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edx-platform
Commit a4ed24bd by ihoover
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Merge branch 'master' into ihoover/feature_flag_auto_auth

parents d7de0944 679b118e
Showing with 5696 additions and 66 deletions
cms/djangoapps/contentstore/features/checklists.feature
......@@ -10,6 +10,7 @@ Feature: Course checklists
Then I can check and uncheck tasks in a checklist
And They are correctly selected after I reload the page
@skip
Scenario: A task can link to a location within Studio
Given I have opened Checklists
When I select a link to the course outline
......
cms/djangoapps/contentstore/features/common.py
......@@ -209,7 +209,8 @@ def i_created_a_video_component(step):
world.create_component_instance(
step, '.large-video-icon',
'video',
'.xmodule_VideoModule'
'.xmodule_VideoModule',
has_multiple_templates=False
)
......
cms/djangoapps/contentstore/features/component_settings_editor_helpers.py
......@@ -7,10 +7,16 @@ from terrain.steps import reload_the_page
@world.absorb
def create_component_instance(step, component_button_css, category, expected_css, boilerplate=None):
def create_component_instance(step, component_button_css, category,
expected_css, boilerplate=None,
has_multiple_templates=True):
click_new_component_button(step, component_button_css)
click_component_from_menu(category, boilerplate, expected_css)
if has_multiple_templates:
click_component_from_menu(category, boilerplate, expected_css)
assert_equal(1, len(world.css_find(expected_css)))
@world.absorb
def click_new_component_button(step, component_button_css):
......@@ -34,7 +40,6 @@ def click_component_from_menu(category, boilerplate, expected_css):
elements = world.css_find(elem_css)
assert_equal(len(elements), 1)
world.css_click(elem_css)
assert_equal(1, len(world.css_find(expected_css)))
@world.absorb
......
cms/djangoapps/contentstore/features/discussion-editor.py
......@@ -9,7 +9,8 @@ def i_created_discussion_tag(step):
world.create_component_instance(
step, '.large-discussion-icon',
'discussion',
'.xmodule_DiscussionModule'
'.xmodule_DiscussionModule',
has_multiple_templates=False
)
......
cms/djangoapps/contentstore/features/problem-editor.py
......@@ -170,7 +170,8 @@ def edit_latex_source(step):
@step('my change to the High Level Source is persisted')
def high_level_source_persisted(step):
def verify_text(driver):
return world.css_text('.problem') == 'hi'
css_sel = '.problem div>span'
return world.css_text(css_sel) == 'hi'
world.wait_for(verify_text)
......
cms/djangoapps/contentstore/tests/test_crud.py 0 → 100644
'''
Created on May 7, 2013
@author: dmitchell
'''
import unittest
from xmodule import templates
from xmodule.modulestore.tests import persistent_factories
from xmodule.course_module import CourseDescriptor
from xmodule.modulestore.django import modulestore
from xmodule.seq_module import SequenceDescriptor
from xmodule.x_module import XModuleDescriptor
from xmodule.capa_module import CapaDescriptor
from xmodule.modulestore.locator import CourseLocator, BlockUsageLocator
from xmodule.modulestore.exceptions import ItemNotFoundError
from xmodule.html_module import HtmlDescriptor
class TemplateTests(unittest.TestCase):
"""
Test finding and using the templates (boilerplates) for xblocks.
"""
def test_get_templates(self):
found = templates.all_templates()
self.assertIsNotNone(found.get('course'))
self.assertIsNotNone(found.get('about'))
self.assertIsNotNone(found.get('html'))
self.assertIsNotNone(found.get('problem'))
self.assertEqual(len(found.get('course')), 0)
self.assertEqual(len(found.get('about')), 1)
self.assertGreaterEqual(len(found.get('html')), 2)
self.assertGreaterEqual(len(found.get('problem')), 10)
dropdown = None
for template in found['problem']:
self.assertIn('metadata', template)
self.assertIn('display_name', template['metadata'])
if template['metadata']['display_name'] == 'Dropdown':
dropdown = template
break
self.assertIsNotNone(dropdown)
self.assertIn('markdown', dropdown['metadata'])
self.assertIn('data', dropdown)
self.assertRegexpMatches(dropdown['metadata']['markdown'], r'^Dropdown.*')
self.assertRegexpMatches(dropdown['data'], r'<problem>\s*<p>Dropdown.*')
def test_get_some_templates(self):
self.assertEqual(len(SequenceDescriptor.templates()), 0)
self.assertGreater(len(HtmlDescriptor.templates()), 0)
self.assertIsNone(SequenceDescriptor.get_template('doesntexist.yaml'))
self.assertIsNone(HtmlDescriptor.get_template('doesntexist.yaml'))
self.assertIsNotNone(HtmlDescriptor.get_template('announcement.yaml'))
def test_factories(self):
test_course = persistent_factories.PersistentCourseFactory.create(org='testx', prettyid='tempcourse',
display_name='fun test course', user_id='testbot')
self.assertIsInstance(test_course, CourseDescriptor)
self.assertEqual(test_course.display_name, 'fun test course')
index_info = modulestore('split').get_course_index_info(test_course.location)
self.assertEqual(index_info['org'], 'testx')
self.assertEqual(index_info['prettyid'], 'tempcourse')
test_chapter = persistent_factories.ItemFactory.create(display_name='chapter 1',
parent_location=test_course.location)
self.assertIsInstance(test_chapter, SequenceDescriptor)
# refetch parent which should now point to child
test_course = modulestore('split').get_course(test_chapter.location)
self.assertIn(test_chapter.location.usage_id, test_course.children)
def test_temporary_xblocks(self):
"""
Test using load_from_json to create non persisted xblocks
"""
test_course = persistent_factories.PersistentCourseFactory.create(org='testx', prettyid='tempcourse',
display_name='fun test course', user_id='testbot')
test_chapter = XModuleDescriptor.load_from_json({'category': 'chapter',
'metadata': {'display_name': 'chapter n'}},
test_course.system, parent_xblock=test_course)
self.assertIsInstance(test_chapter, SequenceDescriptor)
self.assertEqual(test_chapter.display_name, 'chapter n')
self.assertIn(test_chapter, test_course.get_children())
# test w/ a definition (e.g., a problem)
test_def_content = '<problem>boo</problem>'
test_problem = XModuleDescriptor.load_from_json({'category': 'problem',
'definition': {'data': test_def_content}},
test_course.system, parent_xblock=test_chapter)
self.assertIsInstance(test_problem, CapaDescriptor)
self.assertEqual(test_problem.data, test_def_content)
self.assertIn(test_problem, test_chapter.get_children())
test_problem.display_name = 'test problem'
