"""
Classes to provide the LMS runtime data storage to XBlocks.
:class:`DjangoKeyValueStore`: An XBlock :class:`~KeyValueStore` which
stores a subset of xblocks scopes as Django ORM objects. It wraps
:class:`~FieldDataCache` to provide an XBlock-friendly interface.
:class:`FieldDataCache`: A object which provides a read-through prefetch cache
of data to support XBlock fields within a limited set of scopes.
The remaining classes in this module provide read-through prefetch cache implementations
for specific scopes. The individual classes provide the knowledge of what are the essential
pieces of information for each scope, and thus how to cache, prefetch, and create new field data
entries.
UserStateCache: A cache for Scope.user_state
UserStateSummaryCache: A cache for Scope.user_state_summary
PreferencesCache: A cache for Scope.preferences
UserInfoCache: A cache for Scope.user_info
DjangoOrmFieldCache: A base-class for single-row-per-field caches.
"""
import json
from abc import abstractmethod, ABCMeta
from collections import defaultdict, namedtuple
from .models import (
StudentModule,
XModuleUserStateSummaryField,
XModuleStudentPrefsField,
XModuleStudentInfoField
)
import logging
from opaque_keys.edx.keys import CourseKey, UsageKey
from opaque_keys.edx.block_types import BlockTypeKeyV1
from opaque_keys.edx.asides import AsideUsageKeyV1
from contracts import contract, new_contract
from django.db import DatabaseError
from xblock.runtime import KeyValueStore
from xblock.exceptions import KeyValueMultiSaveError, InvalidScopeError
from xblock.fields import Scope, UserScope
from xmodule.modulestore.django import modulestore
from xblock.core import XBlockAside
from courseware.user_state_client import DjangoXBlockUserStateClient
log = logging.getLogger(__name__)
class InvalidWriteError(Exception):
"""
Raised to indicate that writing to a particular key
in the KeyValueStore is disabled
"""
def _all_usage_keys(descriptors, aside_types):
"""
Return a set of all usage_ids for the `descriptors` and for
as all asides in `aside_types` for those descriptors.
"""
usage_ids = set()
for descriptor in descriptors:
usage_ids.add(descriptor.scope_ids.usage_id)
for aside_type in aside_types:
usage_ids.add(AsideUsageKeyV1(descriptor.scope_ids.usage_id, aside_type))
return usage_ids
def _all_block_types(descriptors, aside_types):
"""
Return a set of all block_types for the supplied `descriptors` and for
the asides types in `aside_types` associated with those descriptors.
"""
block_types = set()
for descriptor in descriptors:
block_types.add(BlockTypeKeyV1(descriptor.entry_point, descriptor.scope_ids.block_type))
for aside_type in aside_types:
block_types.add(BlockTypeKeyV1(XBlockAside.entry_point, aside_type))
return block_types
class DjangoKeyValueStore(KeyValueStore):
"""
This KeyValueStore will read and write data in the following scopes to django models
Scope.user_state_summary
Scope.user_state
Scope.preferences
Scope.user_info
Access to any other scopes will raise an InvalidScopeError
Data for Scope.user_state is stored as StudentModule objects via the django orm.
Data for the other scopes is stored in individual objects that are named for the
scope involved and have the field name as a key
If the key isn't found in the expected table during a read or a delete, then a KeyError will be raised
"""
_allowed_scopes = (
Scope.user_state_summary,
Scope.user_state,
Scope.preferences,
Scope.user_info,
)
def __init__(self, field_data_cache):
self._field_data_cache = field_data_cache
def get(self, key):
self._raise_unless_scope_is_allowed(key)
return self._field_data_cache.get(key)
def set(self, key, value):
"""
Set a single value in the KeyValueStore
"""
self.set_many({key: value})
def set_many(self, kv_dict):
"""
Provide a bulk save mechanism.
