trait_ref = CdmObject._resolved_trait_to_trait_ref(res_opt_copy, rt) cast('CdmObjectDefinition', att_grp).exhibits_traits.append(trait_ref, isinstance(trait_ref, str)) # wrap it in a reference and then recurse with this as the new container. att_grp_ref = self.ctx.corpus.make_object(CdmObjectType.ATTRIBUTE_GROUP_REF, None) # type: CdmAttributeGroupReference att_grp_ref.explicit_reference = att_grp container._add_attribute_def(att_grp_ref) # isn't this where ... add_attributes(cast('ResolvedAttributeSet', ra.target), att_grp, att_path + '/(object)/members/') else: att = self.ctx.corpus.make_object(CdmObjectType.TYPE_ATTRIBUTE_DEF, ra.resolved_name) # type: CdmTypeAttributeDefinition att.attribute_context = self.ctx.corpus.make_object(CdmObjectType.ATTRIBUTE_CONTEXT_REF, ra_ctx.at_corpus_path, True) avoid_set = ctx_to_trait_names[ra_ctx] rts_att = ra.resolved_traits for rt in rts_att.rt_set: if not rt.trait.ugly: # Don't mention your ugly traits. if not avoid_set or rt.trait_name not in avoid_set: # Avoid the ones from the context. trait_ref = CdmObject._resolved_trait_to_trait_ref(res_opt_copy, rt) cast('CdmTypeAttributeDefinition', att).applied_traits.append(trait_ref, isinstance(trait_ref, str)) # none of the dataformat traits have the bit set that will make them turn into a property # this is intentional so that the format traits make it into the resolved object # but, we still want a guess as the data format, so get it and set it. implied_data_format = att.data_format if implied_data_format: att.data_format = implied_data_format container._add_attribute_def(att) res_att_to_ref_path[ra] = att_path add_attributes(ras, ent_resolved, ent_name + '/hasAttributes/') # Any resolved traits that hold arguments with attribute refs should get 'fixed' here. def replace_trait_att_ref(tr: 'CdmTraitReference', entity_hint: str) -> None: if tr.arguments: for arg in tr.arguments: v = arg._unresolved_value or arg.value # Is this an attribute reference? if v and isinstance(v, CdmObject) and cast('CdmObject', v).object_type == CdmObjectType.ATTRIBUTE_REF: # Only try this if the reference has no path to it (only happens with intra-entity att refs). att_ref = cast('CdmAttributeReference', v) if att_ref.named_reference and att_ref.named_reference.find('/') == -1: if not arg._unresolved_value: arg._unresolved_value = arg.value # Give a promise that can be worked out later. # Assumption is that the attribute must come from this entity. new_att_ref = self.ctx.corpus.make_object(CdmObjectType.ATTRIBUTE_REF, entity_hint + '/(resolvedAttributes)/' + att_ref.named_reference, True) # inDocument is not propagated during resolution, so set it here new_att_ref.in_document = arg.in_document arg.set_value(new_att_ref) # Fix entity traits. if ent_resolved.exhibits_traits: for et in ent_resolved.exhibits_traits: replace_trait_att_ref(et, new_ent_name) # Fix context traits. def fix_context_traits(sub_att_ctx: 'CdmAttributeContext', entity_hint: str) -> None: traits_here = sub_att_ctx.exhibits_traits if traits_here: for tr in traits_here: replace_trait_att_ref(tr, entity_hint) for cr in sub_att_ctx.contents: if cr.object_type == CdmObjectType.ATTRIBUTE_CONTEXT_DEF: # If this is a new entity context, get the name to pass along. sub_sub_att_ctx = cast('CdmAttributeContext', cr) sub_entity_hint = entity_hint if sub_sub_att_ctx.type == CdmAttributeContextType.ENTITY: sub_entity_hint = sub_sub_att_ctx.definition.named_reference # Do this for all types. fix_context_traits(sub_sub_att_ctx, sub_entity_hint) fix_context_traits(att_ctx, new_ent_name) # And the attribute traits. ent_atts = ent_resolved.attributes if ent_atts: for attribute in ent_atts: att_traits = attribute.applied_traits if att_traits: for tr in att_traits: replace_trait_att_ref(tr, new_ent_name) # We are about to put this content created in the context of various documents (like references to attributes # from base entities, etc.) into one specific document. All of the borrowed refs need to work. so, re-write