self.assertEqual(test_problem.display_name, 'test problem')
def test_persist_dag(self):
"""
try saving temporary xblocks
"""
test_course = persistent_factories.PersistentCourseFactory.create(org='testx', prettyid='tempcourse',
display_name='fun test course', user_id='testbot')
test_chapter = XModuleDescriptor.load_from_json({'category': 'chapter',
'metadata': {'display_name': 'chapter n'}},
test_course.system, parent_xblock=test_course)
test_def_content = '<problem>boo</problem>'
test_problem = XModuleDescriptor.load_from_json({'category': 'problem',
'definition': {'data': test_def_content}},
test_course.system, parent_xblock=test_chapter)
# better to pass in persisted parent over the subdag so
# subdag gets the parent pointer (otherwise 2 ops, persist dag, update parent children,
# persist parent
persisted_course = modulestore('split').persist_xblock_dag(test_course, 'testbot')
self.assertEqual(len(persisted_course.children), 1)
persisted_chapter = persisted_course.get_children()[0]
self.assertEqual(persisted_chapter.category, 'chapter')
self.assertEqual(persisted_chapter.display_name, 'chapter n')
self.assertEqual(len(persisted_chapter.children), 1)
persisted_problem = persisted_chapter.get_children()[0]
self.assertEqual(persisted_problem.category, 'problem')
self.assertEqual(persisted_problem.data, test_def_content)
def test_delete_course(self):
test_course = persistent_factories.PersistentCourseFactory.create(
org='testx',
prettyid='edu.harvard.history.doomed',
display_name='doomed test course',
user_id='testbot')
persistent_factories.ItemFactory.create(display_name='chapter 1',
parent_location=test_course.location)
id_locator = CourseLocator(course_id=test_course.location.course_id, revision='draft')
guid_locator = CourseLocator(version_guid=test_course.location.version_guid)
# verify it can be retireved by id
self.assertIsInstance(modulestore('split').get_course(id_locator), CourseDescriptor)
# and by guid
self.assertIsInstance(modulestore('split').get_course(guid_locator), CourseDescriptor)
modulestore('split').delete_course(id_locator.course_id)
# test can no longer retrieve by id
self.assertRaises(ItemNotFoundError, modulestore('split').get_course, id_locator)
# but can by guid
self.assertIsInstance(modulestore('split').get_course(guid_locator), CourseDescriptor)
def test_block_generations(self):
"""
Test get_block_generations
"""
test_course = persistent_factories.PersistentCourseFactory.create(
org='testx',
prettyid='edu.harvard.history.hist101',
display_name='history test course',
user_id='testbot')
chapter = persistent_factories.ItemFactory.create(display_name='chapter 1',
parent_location=test_course.location, user_id='testbot')
sub = persistent_factories.ItemFactory.create(display_name='subsection 1',
parent_location=chapter.location, user_id='testbot', category='vertical')
first_problem = persistent_factories.ItemFactory.create(display_name='problem 1',
parent_location=sub.location, user_id='testbot', category='problem', data="<problem></problem>")
first_problem.max_attempts = 3
updated_problem = modulestore('split').update_item(first_problem, 'testbot')
updated_loc = modulestore('split').delete_item(updated_problem.location, 'testbot')
second_problem = persistent_factories.ItemFactory.create(display_name='problem 2',
parent_location=BlockUsageLocator(updated_loc, usage_id=sub.location.usage_id),
user_id='testbot', category='problem', data="<problem></problem>")
# course root only updated 2x
version_history = modulestore('split').get_block_generations(test_course.location)
self.assertEqual(version_history.locator.version_guid, test_course.location.version_guid)
self.assertEqual(len(version_history.children), 1)
self.assertEqual(version_history.children[0].children, [])
self.assertEqual(version_history.children[0].locator.version_guid, chapter.location.version_guid)
# sub changed on add, add problem, delete problem, add problem in strict linear seq
version_history = modulestore('split').get_block_generations(sub.location)
self.assertEqual(len(version_history.children), 1)
self.assertEqual(len(version_history.children[0].children), 1)
self.assertEqual(len(version_history.children[0].children[0].children), 1)
self.assertEqual(len(version_history.children[0].children[0].children[0].children), 0)
# first and second problem may show as same usage_id; so, need to ensure their histories are right
version_history = modulestore('split').get_block_generations(updated_problem.location)
self.assertEqual(version_history.locator.version_guid, first_problem.location.version_guid)
self.assertEqual(len(version_history.children), 1) # updated max_attempts
self.assertEqual(len(version_history.children[0].children), 0)
version_history = modulestore('split').get_block_generations(second_problem.location)
self.assertNotEqual(version_history.locator.version_guid, first_problem.location.version_guid)
cms/envs/dev.py
......@@ -33,6 +33,10 @@ MODULESTORE = {
'direct': {
'ENGINE': 'xmodule.modulestore.mongo.MongoModuleStore',
'OPTIONS': modulestore_options
},
'split': {
'ENGINE': 'xmodule.modulestore.split_mongo.SplitMongoModuleStore',
'OPTIONS': modulestore_options
}
}
......
cms/envs/test.py
......@@ -63,6 +63,10 @@ MODULESTORE = {
'draft': {
'ENGINE': 'xmodule.modulestore.draft.DraftModuleStore',
'OPTIONS': MODULESTORE_OPTIONS
},
'split': {
'ENGINE': 'xmodule.modulestore.split_mongo.SplitMongoModuleStore',
'OPTIONS': MODULESTORE_OPTIONS
}
}
......
common/lib/xmodule/xmodule/capa_module.py
......@@ -309,7 +309,13 @@ class CapaModule(CapaFields, XModule):
d = self.get_score()
score = d['score']
total = d['total']
if total > 0:
if self.weight is not None:
# scale score and total by weight/total:
score = score * self.weight / total
total = self.weight
try:
return Progress(score, total)
except (TypeError, ValueError):
......@@ -321,11 +327,13 @@ class CapaModule(CapaFields, XModule):
"""
Return some html with data about the module
"""
progress = self.get_progress()
return self.system.render_template('problem_ajax.html', {
'element_id': self.location.html_id(),
'id': self.id,
'ajax_url': self.system.ajax_url,
'progress': Progress.to_js_status_str(self.get_progress())
'progress_status': Progress.to_js_status_str(progress),
'progress_detail': Progress.to_js_detail_str(progress),
})
def check_button_name(self):
......@@ -485,8 +493,7 @@ class CapaModule(CapaFields, XModule):
"""
Return html for the problem.