`kv_dict`: A dictionary of dirty fields that maps
xblock.KvsFieldData._key : value
"""
for key in kv_dict:
# Check key for validity
self._raise_unless_scope_is_allowed(key)
self._field_data_cache.set_many(kv_dict)
def delete(self, key):
self._raise_unless_scope_is_allowed(key)
self._field_data_cache.delete(key)
def has(self, key):
self._raise_unless_scope_is_allowed(key)
return self._field_data_cache.has(key)
def _raise_unless_scope_is_allowed(self, key):
"""Raise an InvalidScopeError if key.scope is not in self._allowed_scopes."""
if key.scope not in self._allowed_scopes:
raise InvalidScopeError(key, self._allowed_scopes)
new_contract("DjangoKeyValueStore", DjangoKeyValueStore)
new_contract("DjangoKeyValueStore_Key", DjangoKeyValueStore.Key)
class DjangoOrmFieldCache(object):
"""
Baseclass for Scope-specific field cache objects that are based on
single-row-per-field Django ORM objects.
"""
__metaclass__ = ABCMeta
def __init__(self):
self._cache = {}
def cache_fields(self, fields, xblocks, aside_types):
"""
Load all fields specified by ``fields`` for the supplied ``xblocks``
and ``aside_types`` into this cache.
Arguments:
fields (list of str): Field names to cache.
xblocks (list of :class:`XBlock`): XBlocks to cache fields for.
aside_types (list of str): Aside types to cache fields for.
"""
for field_object in self._read_objects(fields, xblocks, aside_types):
self._cache[self._cache_key_for_field_object(field_object)] = field_object
@contract(kvs_key=DjangoKeyValueStore.Key)
def get(self, kvs_key):
"""
Return the django model object specified by `kvs_key` from
the cache.
Arguments:
kvs_key (`DjangoKeyValueStore.Key`): The field value to delete
Returns: A django orm object from the cache
"""
cache_key = self._cache_key_for_kvs_key(kvs_key)
if cache_key not in self._cache:
raise KeyError(kvs_key.field_name)
field_object = self._cache[cache_key]
return json.loads(field_object.value)
@contract(kvs_key=DjangoKeyValueStore.Key)
def set(self, kvs_key, value):
"""
Set the specified `kvs_key` to the field value `value`.
Arguments:
kvs_key (`DjangoKeyValueStore.Key`): The field value to delete
value: The field value to store
"""
self.set_many({kvs_key: value})
@contract(kv_dict="dict(DjangoKeyValueStore_Key: *)")
def set_many(self, kv_dict):
"""
Set the specified fields to the supplied values.
Arguments:
kv_dict (dict): A dictionary mapping :class:`~DjangoKeyValueStore.Key`
objects to values to set.
"""
saved_fields = []
for kvs_key, value in sorted(kv_dict.items()):
cache_key = self._cache_key_for_kvs_key(kvs_key)
field_object = self._cache.get(cache_key)
try:
serialized_value = json.dumps(value)
# It is safe to force an insert or an update, because
# a) we should have retrieved the object as part of the
# prefetch step, so if it isn't in our cache, it doesn't exist yet.
# b) no other code should be modifying these models out of band of
# this cache.
if field_object is None:
field_object = self._create_object(kvs_key, serialized_value)
field_object.save(force_insert=True)
self._cache[cache_key] = field_object
else:
field_object.value = serialized_value
field_object.save(force_update=True)
except DatabaseError:
log.exception("Saving field %r failed", kvs_key.field_name)
raise KeyValueMultiSaveError(saved_fields)
finally:
saved_fields.append(kvs_key.field_name)
@contract(kvs_key=DjangoKeyValueStore.Key)
def delete(self, kvs_key):
"""
Delete the value specified by `kvs_key`.
Arguments:
kvs_key (`DjangoKeyValueStore.Key`): The field value to delete
Raises: KeyError if key isn't found in the cache
"""
cache_key = self._cache_key_for_kvs_key(kvs_key)
field_object = self._cache.get(cache_key)
if field_object is None:
raise KeyError(kvs_key.field_name)
field_object.delete()
del self._cache[cache_key]
@contract(kvs_key=DjangoKeyValueStore.Key, returns=bool)
def has(self, kvs_key):
"""
Return whether the specified `kvs_key` is set.
Arguments:
kvs_key (`DjangoKeyValueStore.Key`): The field value to delete
Returns: bool
"""
return self._cache_key_for_kvs_key(kvs_key) in self._cache
@contract(kvs_key=DjangoKeyValueStore.Key, returns="datetime|None")
def last_modified(self, kvs_key):
"""
Return when the supplied field was changed.