all # string references to work from this new document. The catch-22 is that the new document needs these fixes done # before it can be used to make these fixes. The fix needs to happen in the middle of the refresh trigger the # document to refresh current content into the resolved OM. cast('CdmAttributeContext', att_ctx).parent = None # Remove the fake parent that made the paths work. res_opt_new = CdmObject._copy_resolve_options(res_opt) res_opt_new.wrt_doc = doc_res res_opt_new._localize_references_for = doc_res if not await doc_res.refresh_async(res_opt_new): logger.error(self._TAG, self.ctx, 'Failed to index the resolved document.', self.create_resolved_entity_async.__name__) return None # Get a fresh ref. ent_resolved = cast('CdmEntityDefinition', doc_res._fetch_object_from_document_path(ent_name, res_opt_new)) self.ctx.corpus._res_ent_map[self.at_corpus_path] = ent_resolved.at_corpus_path return ent_resolved def _count_inherited_attributes(self, res_opt: Optional['ResolveOptions'] = None) -> int: """Return the count of attibutes inherited by this entity.""" res_opt = res_opt if res_opt is not None else ResolveOptions(wrt_doc=self) # Ensures that cache exits. self._fetch_resolved_attributes(res_opt) return self._rasb.inherited_mark def _fetch_attributes_with_traits(self, res_opt: 'ResolveOptions', query_for: Union['TraitSpec', Iterable['TraitSpec']]) -> 'ResolvedAttributeSet': """Return a set of the entity attributes with traits.""" ras = self._fetch_resolved_attributes(res_opt) return ras.fetch_attributes_with_traits(res_opt, query_for) if ras is not None else None def get_name(self) -> str: return self.entity_name def _fetch_property(self, property_name: str) -> Any: """returns the value direclty assigned to a property (ignore value from traits).""" return self._trait_to_property_map._fetch_property_value(property_name, True) def fetch_resolved_entity_references(self, res_opt: 'ResolveOptions') -> 'ResolvedEntityReferenceSet': # this whole resolved entity ref goo will go away when resolved documents are done. # for now, it breaks if structured att sets get made. from cdm.resolvedmodel import ResolvedEntityReferenceSet from cdm.utilities import AttributeResolutionDirectiveSet from .cdm_object import CdmObject was_previously_resolving = self.ctx.corpus._is_currently_resolving self.ctx.corpus._is_currently_resolving = True if not res_opt: res_opt = ResolveOptions(self, self.ctx.corpus.default_resolution_directives) res_opt = CdmObject._copy_resolve_options(res_opt) res_opt.directives = AttributeResolutionDirectiveSet(set(['normalized', 'referenceOnly'])) ctx = self.ctx ent_ref_set_cache = ctx.fetch_cache(self, res_opt, 'entRefSet') if not ent_ref_set_cache: ent_ref_set_cache = ResolvedEntityReferenceSet(res_opt) if not self._resolving_entity_references: self._resolving_entity_references = True # get from any base class and then 'fix' those to point here instead. ext_ref = self.extends_entity if ext_ref: ext_def = cast('CdmEntityDefinition', ext_ref.fetch_object_definition(res_opt)) if ext_def: inherited = ext_def.fetch_resolved_entity_references(res_opt) if inherited: for res in inherited.rer_set: res = res.copy() res.referencing.entity = self ent_ref_set_cache.rer_set.append(res) if self.attributes: for attribute in self.attributes: # if any refs come back from attributes, they don't know who we are, so they don't set the entity sub = attribute.fetch_resolved_entity_references(res_opt) if sub: for res in sub.rer_set: res.referencing.entity = self ent_ref_set_cache.add(sub) ctx.update_cache(self, res_opt, 'entRefSet', ent_ref_set_cache) self._resolving_entity_references = False self.ctx.corpus._is_currently_resolving = was_previously_resolving return ent_ref_set_cache def is_derived_from(self, base: str, res_opt: Optional['ResolveOptions'] = None) -> bool: res_opt = res_opt if res_opt is not None else ResolveOptions(wrt_doc=self, directives=self.ctx.corpus.default_resolution_directives) return