Adds check, reset, save buttons as necessary based on the problem config
and state.
Adds check, reset, save buttons as necessary based on the problem config and state.
"""
try:
......@@ -516,13 +523,12 @@ class CapaModule(CapaFields, XModule):
'reset_button': self.should_show_reset_button(),
'save_button': self.should_show_save_button(),
'answer_available': self.answer_available(),
'ajax_url': self.system.ajax_url,
'attempts_used': self.attempts,
'attempts_allowed': self.max_attempts,
'progress': self.get_progress(),
}
html = self.system.render_template('problem.html', context)
if encapsulate:
html = u'<div id="problem_{id}" class="problem" data-url="{ajax_url}">'.format(
id=self.location.html_id(), ajax_url=self.system.ajax_url
......@@ -584,6 +590,7 @@ class CapaModule(CapaFields, XModule):
result.update({
'progress_changed': after != before,
'progress_status': Progress.to_js_status_str(after),
'progress_detail': Progress.to_js_detail_str(after),
})
return json.dumps(result, cls=ComplexEncoder)
......@@ -614,6 +621,7 @@ class CapaModule(CapaFields, XModule):
Problem can be completely wrong.
Pressing RESET button makes this function to return False.
"""
# used by conditional module
return self.lcp.done
def is_attempted(self):
......@@ -757,6 +765,7 @@ class CapaModule(CapaFields, XModule):
"""
return {'html': self.get_problem_html(encapsulate=False)}
@staticmethod
def make_dict_of_responses(data):
"""
......
common/lib/xmodule/xmodule/course_module.py
......@@ -15,6 +15,7 @@ import json
from xblock.core import Scope, List, String, Dict, Boolean
from .fields import Date
from xmodule.modulestore.locator import CourseLocator
from django.utils.timezone import UTC
from xmodule.util import date_utils
......@@ -372,7 +373,10 @@ class CourseDescriptor(CourseFields, SequenceDescriptor):
super(CourseDescriptor, self).__init__(*args, **kwargs)
if self.wiki_slug is None:
self.wiki_slug = self.location.course
if isinstance(self.location, Location):
self.wiki_slug = self.location.course
elif isinstance(self.location, CourseLocator):
self.wiki_slug = self.location.course_id or self.display_name
msg = None
......
common/lib/xmodule/xmodule/css/capa/display.scss
......@@ -3,6 +3,7 @@ h2 {
margin-bottom: 15px;
&.problem-header {
display: inline-block;
section.staff {
margin-top: 30px;
font-size: 80%;
......@@ -28,6 +29,13 @@ iframe[seamless]{
color: darken($error-red, 11%);
}
section.problem-progress {
display: inline-block;
color: #999;
font-size: em(16);
font-weight: 100;
padding-left: 5px;
}
section.problem {
@media print {
......
common/lib/xmodule/xmodule/error_module.py
......@@ -79,8 +79,10 @@ class ErrorDescriptor(ErrorFields, JSONEditingDescriptor):
@classmethod
def _construct(cls, system, contents, error_msg, location):
if location.name is None:
location = location._replace(
if isinstance(location, dict) and 'course' in location:
location = Location(location)
if isinstance(location, Location) and location.name is None:
location = location.replace(
category='error',
# Pick a unique url_name -- the sha1 hash of the contents.
# NOTE: We could try to pull out the url_name of the errored descriptor,
......@@ -94,7 +96,7 @@ class ErrorDescriptor(ErrorFields, JSONEditingDescriptor):
model_data = {
'error_msg': str(error_msg),
'contents': contents,
'display_name': 'Error: ' + location.name,
'display_name': 'Error: ' + location.url(),
'location': location,
'category': 'error'
}
......
common/lib/xmodule/xmodule/js/fixtures/problem.html
<section class='xmodule_display xmodule_CapaModule' data-type='Problem'>
<section id='problem_1'
class='problems-wrapper'
class='problems-wrapper'
data-problem-id='i4x://edX/101/problem/Problem1'
data-url='/problem/Problem1'>
</section>
......
common/lib/xmodule/xmodule/js/fixtures/problem_content.html
<h2 class="problem-header">Problem Header</h2>
<section class='problem-progress'>
</section>
<section class="problem">
<p>Problem Content</p>
......
common/lib/xmodule/xmodule/js/spec/capa/display_spec.coffee
......@@ -77,6 +77,25 @@ describe 'Problem', ->
[@problem.updateMathML, @stubbedJax, $('#input_example_1').get(0)]
]
describe 'renderProgressState', ->
beforeEach ->
@problem = new Problem($('.xmodule_display'))
#@renderProgressState = @problem.renderProgressState
describe 'with a status of "none"', ->
it 'reports the number of points possible', ->
@problem.el.data('progress_status', 'none')
@problem.el.data('progress_detail', '0/1')
@problem.renderProgressState()
expect(@problem.$('.problem-progress').html()).toEqual "(1 point possible)"
describe 'with any other valid status', ->
it 'reports the current score', ->
@problem.el.data('progress_status', 'foo')
@problem.el.data('progress_detail', '1/1')
@problem.renderProgressState()
expect(@problem.$('.problem-progress').html()).toEqual "(1/1 points)"
describe 'render', ->
beforeEach ->
@problem = new Problem($('.xmodule_display'))
......