Arguments:
kvs_key (`DjangoKeyValueStore.Key`): The field value to delete
Returns: datetime if there was a modified date, or None otherwise
"""
field_object = self._cache.get(self._cache_key_for_kvs_key(kvs_key))
if field_object is None:
return None
else:
return field_object.modified
def __len__(self):
return len(self._cache)
@abstractmethod
def _create_object(self, kvs_key, value):
"""
Create a new object to add to the cache (which should record
the specified field ``value`` for the field identified by
``kvs_key``).
Arguments:
kvs_key (:class:`DjangoKeyValueStore.Key`): Which field to create an entry for
value: What value to record in the field
"""
raise NotImplementedError()
@abstractmethod
def _read_objects(self, fields, xblocks, aside_types):
"""
Return an iterator for all objects stored in the underlying datastore
for the ``fields`` on the ``xblocks`` and the ``aside_types`` associated
with them.
Arguments:
fields (list of str): Field names to return values for
xblocks (list of :class:`~XBlock`): XBlocks to load fields for
aside_types (list of str): Asides to load field for (which annotate the supplied
xblocks).
"""
raise NotImplementedError()
@abstractmethod
def _cache_key_for_field_object(self, field_object):
"""
Return the key used in this DjangoOrmFieldCache to store the specified field_object.
Arguments:
field_object: A Django model instance that stores the data for fields in this cache
"""
raise NotImplementedError()
@abstractmethod
def _cache_key_for_kvs_key(self, key):
"""
Return the key used in this DjangoOrmFieldCache for the specified KeyValueStore key.
Arguments:
key (:class:`~DjangoKeyValueStore.Key`): The key representing the cached field
"""
raise NotImplementedError()
class UserStateCache(object):
"""
Cache for Scope.user_state xblock field data.
"""
def __init__(self, user, course_id):
self._cache = defaultdict(dict)
self.course_id = course_id
self.user = user
self._client = DjangoXBlockUserStateClient(self.user)
def cache_fields(self, fields, xblocks, aside_types): # pylint: disable=unused-argument
"""
Load all fields specified by ``fields`` for the supplied ``xblocks``
and ``aside_types`` into this cache.
Arguments:
fields (list of str): Field names to cache.
xblocks (list of :class:`XBlock`): XBlocks to cache fields for.
aside_types (list of str): Aside types to cache fields for.
"""
block_field_state = self._client.get_many(
self.user.username,
_all_usage_keys(xblocks, aside_types),
)
for user_state in block_field_state:
self._cache[user_state.block_key] = user_state.state
@contract(kvs_key=DjangoKeyValueStore.Key)
def set(self, kvs_key, value):
"""
Set the specified `kvs_key` to the field value `value`.
Arguments:
kvs_key (`DjangoKeyValueStore.Key`): The field value to delete
value: The field value to store
"""
self.set_many({kvs_key: value})
@contract(kvs_key=DjangoKeyValueStore.Key, returns="datetime|None")
def last_modified(self, kvs_key):
"""
Return when the supplied field was changed.
Arguments:
kvs_key (`DjangoKeyValueStore.Key`): The key representing the cached field
Returns: datetime if there was a modified date, or None otherwise
"""
try:
return self._client.get(
self.user.username,
kvs_key.block_scope_id,
fields=[kvs_key.field_name],
).updated
except self._client.DoesNotExist:
return None
@contract(kv_dict="dict(DjangoKeyValueStore_Key: *)")
def set_many(self, kv_dict):
"""
Set the specified fields to the supplied values.
Arguments:
kv_dict (dict): A dictionary mapping :class:`~DjangoKeyValueStore.Key`
objects to values to set.
"""
pending_updates = defaultdict(dict)
for kvs_key, value in kv_dict.items():
cache_key = self._cache_key_for_kvs_key(kvs_key)
pending_updates[cache_key][kvs_key.field_name] = value
try:
self._client.set_many(
self.user.username,
pending_updates
)
except DatabaseError:
log.exception("Saving user state failed for %s", self.user.username)
raise KeyValueMultiSaveError([])
finally:
self._cache.update(pending_updates)
@contract(kvs_key=DjangoKeyValueStore.Key)
def get(self, kvs_key):
"""
Return the django model object specified by `kvs_key` from
the cache.