self._is_derived_from_def(res_opt, self.extends_entity, self.get_name(), base) async def _query_on_traits_async(self, query_spec: Union[str, object]) -> Iterable[object]: """Query the manifest for a set of entities that match an input query query_spec = a JSON object (or a string that can be parsed into one) of the form {"entityName":"", "attributes":[{see QueryOnTraits for CdmEntityDefinition for details}]} returns null for 0 results or an array of json objects, each matching the shape of the input query, with entity and attribute names filled in""" return None def validate(self) -> bool: if not bool(self.entity_name): logger.error(self._TAG, self.ctx, Errors.validate_error_string(self.at_corpus_path, ['entity_name'])) return False return True def visit(self, path_from: str, pre_children: 'VisitCallback', post_children: 'VisitCallback') -> bool: path = '' if self.ctx.corpus._block_declared_path_changes is False: path = self._declared_path if not path: path = path_from + self.entity_name self._declared_path = path if pre_children and pre_children(self, path): return False if self.extends_entity and self.extends_entity.visit(path + '/extendsEntity/', pre_children, post_children): return True if self._visit_def(path, pre_children, post_children): return True if self.attribute_context and self.attribute_context.visit(path + '/attributeContext/', pre_children, post_children): return True if self.attributes and self.attributes._visit_array(path + '/hasAttributes/', pre_children, post_children): return True if post_children and post_children(self, path): return True return False
def _construct_resolved_attributes(self, res_opt: 'ResolveOptions', under: Optional['CdmAttributeContext'] = None) -> 'ResolvedAttributeSetBuilder': # find and cache the complete set of attributes # attributes definitions originate from and then get modified by subsequent re-defintions from (in this order): # an extended entity, traits applied to extended entity, exhibited traits of main entity, # the (datatype or entity) used as an attribute, traits applied to that datatype or entity, # the relationsip of the attribute, the attribute definition itself and included attribute groups, # any traits applied to the attribute. from cdm.resolvedmodel import ResolvedAttributeSetBuilder from cdm.utilities import AttributeContextParameters self._rasb = ResolvedAttributeSetBuilder() self._rasb.ras.attribute_context = under if self.extends_entity: ext_ref = self.extends_entity extends_ref_under = None acp_ext_ent = None if under: acp_ext = AttributeContextParameters( under=under, type=CdmAttributeContextType.ENTITY_REFERENCE_EXTENDS, name='extends', regarding=None, include_traits=False) extends_ref_under = self._rasb.ras.create_attribute_context(res_opt, acp_ext) if ext_ref.explicit_reference and ext_ref.fetch_object_definition(res_opt).object_type == CdmObjectType.PROJECTION_DEF: # A Projection ext_ref_obj_def = ext_ref.fetch_object_definition(res_opt) if extends_ref_under: acp_ext_ent = AttributeContextParameters( under=extends_ref_under, type=CdmAttributeContextType.PROJECTION, name=ext_ref_obj_def.get_name(), regarding=ext_ref, include_traits=False ) proj_directive = ProjectionDirective(res_opt, self, ext_ref) proj_def = ext_ref_obj_def proj_ctx = proj_def._construct_projection_context(proj_directive, extends_ref_under) self._rasb.ras = proj_def._extract_resolved_attributes(proj_ctx) else: # An Entity Reference if extends_ref_under: acp_ext_ent = AttributeContextParameters( under=extends_ref_under, type=CdmAttributeContextType.ENTITY, name=ext_ref.named_reference if ext_ref.named_reference else ext_ref.explicit_reference.get_name(), regarding=ext_ref, include_traits=False ) # save moniker, extended entity may attach a different moniker that we do not # want to pass along to getting this entities attributes old_moniker = res_opt._from_moniker self._rasb.merge_attributes(self.extends_entity._fetch_resolved_attributes(res_opt, acp_ext_ent)) if not res_opt._check_attribute_count(self._rasb.ras._resolved_attribute_count): logger.error(self._TAG, self.ctx, 'Maximum number of resolved attributes reached for the entity: {}.'