common/lib/xmodule/xmodule/js/src/capa/display.coffee
......@@ -35,15 +35,34 @@ class @Problem
@$('input.math').each (index, element) =>
MathJax.Hub.Queue [@refreshMath, null, element]
renderProgressState: =>
detail = @el.data('progress_detail')
status = @el.data('progress_status')
# i18n
progress = "(#{detail} points)"
if status == 'none' and detail? and detail.indexOf('/') > 0
a = detail.split('/')
possible = parseInt(a[1])
if possible == 1
# i18n
progress = "(#{possible} point possible)"
else
# i18n
progress = "(#{possible} points possible)"
@$('.problem-progress').html(progress)
updateProgress: (response) =>
if response.progress_changed
@el.attr progress: response.progress_status
@el.data('progress_status', response.progress_status)
@el.data('progress_detail', response.progress_detail)
@el.trigger('progressChanged')
@renderProgressState()
forceUpdate: (response) =>
@el.attr progress: response.progress_status
@el.data('progress_status', response.progress_status)
@el.data('progress_detail', response.progress_detail)
@el.trigger('progressChanged')
@renderProgressState()
queueing: =>
@queued_items = @$(".xqueue")
......@@ -113,7 +132,7 @@ class @Problem
@setupInputTypes()
@bind()
@queueing()
@forceUpdate response
# TODO add hooks for problem types here by inspecting response.html and doing
# stuff if a div w a class is found
......
common/lib/xmodule/xmodule/js/src/sequence/display.coffee
......@@ -45,7 +45,7 @@ class @Sequence
new_progress = "NA"
_this = this
$('.problems-wrapper').each (index) ->
progress = $(this).attr 'progress'
progress = $(this).data 'progress_status'
new_progress = _this.mergeProgress progress, new_progress
@progressTable[@position] = new_progress
......
common/lib/xmodule/xmodule/modulestore/exceptions.py
......@@ -7,10 +7,18 @@ class ItemNotFoundError(Exception):
pass
class ItemWriteConflictError(Exception):
pass
class InsufficientSpecificationError(Exception):
pass
class OverSpecificationError(Exception):
pass
class InvalidLocationError(Exception):
pass
......@@ -21,3 +29,13 @@ class NoPathToItem(Exception):
class DuplicateItemError(Exception):
pass
class VersionConflictError(Exception):
"""
The caller asked for either draft or published head and gave a version which conflicted with it.
"""
def __init__(self, requestedLocation, currentHead):
super(VersionConflictError, self).__init__()
self.requestedLocation = requestedLocation
self.currentHead = currentHead
common/lib/xmodule/xmodule/modulestore/inheritance.py
......@@ -50,6 +50,8 @@ def inherit_metadata(descriptor, model_data):
def own_metadata(module):
# IN SPLIT MONGO this is just ['metadata'] as it keeps ['_inherited_metadata'] separate!
# FIXME move into kvs? will that work for xml mongo?
"""
Return a dictionary that contains only non-inherited field keys,
mapped to their values
......
common/lib/xmodule/xmodule/modulestore/locator.py 0 → 100644
"""
Created on Mar 13, 2013
@author: dmitchell
"""
from __future__ import absolute_import
import logging
import inspect
from abc import ABCMeta, abstractmethod
from urllib import quote
from bson.objectid import ObjectId
from bson.errors import InvalidId
from xmodule.modulestore.exceptions import InsufficientSpecificationError, OverSpecificationError
from .parsers import parse_url, parse_course_id, parse_block_ref
log = logging.getLogger(__name__)
class Locator(object):
"""
A locator is like a URL, it refers to a course resource.
Locator is an abstract base class: do not instantiate
"""
__metaclass__ = ABCMeta
@abstractmethod
def url(self):
"""
Return a string containing the URL for this location. Raises
InsufficientSpecificationError if the instance doesn't have a
complete enough specification to generate a url
"""
raise InsufficientSpecificationError()
def quoted_url(self):
return quote(self.url(), '@;#')
def __eq__(self, other):
return self.__dict__ == other.__dict__
def __repr__(self):
'''
repr(self) returns something like this: CourseLocator("edu.mit.eecs.6002x")
'''
classname = self.__class__.__name__
if classname.find('.') != -1:
classname = classname.split['.'][-1]
return '%s("%s")' % (classname, unicode(self))
def __str__(self):
'''
str(self) returns something like this: "edu.mit.eecs.6002x"
'''
return unicode(self).encode('utf8')
def __unicode__(self):
'''
unicode(self) returns something like this: "edu.mit.eecs.6002x"
'''
return self.url()
@abstractmethod
def version(self):
"""
Returns the ObjectId referencing this specific location.
Raises InsufficientSpecificationError if the instance
doesn't have a complete enough specification.
"""
raise InsufficientSpecificationError()
def set_property(self, property_name, new):
"""
Initialize property to new value.
If property has already been initialized to a different value, raise an exception.
"""
current = getattr(self, property_name)
if current and current != new:
raise OverSpecificationError('%s cannot be both %s and %s' %
(property_name, current, new))
setattr(self, property_name, new)
class CourseLocator(Locator):
"""
Examples of valid CourseLocator specifications:
CourseLocator(version_guid=ObjectId('519665f6223ebd6980884f2b'))
CourseLocator(course_id='edu.mit.eecs.6002x')
CourseLocator(course_id='edu.mit.eecs.6002x;published')
CourseLocator(course_id='edu.mit.eecs.6002x', revision='published')
CourseLocator(url='edx://@519665f6223ebd6980884f2b')
CourseLocator(url='edx://edu.mit.eecs.6002x')
CourseLocator(url='edx://edu.mit.eecs.6002x;published')
Should have at lease a specific course_id (id for the course as if it were a project w/
versions) with optional 'revision' (must be 'draft', 'published', or None),
or version_guid (which points to a specific version). Can contain both in which case
the persistence layer may raise exceptions if the given version != the current such version
of the course.
"""
# Default values
version_guid = None
course_id = None
revision = None
def __unicode__(self):
"""
Return a string representing this location.
"""
if self.course_id:
result = self.course_id
if self.revision:
result += ';' + self.revision
return result
elif self.version_guid:
return '@' + str(self.version_guid)
else:
# raise InsufficientSpecificationError("missing course_id or version_guid")
return '<InsufficientSpecificationError: missing course_id or version_guid>'
def url(self):
"""
Return a string containing the URL for this location.
"""
return 'edx://' + unicode(self)
# -- unused args which are used via inspect
# pylint: disable= W0613
def validate_args(self, url, version_guid, course_id, revision):
"""
Validate provided arguments.
"""
need_oneof = set(('url', 'version_guid', 'course_id'))
args, _, _, values = inspect.getargvalues(inspect.currentframe())
provided_args = [a for a in args if a != 'self' and values[a] is not None]
if len(need_oneof.intersection(provided_args)) == 0:
raise InsufficientSpecificationError("Must provide one of these args: %s " %
list(need_oneof))
def is_fully_specified(self):
"""
Returns True if either version_guid is specified, or course_id+revision
are specified.