Arguments:
kvs_key (`DjangoKeyValueStore.Key`): The field value to delete
Returns: A django orm object from the cache
"""
cache_key = self._cache_key_for_kvs_key(kvs_key)
if cache_key not in self._cache:
raise KeyError(kvs_key.field_name)
return self._cache[cache_key][kvs_key.field_name]
@contract(kvs_key=DjangoKeyValueStore.Key)
def delete(self, kvs_key):
"""
Delete the value specified by `kvs_key`.
Arguments:
kvs_key (`DjangoKeyValueStore.Key`): The field value to delete
Raises: KeyError if key isn't found in the cache
"""
cache_key = self._cache_key_for_kvs_key(kvs_key)
if cache_key not in self._cache:
raise KeyError(kvs_key.field_name)
field_state = self._cache[cache_key]
if kvs_key.field_name not in field_state:
raise KeyError(kvs_key.field_name)
self._client.delete(self.user.username, cache_key, fields=[kvs_key.field_name])
del field_state[kvs_key.field_name]
@contract(kvs_key=DjangoKeyValueStore.Key, returns=bool)
def has(self, kvs_key):
"""
Return whether the specified `kvs_key` is set.
Arguments:
kvs_key (`DjangoKeyValueStore.Key`): The field value to delete
Returns: bool
"""
cache_key = self._cache_key_for_kvs_key(kvs_key)
return (
cache_key in self._cache and
kvs_key.field_name in self._cache[cache_key]
)
def __len__(self):
return len(self._cache)
def _cache_key_for_kvs_key(self, key):
"""
Return the key used in this DjangoOrmFieldCache for the specified KeyValueStore key.
Arguments:
key (:class:`~DjangoKeyValueStore.Key`): The key representing the cached field
"""
return key.block_scope_id
class UserStateSummaryCache(DjangoOrmFieldCache):
"""
Cache for Scope.user_state_summary xblock field data.
"""
def __init__(self, course_id):
super(UserStateSummaryCache, self).__init__()
self.course_id = course_id
def _create_object(self, kvs_key, value):
"""
Create a new object to add to the cache (which should record
the specified field ``value`` for the field identified by
``kvs_key``).
Arguments:
kvs_key (:class:`DjangoKeyValueStore.Key`): Which field to create an entry for
value: The value to assign to the new field object
"""
return XModuleUserStateSummaryField(
field_name=kvs_key.field_name,
usage_id=kvs_key.block_scope_id,
value=value,
)
def _read_objects(self, fields, xblocks, aside_types):
"""
Return an iterator for all objects stored in the underlying datastore
for the ``fields`` on the ``xblocks`` and the ``aside_types`` associated
with them.
Arguments:
fields (list of :class:`~Field`): Fields to return values for
xblocks (list of :class:`~XBlock`): XBlocks to load fields for
aside_types (list of str): Asides to load field for (which annotate the supplied
xblocks).
"""
return XModuleUserStateSummaryField.objects.chunked_filter(
'usage_id__in',
_all_usage_keys(xblocks, aside_types),
field_name__in=set(field.name for field in fields),
)
def _cache_key_for_field_object(self, field_object):
"""
Return the key used in this DjangoOrmFieldCache to store the specified field_object.
Arguments:
field_object: A Django model instance that stores the data for fields in this cache
"""
return (field_object.usage_id.map_into_course(self.course_id), field_object.field_name)
def _cache_key_for_kvs_key(self, key):
"""
Return the key used in this DjangoOrmFieldCache for the specified KeyValueStore key.
Arguments:
key (:class:`~DjangoKeyValueStore.Key`): The key representing the cached field
"""
return (key.block_scope_id, key.field_name)
class PreferencesCache(DjangoOrmFieldCache):
"""
Cache for Scope.preferences xblock field data.
"""
def __init__(self, user):
super(PreferencesCache, self).__init__()
self.user = user
def _create_object(self, kvs_key, value):
"""
Create a new object to add to the cache (which should record
the specified field ``value`` for the field identified by
``kvs_key``).