.format(self.entity_name)) return None if self.extends_entity_resolution_guidance: # some guidance was given on how to integrate the base attributes into the set. apply that guidance rts_base = self._fetch_resolved_traits(res_opt) # type: ResolvedTraitSet # this context object holds all of the info about what needs to happen to resolve these attributes. # make a copy and set defaults if needed res_guide = self.extends_entity_resolution_guidance.copy(res_opt) # CdmAttributeResolutionGuidanceDefinition res_guide._update_attribute_defaults(res_guide.fetch_object_definition_name()) # holds all the info needed by the resolver code arc = AttributeResolutionContext(res_opt, res_guide, rts_base) # type: AttributeResolutionContext self._rasb.generate_applier_attributes(arc, False) # true = apply the prepared traits to new atts # reset to the old moniker res_opt._from_moniker = old_moniker self._rasb.mark_inherited() self._rasb.ras.attribute_context = under if self.attributes: for att in self.attributes: acp_att = None if under: acp_att = AttributeContextParameters( under=under, type=CdmAttributeContextType.ATTRIBUTE_DEFINITION, name=att.fetch_object_definition_name(), regarding=att, include_traits=False) self._rasb.merge_attributes(att._fetch_resolved_attributes(res_opt, acp_att)) if not res_opt._check_attribute_count(self._rasb.ras._resolved_attribute_count): logger.error(self._TAG, self.ctx, 'Maximum number of resolved attributes reached for the entity: {}.'.format(self.entity_name)) return None self._rasb.mark_order() self._rasb.ras.attribute_context = under # things that need to go away self._rasb.remove_requested_atts() return self._rasb
def _construct_resolved_attributes( self, res_opt: 'ResolveOptions', under: Optional['CdmAttributeContext'] = None ) -> 'ResolvedAttributeSetBuilder': from cdm.resolvedmodel import AttributeResolutionContext, ResolvedAttribute, ResolvedAttributeSetBuilder, ResolvedTrait from cdm.utilities import AttributeContextParameters, AttributeResolutionDirectiveSet from .cdm_object import CdmObject rasb = ResolvedAttributeSetBuilder() ctx_ent = self.entity under_att = under acp_ent = None if not res_opt._in_circular_reference: arc = self._fetch_att_res_context(res_opt) # complete cheating but is faster. # this purpose will remove all of the attributes that get collected here, so dumb and slow to go get them rel_info = self._get_relationship_info(arc.res_opt, arc) res_opt._depth_info.current_depth = rel_info.next_depth res_opt._depth_info.max_depth_exceeded = rel_info.max_depth_exceeded res_opt._depth_info.max_depth = rel_info.max_depth ctx_ent_obj_def = ctx_ent.fetch_object_definition(res_opt) if ctx_ent_obj_def and ctx_ent_obj_def.object_type == CdmObjectType.PROJECTION_DEF: # A Projection # if the max depth is exceeded it should not try to execute the projection if not res_opt._depth_info.max_depth_exceeded: proj_directive = ProjectionDirective( res_opt, self, ctx_ent) proj_def = ctx_ent_obj_def proj_ctx = proj_def._construct_projection_context( proj_directive, under) rasb._resolved_attribute_set = proj_def._extract_resolved_attributes( proj_ctx, under_att) else: # An Entity Reference if under_att: # make a context for this attribute that holds the attributes that come up from the entity acp_ent = AttributeContextParameters( under=under_att, type=CdmAttributeContextType.ENTITY, name=ctx_ent.fetch_object_definition_name(), regarding=ctx_ent, include_traits=True) if rel_info.is_by_ref: # make the entity context that a real recursion would have give us if under: under = rasb._resolved_attribute_set.create_attribute_context( res_opt, acp_ent) # if selecting from one of many attributes, then make a context for each one if under and rel_info.selects_one: # the right way to do this is to get a resolved entity from the embedded entity and then # look through the attribute