This should always return True, since this should be validated in the constructor.
"""
return self.version_guid is not None \
or (self.course_id is not None and self.revision is not None)
def set_course_id(self, new):
"""
Initialize course_id to new value.
If course_id has already been initialized to a different value, raise an exception.
"""
self.set_property('course_id', new)
def set_revision(self, new):
"""
Initialize revision to new value.
If revision has already been initialized to a different value, raise an exception.
"""
self.set_property('revision', new)
def set_version_guid(self, new):
"""
Initialize version_guid to new value.
If version_guid has already been initialized to a different value, raise an exception.
"""
self.set_property('version_guid', new)
def as_course_locator(self):
"""
Returns a copy of itself (downcasting) as a CourseLocator.
The copy has the same CourseLocator fields as the original.
The copy does not include subclass information, such as
a usage_id (a property of BlockUsageLocator).
"""
return CourseLocator(course_id=self.course_id,
version_guid=self.version_guid,
revision=self.revision)
def __init__(self, url=None, version_guid=None, course_id=None, revision=None):
"""
Construct a CourseLocator
Caller may provide url (but no other parameters).
Caller may provide version_guid (but no other parameters).
Caller may provide course_id (optionally provide revision).
Resulting CourseLocator will have either a version_guid property
or a course_id (with optional revision) property, or both.
version_guid must be an instance of bson.objectid.ObjectId or None
url, course_id, and revision must be strings or None
"""
self.validate_args(url, version_guid, course_id, revision)
if url:
self.init_from_url(url)
if version_guid:
self.init_from_version_guid(version_guid)
if course_id or revision:
self.init_from_course_id(course_id, revision)
assert self.version_guid or self.course_id, \
"Either version_guid or course_id should be set."
@classmethod
def as_object_id(cls, value):
"""
Attempts to cast value as a bson.objectid.ObjectId.
If cast fails, raises ValueError
"""
if isinstance(value, ObjectId):
return value
try:
return ObjectId(value)
except InvalidId:
raise ValueError('"%s" is not a valid version_guid' % value)
def init_from_url(self, url):
"""
url must be a string beginning with 'edx://' and containing
either a valid version_guid or course_id (with optional revision)
If a block ('#HW3') is present, it is ignored.
"""
if isinstance(url, Locator):
url = url.url()
assert isinstance(url, basestring), \
'%s is not an instance of basestring' % url
parse = parse_url(url)
assert parse, 'Could not parse "%s" as a url' % url
if 'version_guid' in parse:
new_guid = parse['version_guid']
self.set_version_guid(self.as_object_id(new_guid))
else:
self.set_course_id(parse['id'])
self.set_revision(parse['revision'])
def init_from_version_guid(self, version_guid):
"""
version_guid must be an instance of bson.objectid.ObjectId,
or able to be cast as one.
If it's a string, attempt to cast it as an ObjectId first.
"""
version_guid = self.as_object_id(version_guid)
assert isinstance(version_guid, ObjectId), \
'%s is not an instance of ObjectId' % version_guid
self.set_version_guid(version_guid)
def init_from_course_id(self, course_id, explicit_revision=None):
"""
Course_id is a string like 'edu.mit.eecs.6002x' or 'edu.mit.eecs.6002x;published'.
Revision (optional) is a string like 'published'.
It may be provided explicitly (explicit_revision) or embedded into course_id.
If revision is part of course_id ("...;published"), parse it out separately.
If revision is provided both ways, that's ok as long as they are the same value.
If a block ('#HW3') is a part of course_id, it is ignored.
"""
if course_id:
if isinstance(course_id, CourseLocator):
course_id = course_id.course_id
assert course_id, "%s does not have a valid course_id"
parse = parse_course_id(course_id)
assert parse, 'Could not parse "%s" as a course_id' % course_id
self.set_course_id(parse['id'])
rev = parse['revision']
if rev:
self.set_revision(rev)
if explicit_revision:
self.set_revision(explicit_revision)
def version(self):
"""
Returns the ObjectId referencing this specific location.
"""
return self.version_guid
def html_id(self):
"""
Generate a discussion group id based on course
To make compatible with old Location object functionality. I don't believe this behavior fits at this
place, but I have no way to override. If this is really needed, it should probably use the pretty_id to seed
the name although that's mutable. We should also clearly define the purpose and restrictions of this
(e.g., I'm assuming periods are fine).
"""
return self.course_id
class BlockUsageLocator(CourseLocator):
"""
Encodes a location.
Locations address modules (aka blocks) which are definitions situated in a
course instance. Thus, a Location must identify the course and the occurrence of
the defined element in the course. Courses can be a version of an offering, the
current draft head, or the current production version.
Locators can contain both a version and a course_id w/ revision. The split mongo functions
may raise errors if these conflict w/ the current db state (i.e., the course's revision !=
the version_guid)
Locations can express as urls as well as dictionaries. They consist of
course_identifier: course_guid | version_guid
block : guid
revision : 'draft' | 'published' (optional)
"""
# Default value
usage_id = None
def __init__(self, url=None, version_guid=None, course_id=None,
revision=None, usage_id=None):
"""
Construct a BlockUsageLocator
Caller may provide url, version_guid, or course_id, and optionally provide revision.
The usage_id may be specified, either explictly or as part of
the url or course_id. If omitted, the locator is created but it
has not yet been initialized.
Resulting BlockUsageLocator will have a usage_id property.
It will have either a version_guid property or a course_id (with optional revision) property, or both.
version_guid must be an instance of bson.objectid.ObjectId or None
url, course_id, revision, and usage_id must be strings or None
"""
self.validate_args(url, version_guid, course_id, revision)
if url:
self.init_block_ref_from_url(url)
if course_id:
self.init_block_ref_from_course_id(course_id)
if usage_id:
self.init_block_ref(usage_id)
CourseLocator.__init__(self,
url=url,
version_guid=version_guid,
course_id=course_id,
revision=revision)
def is_initialized(self):
"""
Returns True if usage_id has been initialized, else returns False
"""
return self.usage_id is not None
def version_agnostic(self):
"""
Returns a copy of itself.
If both version_guid and course_id are known, use a blank course_id in the copy.