Arguments:
kvs_key (:class:`DjangoKeyValueStore.Key`): Which field to create an entry for
value: The value to assign to the new field object
"""
return XModuleStudentPrefsField(
field_name=kvs_key.field_name,
module_type=BlockTypeKeyV1(kvs_key.block_family, kvs_key.block_scope_id),
student_id=kvs_key.user_id,
value=value,
)
def _read_objects(self, fields, xblocks, aside_types):
"""
Return an iterator for all objects stored in the underlying datastore
for the ``fields`` on the ``xblocks`` and the ``aside_types`` associated
with them.
Arguments:
fields (list of str): Field names to return values for
xblocks (list of :class:`~XBlock`): XBlocks to load fields for
aside_types (list of str): Asides to load field for (which annotate the supplied
xblocks).
"""
return XModuleStudentPrefsField.objects.chunked_filter(
'module_type__in',
_all_block_types(xblocks, aside_types),
student=self.user.pk,
field_name__in=set(field.name for field in fields),
)
def _cache_key_for_field_object(self, field_object):
"""
Return the key used in this DjangoOrmFieldCache to store the specified field_object.
Arguments:
field_object: A Django model instance that stores the data for fields in this cache
"""
return (field_object.module_type, field_object.field_name)
def _cache_key_for_kvs_key(self, key):
"""
Return the key used in this DjangoOrmFieldCache for the specified KeyValueStore key.
Arguments:
key (:class:`~DjangoKeyValueStore.Key`): The key representing the cached field
"""
return (BlockTypeKeyV1(key.block_family, key.block_scope_id), key.field_name)
class UserInfoCache(DjangoOrmFieldCache):
"""
Cache for Scope.user_info xblock field data
"""
def __init__(self, user):
super(UserInfoCache, self).__init__()
self.user = user
def _create_object(self, kvs_key, value):
"""
Create a new object to add to the cache (which should record
the specified field ``value`` for the field identified by
``kvs_key``).
Arguments:
kvs_key (:class:`DjangoKeyValueStore.Key`): Which field to create an entry for
value: The value to assign to the new field object
"""
return XModuleStudentInfoField(
field_name=kvs_key.field_name,
student_id=kvs_key.user_id,
value=value,
)
def _read_objects(self, fields, xblocks, aside_types):
"""
Return an iterator for all objects stored in the underlying datastore
for the ``fields`` on the ``xblocks`` and the ``aside_types`` associated
with them.
Arguments:
fields (list of str): Field names to return values for
xblocks (list of :class:`~XBlock`): XBlocks to load fields for
aside_types (list of str): Asides to load field for (which annotate the supplied
xblocks).
"""
return XModuleStudentInfoField.objects.filter(
student=self.user.pk,
field_name__in=set(field.name for field in fields),
)
def _cache_key_for_field_object(self, field_object):
"""
Return the key used in this DjangoOrmFieldCache to store the specified field_object.
Arguments:
field_object: A Django model instance that stores the data for fields in this cache
"""
return field_object.field_name
def _cache_key_for_kvs_key(self, key):
"""
Return the key used in this DjangoOrmFieldCache for the specified KeyValueStore key.
Arguments:
key (:class:`~DjangoKeyValueStore.Key`): The key representing the cached field
"""
return key.field_name
class FieldDataCache(object):
"""
A cache of django model objects needed to supply the data
for a module and its descendants
"""
def __init__(self, descriptors, course_id, user, select_for_update=False, asides=None):
"""
Find any courseware.models objects that are needed by any descriptor
in descriptors. Attempts to minimize the number of queries to the database.
Note: Only modules that have store_state = True or have shared
state will have a StudentModule.
Arguments
descriptors: A list of XModuleDescriptors.
course_id: The id of the current course
user: The user for which to cache data
select_for_update: Ignored
asides: The list of aside types to load, or None to prefetch no asides.
"""
if asides is None:
self.asides = []
else:
self.asides = asides
assert isinstance(course_id, CourseKey)
self.course_id = course_id
self.user = user
self.cache = {
Scope.user_state: UserStateCache(
self.user,
self.course_id,
),
Scope.user_info: UserInfoCache(
self.user,
),
Scope.preferences: PreferencesCache(
self.user,
),
Scope.user_state_summary: UserStateSummaryCache(
self.course_id,
),
}
self.scorable_locations = set()
self.add_descriptors_to_cache(descriptors)
def add_descriptors_to_cache(self, descriptors):
"""
Add all `descriptors` to this FieldDataCache.