context hierarchy for non-nested entityReferenceAsAttribute nodes # that seems like a disaster waiting to happen given endless looping, etc. # for now, just insist that only the top level entity attributes declared in the ref entity will work ent_pick_from = self.entity.fetch_object_definition( res_opt) atts_pick = ent_pick_from.attributes if ent_pick_from and atts_pick: for attribute in atts_pick: if attribute.object_type == CdmObjectType.ENTITY_ATTRIBUTE_DEF: # a table within a table. as expected with a selects_one attribute # since this is by ref, we won't get the atts from the table, but we do need the traits that hold the key # these are the same contexts that would get created if we recursed # first this attribute acp_ent_att = AttributeContextParameters( under=under, type=CdmAttributeContextType. ATTRIBUTE_DEFINITION, name=attribute. fetch_object_definition_name(), regarding=attribute, include_traits=True) pick_under = rasb._resolved_attribute_set.create_attribute_context( res_opt, acp_ent_att) # and the entity under that attribute pick_ent = attribute.entity pick_ent_type = CdmAttributeContextType.PROJECTION if pick_ent.fetch_object_definition( res_opt ).object_type == CdmObjectType.PROJECTION_DEF else CdmAttributeContextType.ENTITY acp_ent_att_ent = AttributeContextParameters( under=pick_under, type=pick_ent_type, name=pick_ent. fetch_object_definition_name(), regarding=pick_ent, include_traits=True) rasb._resolved_attribute_set.create_attribute_context( res_opt, acp_ent_att_ent) # if we got here because of the max depth, need to impose the directives to make the trait work as expected if rel_info.max_depth_exceeded: if not arc.res_opt.directives: arc.res_opt.directives = AttributeResolutionDirectiveSet( ) arc.res_opt.directives.add('referenceOnly') else: res_link = res_opt.copy() res_link._symbol_ref_set = res_opt._symbol_ref_set rasb.merge_attributes( self.entity._fetch_resolved_attributes( res_link, acp_ent)) # need to pass up max_depth_exceeded if it was hit if res_link._depth_info.max_depth_exceeded: res_opt._depth_info = res_link._depth_info._copy() # from the traits of purpose and applied here, see if new attributes get generated rasb._resolved_attribute_set.attribute_context = under_att rasb.apply_traits(arc) rasb.generate_applier_attributes( arc, True) # True = apply the prepared traits to new atts # this may have added symbols to the dependencies, so merge them res_opt._symbol_ref_set._merge(arc.res_opt._symbol_ref_set) # use the traits for linked entity identifiers to record the actual foreign key links if rasb._resolved_attribute_set and rasb._resolved_attribute_set._set and rel_info.is_by_ref: for att in rasb._resolved_attribute_set._set: reqd_trait = att.resolved_traits.find( res_opt, 'is.linkedEntity.identifier') if not reqd_trait: continue if not reqd_trait.parameter_values: logger.warning( self._ctx, self._TAG, CdmEntityAttributeDefinition. _construct_resolved_attributes.__name__, self.at_corpus_path, CdmLogCode. WARN_IDENTIFIER_ARGUMENTS_NOT_SUPPORTED) continue ent_references = [] att_references = [] def add_entity_reference( entity_ref: 'CdmEntityReference', namespace: str): ent_def = entity_ref.fetch_object_definition( res_opt) required_trait = entity_ref._fetch_resolved_traits( res_opt).find(res_opt, 'is.identifiedBy') if required_trait and ent_def: att_ref = required_trait.parameter_values.fetch_parameter_value( 'attribute').value att_name = att_ref.named_reference.split( '/')[-1] absolute_ent_path = self.ctx.corpus.storage.create_absolute_corpus_path( ent_def.at_corpus_path, ent_def.in_document) ent_references.append(absolute_ent_path) att_references.append(att_name) if rel_info.selects_one: ent_pick_from = self.entity.fetch_object_definition( res_opt) atts_pick = ent_pick_from.attributes if ent_pick_from else None if atts_pick: for attribute in atts_pick: if attribute.object_type == CdmObjectType.ENTITY_ATTRIBUTE_DEF: add_entity_reference( attribute.entity, self.in_document.namespace) else: add_entity_reference(self.entity, self.in_document.namespace) c_ent = self.ctx.corpus.make_object( CdmObjectType.CONSTANT_ENTITY_DEF) c_ent.entity_shape = self.ctx.corpus.make_ref( CdmObjectType.ENTITY_REF, 'entityGroupSet', True) c_ent.constant_values = [[ entity_ref, att_references[idx] ] for idx, entity_ref in enumerate(ent_references)] param = self.ctx.corpus.make_ref( CdmObjectType.ENTITY_REF, c_ent, False) reqd_trait.parameter_values.update_parameter_value( res_opt, 'entityReferences', param) # a 'structured' directive wants to keep all entity attributes together in a group if arc and arc.res_opt.directives and arc.res_opt.directives.has( 'structured'): # make one resolved attribute with a name from this entityAttribute that contains the set # of atts we just put together. ra_sub = ResolvedAttribute(arc.traits_to_apply.res_opt, rasb._resolved_attribute_set, self.name, under_att) if rel_info.is_array: # put a resolved trait on this att group # hope I never need to do this again and then need to make a function for this tr = self.ctx.corpus.make_object( CdmObjectType.TRAIT_REF, 'is.linkedEntity.array', True) t = tr.fetch_object_definition(res_opt) rt = ResolvedTrait(t, None, [], []) ra_sub.resolved_traits = ra_sub.resolved_traits.merge( rt, True) depth = rasb._resolved_attribute_set._depth_traveled rasb = ResolvedAttributeSetBuilder() rasb._resolved_attribute_set.attribute_context = ra_sub.att_ctx # this got set to null with the new builder rasb.own_one(ra_sub) rasb._resolved_attribute_set._depth_traveled = depth # how ever they got here, mark every attribute from this entity attribute as now being 'owned' by this entityAtt rasb._resolved_attribute_set._set_attribute_ownership(self.name) rasb._resolved_attribute_set._depth_traveled += 1 return rasb
def _construct_resolved_attributes( self, res_opt: 'ResolveOptions', under: Optional['CdmAttributeContext'] = None ) -> 'ResolvedAttributeSetBuilder': # find and cache the complete set of attributes # attributes definitions originate from and then get modified by subsequent re-defintions from (in this order): # an extended entity, traits applied to extended entity, exhibited traits of main entity, # the (datatype or entity) used as an attribute, traits applied to that datatype or entity, # the relationsip of the attribute, the attribute definition itself and included attribute groups, # any traits applied to the attribute. from cdm.resolvedmodel import ResolvedAttributeSetBuilder from cdm.utilities import AttributeContextParameters self.rasb = ResolvedAttributeSetBuilder() self.rasb.ras.attribute_context = under if self.extends_entity: ext_ref = self.extends_entity extends_ref_under = None acp_ext_ent = None if under: acp_ext = AttributeContextParameters( under=under, type=CdmAttributeContextType.ENTITY_REFERENCE_EXTENDS, name='extends', regarding=None, include_traits=False) extends_ref_under = self.rasb.ras.create_attribute_context( res_opt, acp_ext) acp_ext_ent = AttributeContextParameters( under=extends_ref_under, type=CdmAttributeContextType.ENTITY, name=ext_ref.named_reference, regarding=ext_ref, include_traits=False) # save moniker, extended entity may attach a different moniker that we do not # want to pass along to getting this entities attributes old_moniker = res_opt._from_moniker self.rasb.merge_attributes( self.extends_entity._fetch_resolved_attributes( res_opt, acp_ext_ent)) # reset to the old moniker res_opt._from_moniker = old_moniker self.rasb.mark_inherited() self.rasb.ras.attribute_context = under if self.attributes: for att in self.attributes: acp_att = None if under: acp_att = AttributeContextParameters( under=under, type=CdmAttributeContextType.ATTRIBUTE_DEFINITION, name=att.fetch_object_definition_name(), regarding=att, include_traits=False) self.rasb.merge_attributes( att._fetch_resolved_attributes(res_opt, acp_att)) self.rasb.mark_order() self.rasb.ras.attribute_context = under # things that need to go away self.rasb.remove_requested_atts() return self.rasb