We don't care if the locator's version is not the current head; so, avoid version conflict
by reducing info.
:param block_locator:
"""
if self.course_id and self.version_guid:
return BlockUsageLocator(version_guid=self.version_guid,
revision=self.revision,
usage_id=self.usage_id)
else:
return BlockUsageLocator(course_id=self.course_id,
revision=self.revision,
usage_id=self.usage_id)
def set_usage_id(self, new):
"""
Initialize usage_id to new value.
If usage_id has already been initialized to a different value, raise an exception.
"""
self.set_property('usage_id', new)
def init_block_ref(self, block_ref):
parse = parse_block_ref(block_ref)
assert parse, 'Could not parse "%s" as a block_ref' % block_ref
self.set_usage_id(parse['block'])
def init_block_ref_from_url(self, url):
if isinstance(url, Locator):
url = url.url()
parse = parse_url(url)
assert parse, 'Could not parse "%s" as a url' % url
block = parse.get('block', None)
if block:
self.set_usage_id(block)
def init_block_ref_from_course_id(self, course_id):
if isinstance(course_id, CourseLocator):
course_id = course_id.course_id
assert course_id, "%s does not have a valid course_id"
parse = parse_course_id(course_id)
assert parse, 'Could not parse "%s" as a course_id' % course_id
block = parse.get('block', None)
if block:
self.set_usage_id(block)
def __unicode__(self):
"""
Return a string representing this location.
"""
rep = CourseLocator.__unicode__(self)
if self.usage_id is None:
# usage_id has not been initialized
return rep + '#NONE'
else:
return rep + '#' + self.usage_id
class DescriptionLocator(Locator):
"""
Container for how to locate a description
"""
def __init__(self, definition_id):
self.definition_id = definition_id
def __unicode__(self):
'''
Return a string representing this location.
unicode(self) returns something like this: "@519665f6223ebd6980884f2b"
'''
return '@' + str(self.definition_guid)
def url(self):
"""
Return a string containing the URL for this location.
url(self) returns something like this: 'edx://@519665f6223ebd6980884f2b'
"""
return 'edx://' + unicode(self)
def version(self):
"""
Returns the ObjectId referencing this specific location.
"""
return self.definition_guid
class VersionTree(object):
"""
Holds trees of Locators to represent version histories.
"""
def __init__(self, locator, tree_dict=None):
"""
:param locator: must be version specific (Course has version_guid or definition had id)
"""
assert isinstance(locator, Locator) and not inspect.isabstract(locator), \
"locator must be a concrete subclass of Locator"
assert locator.version(), \
"locator must be version specific (Course has version_guid or definition had id)"
self.locator = locator
if tree_dict is None:
self.children = []
else:
self.children = [VersionTree(child, tree_dict)
for child in tree_dict.get(locator.version(), [])]
common/lib/xmodule/xmodule/modulestore/mongo/base.py
......@@ -105,15 +105,6 @@ class MongoKeyValueStore(KeyValueStore):
else:
raise InvalidScopeError(key.scope)
def set_many(self, update_dict):
"""set_many method. Implementations should accept an `update_dict` of
key-value pairs, and set all the `keys` to the given `value`s."""
# `set` simply updates an in-memory db, rather than calling down to a real db,
# as mongo bulk save is handled elsewhere. A future improvement would be to pull
# the mongo-specific bulk save logic into this method.
for key, value in update_dict.iteritems():
self.set(key, value)
def delete(self, key):
if key.scope == Scope.children:
self._children = []
......
common/lib/xmodule/xmodule/modulestore/parsers.py 0 → 100644
import re
URL_RE = re.compile(r'^edx://(.+)$', re.IGNORECASE)
def parse_url(string):
"""
A url must begin with 'edx://' (case-insensitive match),
followed by either a version_guid or a course_id.
Examples:
'edx://@0123FFFF'
'edx://edu.mit.eecs.6002x'
'edx://edu.mit.eecs.6002x;published'
'edx://edu.mit.eecs.6002x;published#HW3'
This returns None if string cannot be parsed.
If it can be parsed as a version_guid, returns a dict
with key 'version_guid' and the value,
If it can be parsed as a course_id, returns a dict
with keys 'id' and 'revision' (value of 'revision' may be None),
"""
match = URL_RE.match(string)
if not match:
return None
path = match.group(1)
if path[0] == '@':
return parse_guid(path[1:])
return parse_course_id(path)
BLOCK_RE = re.compile(r'^\w+$', re.IGNORECASE)
def parse_block_ref(string):
r"""
A block_ref is a string of word_chars.
<word_chars> matches one or more Unicode word characters; this includes most
characters that can be part of a word in any language, as well as numbers
and the underscore. (see definition of \w in python regular expressions,
at http://docs.python.org/dev/library/re.html)
If string is a block_ref, returns a dict with key 'block_ref' and the value,
otherwise returns None.
"""
if len(string) > 0 and BLOCK_RE.match(string):
return {'block': string}
return None
GUID_RE = re.compile(r'^(?P<version_guid>[A-F0-9]+)(#(?P<block>\w+))?$', re.IGNORECASE)
def parse_guid(string):
"""
A version_guid is a string of hex digits (0-F).
If string is a version_guid, returns a dict with key 'version_guid' and the value,
otherwise returns None.
"""
m = GUID_RE.match(string)
if m is not None:
return m.groupdict()
else:
return None
COURSE_ID_RE = re.compile(r'^(?P<id>(\w+)(\.\w+\w*)*)(;(?P<revision>\w+))?(#(?P<block>\w+))?$', re.IGNORECASE)
def parse_course_id(string):
r"""
A course_id has a main id component.
There may also be an optional revision (;published or ;draft).
There may also be an optional block (#HW3 or #Quiz2).
Examples of valid course_ids:
'edu.mit.eecs.6002x'
'edu.mit.eecs.6002x;published'
'edu.mit.eecs.6002x#HW3'
'edu.mit.eecs.6002x;published#HW3'
Syntax:
course_id = main_id [; revision] [# block]
main_id = name [. name]*
revision = name
block = name
name = <word_chars>
<word_chars> matches one or more Unicode word characters; this includes most
characters that can be part of a word in any language, as well as numbers
and the underscore. (see definition of \w in python regular expressions,
at http://docs.python.org/dev/library/re.html)
If string is a course_id, returns a dict with keys 'id', 'revision', and 'block'.