"""
if self.user.is_authenticated():
self.scorable_locations.update(desc.location for desc in descriptors if desc.has_score)
for scope, fields in self._fields_to_cache(descriptors).items():
if scope not in self.cache:
continue
self.cache[scope].cache_fields(fields, descriptors, self.asides)
def add_descriptor_descendents(self, descriptor, depth=None, descriptor_filter=lambda descriptor: True):
"""
Add all descendants of `descriptor` to this FieldDataCache.
Arguments:
descriptor: An XModuleDescriptor
depth is the number of levels of descendant modules to load StudentModules for, in addition to
the supplied descriptor. If depth is None, load all descendant StudentModules
descriptor_filter is a function that accepts a descriptor and return whether the field data
should be cached
"""
def get_child_descriptors(descriptor, depth, descriptor_filter):
"""
Return a list of all child descriptors down to the specified depth
that match the descriptor filter. Includes `descriptor`
descriptor: The parent to search inside
depth: The number of levels to descend, or None for infinite depth
descriptor_filter(descriptor): A function that returns True
if descriptor should be included in the results
"""
if descriptor_filter(descriptor):
descriptors = [descriptor]
else:
descriptors = []
if depth is None or depth > 0:
new_depth = depth - 1 if depth is not None else depth
for child in descriptor.get_children() + descriptor.get_required_module_descriptors():
descriptors.extend(get_child_descriptors(child, new_depth, descriptor_filter))
return descriptors
with modulestore().bulk_operations(descriptor.location.course_key):
descriptors = get_child_descriptors(descriptor, depth, descriptor_filter)
self.add_descriptors_to_cache(descriptors)
@classmethod
def cache_for_descriptor_descendents(cls, course_id, user, descriptor, depth=None,
descriptor_filter=lambda descriptor: True,
select_for_update=False, asides=None):
"""
course_id: the course in the context of which we want StudentModules.
user: the django user for whom to load modules.
descriptor: An XModuleDescriptor
depth is the number of levels of descendant modules to load StudentModules for, in addition to
the supplied descriptor. If depth is None, load all descendant StudentModules
descriptor_filter is a function that accepts a descriptor and return whether the field data
should be cached
select_for_update: Ignored
"""
cache = FieldDataCache([], course_id, user, select_for_update, asides=asides)
cache.add_descriptor_descendents(descriptor, depth, descriptor_filter)
return cache
def _fields_to_cache(self, descriptors):
"""
Returns a map of scopes to fields in that scope that should be cached
"""
scope_map = defaultdict(set)
for descriptor in descriptors:
for field in descriptor.fields.values():
scope_map[field.scope].add(field)
return scope_map
@contract(key=DjangoKeyValueStore.Key)
def get(self, key):
"""
Load the field value specified by `key`.
Arguments:
key (`DjangoKeyValueStore.Key`): The field value to load
Returns: The found value
Raises: KeyError if key isn't found in the cache
"""
if key.scope.user == UserScope.ONE and not self.user.is_anonymous():
# If we're getting user data, we expect that the key matches the
# user we were constructed for.
assert key.user_id == self.user.id
if key.scope not in self.cache:
raise KeyError(key.field_name)
return self.cache[key.scope].get(key)
@contract(kv_dict="dict(DjangoKeyValueStore_Key: *)")
def set_many(self, kv_dict):
"""
Set all of the fields specified by the keys of `kv_dict` to the values
in that dict.
Arguments:
kv_dict (dict): dict mapping from `DjangoKeyValueStore.Key`s to field values
Raises: DatabaseError if any fields fail to save
"""
saved_fields = []
by_scope = defaultdict(dict)
for key, value in kv_dict.iteritems():
if key.scope.user == UserScope.ONE and not self.user.is_anonymous():
# If we're getting user data, we expect that the key matches the
# user we were constructed for.
assert key.user_id == self.user.id
if key.scope not in self.cache:
continue
by_scope[key.scope][key] = value
for scope, set_many_data in by_scope.iteritems():
try:
self.cache[scope].set_many(set_many_data)
# If save is successful on these fields, add it to
# the list of successful saves
saved_fields.extend(key.field_name for key in set_many_data)
except KeyValueMultiSaveError as exc:
log.exception('Error saving fields %r', [key.field_name for key in set_many_data])
raise KeyValueMultiSaveError(saved_fields + exc.saved_field_names)
@contract(key=DjangoKeyValueStore.Key)
def delete(self, key):
"""
Delete the value specified by `key`.