Revision is optional: if missing returned_dict['revision'] is None.
Block is optional: if missing returned_dict['block'] is None.
Else returns None.
"""
match = COURSE_ID_RE.match(string)
if not match:
return None
return match.groupdict()
common/lib/xmodule/xmodule/modulestore/split_mongo/caching_descriptor_system.py 0 → 100644
import sys
import logging
from xmodule.mako_module import MakoDescriptorSystem
from xmodule.x_module import XModuleDescriptor
from xmodule.modulestore.locator import BlockUsageLocator
from xmodule.error_module import ErrorDescriptor
from xmodule.errortracker import exc_info_to_str
from xblock.runtime import DbModel
from ..exceptions import ItemNotFoundError
from .split_mongo_kvs import SplitMongoKVS, SplitMongoKVSid
log = logging.getLogger(__name__)
# TODO should this be here or w/ x_module or ???
class CachingDescriptorSystem(MakoDescriptorSystem):
"""
A system that has a cache of a course version's json that it will use to load modules
from, with a backup of calling to the underlying modulestore for more data.
Computes the metadata inheritance upon creation.
"""
def __init__(self, modulestore, course_entry, module_data, lazy,
default_class, error_tracker, render_template):
"""
Computes the metadata inheritance and sets up the cache.
modulestore: the module store that can be used to retrieve additional
modules
module_data: a dict mapping Location -> json that was cached from the
underlying modulestore
default_class: The default_class to use when loading an
XModuleDescriptor from the module_data
resources_fs: a filesystem, as per MakoDescriptorSystem
error_tracker: a function that logs errors for later display to users
render_template: a function for rendering templates, as per
MakoDescriptorSystem
"""
# TODO find all references to resources_fs and make handle None
super(CachingDescriptorSystem, self).__init__(
self._load_item, None, error_tracker, render_template)
self.modulestore = modulestore
self.course_entry = course_entry
self.lazy = lazy
self.module_data = module_data
self.default_class = default_class
# TODO see if self.course_id is needed: is already in course_entry but could be > 1 value
# Compute inheritance
modulestore.inherit_metadata(course_entry.get('blocks', {}),
course_entry.get('blocks', {})
.get(course_entry.get('root')))
def _load_item(self, usage_id, course_entry_override=None):
# TODO ensure all callers of system.load_item pass just the id
json_data = self.module_data.get(usage_id)
if json_data is None:
# deeper than initial descendant fetch or doesn't exist
self.modulestore.cache_items(self, [usage_id], lazy=self.lazy)
json_data = self.module_data.get(usage_id)
if json_data is None:
raise ItemNotFoundError
class_ = XModuleDescriptor.load_class(
json_data.get('category'),
self.default_class
)
return self.xblock_from_json(class_, usage_id, json_data, course_entry_override)
def xblock_from_json(self, class_, usage_id, json_data, course_entry_override=None):
if course_entry_override is None:
course_entry_override = self.course_entry
# most likely a lazy loader but not the id directly
definition = json_data.get('definition', {})
metadata = json_data.get('metadata', {})
block_locator = BlockUsageLocator(
version_guid=course_entry_override['_id'],
usage_id=usage_id,
course_id=course_entry_override.get('course_id'),
revision=course_entry_override.get('revision')
)
kvs = SplitMongoKVS(
definition,
json_data.get('children', []),
metadata,
json_data.get('_inherited_metadata'),
block_locator,
json_data.get('category'))
model_data = DbModel(kvs, class_, None,
SplitMongoKVSid(
# DbModel req's that these support .url()
block_locator,
self.modulestore.definition_locator(definition)))
try:
module = class_(self, model_data)
except Exception:
log.warning("Failed to load descriptor", exc_info=True)
if usage_id is None:
usage_id = "MISSING"
return ErrorDescriptor.from_json(
json_data,
self,
BlockUsageLocator(version_guid=course_entry_override['_id'],
usage_id=usage_id),
error_msg=exc_info_to_str(sys.exc_info())
)
module.edited_by = json_data.get('edited_by')
module.edited_on = json_data.get('edited_on')
module.previous_version = json_data.get('previous_version')
module.update_version = json_data.get('update_version')
module.definition_locator = self.modulestore.definition_locator(definition)
return module
common/lib/xmodule/xmodule/modulestore/split_mongo/definition_lazy_loader.py 0 → 100644
from xmodule.modulestore.locator import DescriptionLocator
class DefinitionLazyLoader(object):
"""
A placeholder to put into an xblock in place of its definition which
when accessed knows how to get its content. Only useful if the containing
object doesn't force access during init but waits until client wants the
definition. Only works if the modulestore is a split mongo store.
"""
def __init__(self, modulestore, definition_id):
"""
Simple placeholder for yet-to-be-fetched data
:param modulestore: the pymongo db connection with the definitions
:param definition_locator: the id of the record in the above to fetch
"""
self.modulestore = modulestore
self.definition_locator = DescriptionLocator(definition_id)
def fetch(self):
"""
Fetch the definition. Note, the caller should replace this lazy
loader pointer with the result so as not to fetch more than once
"""
return self.modulestore.definitions.find_one(
{'_id': self.definition_locator.definition_id})
common/lib/xmodule/xmodule/modulestore/split_mongo/split.py 0 → 100644
import threading
import datetime
import logging
import pymongo
import re
from importlib import import_module
from path import path
from xmodule.errortracker import null_error_tracker
from xmodule.x_module import XModuleDescriptor
from xmodule.modulestore.locator import BlockUsageLocator, DescriptionLocator, CourseLocator, VersionTree
from xmodule.modulestore.exceptions import InsufficientSpecificationError, VersionConflictError
from xmodule.modulestore import inheritance
from .. import ModuleStoreBase
from ..exceptions import ItemNotFoundError
from .definition_lazy_loader import DefinitionLazyLoader
from .caching_descriptor_system import CachingDescriptorSystem
log = logging.getLogger(__name__)
#==============================================================================
# Documentation is at
# https://edx-wiki.atlassian.net/wiki/display/ENG/Mongostore+Data+Structure
#
# Known issue:
# Inheritance for cached kvs doesn't work on edits. Use case.
# 1) attribute foo is inheritable
# 2) g.children = [p], p.children = [a]
# 3) g.foo = 1 on load
# 4) if g.foo > 0, if p.foo > 0, if a.foo > 0 all eval True
# 5) p.foo = -1
# 6) g.foo > 0, p.foo <= 0 all eval True BUT
# 7) BUG: a.foo > 0 still evals True but should be False
# 8) reread and everything works right
# 9) p.del(foo), p.foo > 0 is True! works
# 10) BUG: a.foo < 0!
# Local fix wont' permanently work b/c xblock may cache a.foo...
#
#==============================================================================
class SplitMongoModuleStore(ModuleStoreBase):
"""
A Mongodb backed ModuleStore supporting versions, inheritance,
and sharing.