Arguments:
key (`DjangoKeyValueStore.Key`): The field value to delete
Raises: KeyError if key isn't found in the cache
"""
if key.scope.user == UserScope.ONE and not self.user.is_anonymous():
# If we're getting user data, we expect that the key matches the
# user we were constructed for.
assert key.user_id == self.user.id
if key.scope not in self.cache:
raise KeyError(key.field_name)
self.cache[key.scope].delete(key)
@contract(key=DjangoKeyValueStore.Key, returns=bool)
def has(self, key):
"""
Return whether the specified `key` is set.
Arguments:
key (`DjangoKeyValueStore.Key`): The field value to delete
Returns: bool
"""
if key.scope.user == UserScope.ONE and not self.user.is_anonymous():
# If we're getting user data, we expect that the key matches the
# user we were constructed for.
assert key.user_id == self.user.id
if key.scope not in self.cache:
return False
return self.cache[key.scope].has(key)
@contract(key=DjangoKeyValueStore.Key, returns="datetime|None")
def last_modified(self, key):
"""
Return when the supplied field was changed.
Arguments:
key (`DjangoKeyValueStore.Key`): The field value to delete
Returns: datetime if there was a modified date, or None otherwise
"""
if key.scope.user == UserScope.ONE and not self.user.is_anonymous():
# If we're getting user data, we expect that the key matches the
# user we were constructed for.
assert key.user_id == self.user.id
if key.scope not in self.cache:
return None
return self.cache[key.scope].last_modified(key)
def __len__(self):
return sum(len(cache) for cache in self.cache.values())
class ScoresClient(object):
"""
Basic client interface for retrieving Score information.
Eventually, this should read and write scores, but at the moment it only
handles the read side of things.
"""
Score = namedtuple('Score', 'correct total')
def __init__(self, course_key, user_id):
self.course_key = course_key
self.user_id = user_id
self._locations_to_scores = {}
self._has_fetched = False
def __contains__(self, location):
"""Return True if we have a score for this location."""
return location in self._locations_to_scores
def fetch_scores(self, locations):
"""Grab score information."""
scores_qset = StudentModule.objects.filter(
student_id=self.user_id,
course_id=self.course_key,
module_state_key__in=set(locations),
)
# Locations in StudentModule don't necessarily have course key info
# attached to them (since old mongo identifiers don't include runs).
# So we have to add that info back in before we put it into our lookup.
self._locations_to_scores.update({
UsageKey.from_string(location).map_into_course(self.course_key): self.Score(correct, total)
for location, correct, total
in scores_qset.values_list('module_state_key', 'grade', 'max_grade')
})
self._has_fetched = True
def get(self, location):
"""
Get the score for a given location, if it exists.
If we don't have a score for that location, return `None`. Note that as
convention, you should be passing in a location with full course run
information.
"""
if not self._has_fetched:
raise ValueError(
"Tried to fetch location {} from ScoresClient before fetch_scores() has run."
.format(location)
)
return self._locations_to_scores.get(location.replace(version=None, branch=None))
@classmethod
def create_for_locations(cls, course_id, user_id, scorable_locations):
"""Create a ScoresClient with pre-fetched data for the given locations."""
client = cls(course_id, user_id)
client.fetch_scores(scorable_locations)
return client
# @contract(user_id=int, usage_key=UsageKey, score="number|None", max_score="number|None")
def set_score(user_id, usage_key, score, max_score):
"""
Set the score and max_score for the specified user and xblock usage.
"""
student_module, created = StudentModule.objects.get_or_create(
student_id=user_id,
module_state_key=usage_key,
course_id=usage_key.course_key,
defaults={
'grade': score,
'max_grade': max_score,
}
)
if not created:
student_module.grade = score
student_module.max_grade = max_score
student_module.save()