"""
def __init__(self, host, db, collection, fs_root, render_template,
port=27017, default_class=None,
error_tracker=null_error_tracker,
user=None, password=None,
**kwargs):
ModuleStoreBase.__init__(self)
self.db = pymongo.database.Database(pymongo.MongoClient(
host=host,
port=port,
tz_aware=True,
**kwargs
), db)
# TODO add caching of structures to thread_cache to prevent repeated fetches (but not index b/c
# it changes w/o having a change in id)
self.course_index = self.db[collection + '.active_versions']
self.structures = self.db[collection + '.structures']
self.definitions = self.db[collection + '.definitions']
# ??? Code review question: those familiar w/ python threading. Should I instead
# use django cache? How should I expire entries?
# _add_cache could use a lru mechanism to control the cache size?
self.thread_cache = threading.local()
if user is not None and password is not None:
self.db.authenticate(user, password)
# every app has write access to the db (v having a flag to indicate r/o v write)
# Force mongo to report errors, at the expense of performance
# pymongo docs suck but explanation:
# http://api.mongodb.org/java/2.10.1/com/mongodb/WriteConcern.html
self.course_index.write_concern = {'w': 1}
self.structures.write_concern = {'w': 1}
self.definitions.write_concern = {'w': 1}
if default_class is not None:
module_path, _, class_name = default_class.rpartition('.')
class_ = getattr(import_module(module_path), class_name)
self.default_class = class_
else:
self.default_class = None
self.fs_root = path(fs_root)
self.error_tracker = error_tracker
self.render_template = render_template
def cache_items(self, system, base_usage_ids, depth=0, lazy=True):
'''
Handles caching of items once inheritance and any other one time
per course per fetch operations are done.
:param system: a CachingDescriptorSystem
:param base_usage_ids: list of usage_ids to fetch
:param depth: how deep below these to prefetch
:param lazy: whether to fetch definitions or use placeholders
'''
new_module_data = {}
for usage_id in base_usage_ids:
new_module_data = self.descendants(system.course_entry['blocks'],
usage_id,
depth,
new_module_data)
# remove any which were already in module_data (not sure if there's a better way)
for newkey in new_module_data.iterkeys():
if newkey in system.module_data:
del new_module_data[newkey]
if lazy:
for block in new_module_data.itervalues():
block['definition'] = DefinitionLazyLoader(self,
block['definition'])
else:
# Load all descendants by id
descendent_definitions = self.definitions.find({
'_id': {'$in': [block['definition']
for block in new_module_data.itervalues()]}})
# turn into a map
definitions = {definition['_id']: definition
for definition in descendent_definitions}
for block in new_module_data.itervalues():
if block['definition'] in definitions:
block['definition'] = definitions[block['definition']]
system.module_data.update(new_module_data)
return system.module_data
def _load_items(self, course_entry, usage_ids, depth=0, lazy=True):
'''
Load & cache the given blocks from the course. Prefetch down to the
given depth. Load the definitions into each block if lazy is False;
otherwise, use the lazy definition placeholder.
'''
system = self._get_cache(course_entry['_id'])
if system is None:
system = CachingDescriptorSystem(
self,
course_entry,
{},
lazy,
self.default_class,
self.error_tracker,
self.render_template
)
self._add_cache(course_entry['_id'], system)
self.cache_items(system, usage_ids, depth, lazy)
return [system.load_item(usage_id, course_entry) for usage_id in usage_ids]
def _get_cache(self, course_version_guid):
"""
Find the descriptor cache for this course if it exists
:param course_version_guid:
"""
if not hasattr(self.thread_cache, 'course_cache'):
self.thread_cache.course_cache = {}
system = self.thread_cache.course_cache
return system.get(course_version_guid)
def _add_cache(self, course_version_guid, system):
"""
Save this cache for subsequent access
:param course_version_guid:
:param system:
"""
if not hasattr(self.thread_cache, 'course_cache'):
self.thread_cache.course_cache = {}
self.thread_cache.course_cache[course_version_guid] = system
return system
def _clear_cache(self):
"""
Should only be used by testing or something which implements transactional boundary semantics
"""
self.thread_cache.course_cache = {}
def _lookup_course(self, course_locator):
'''
Decode the locator into the right series of db access. Does not
return the CourseDescriptor! It returns the actual db json from
structures.
Semantics: if course_id and revision given, then it will get that revision. If
also give a version_guid, it will see if the current head of that revision == that guid. If not
it raises VersionConflictError (the version now differs from what it was when you got your
reference)
:param course_locator: any subclass of CourseLocator
'''
# NOTE: if and when this uses cache, the update if changed logic will break if the cache
# holds the same objects as the descriptors!
if not course_locator.is_fully_specified():
raise InsufficientSpecificationError('Not fully specified: %s' % course_locator)
if course_locator.course_id is not None and course_locator.revision is not None:
# use the course_id
index = self.course_index.find_one({'_id': course_locator.course_id})
if index is None:
raise ItemNotFoundError(course_locator)
if course_locator.revision not in index['versions']:
raise ItemNotFoundError(course_locator)
version_guid = index['versions'][course_locator.revision]
if course_locator.version_guid is not None and version_guid != course_locator.version_guid:
# This may be a bit too touchy but it's hard to infer intent
raise VersionConflictError(course_locator, CourseLocator(course_locator, version_guid=version_guid))
else:
# TODO should this raise an exception if revision was provided?
version_guid = course_locator.version_guid
# cast string to ObjectId if necessary
version_guid = course_locator.as_object_id(version_guid)
entry = self.structures.find_one({'_id': version_guid})
# b/c more than one course can use same structure, the 'course_id' is not intrinsic to structure
# and the one assoc'd w/ it by another fetch may not be the one relevant to this fetch; so,
# fake it by explicitly setting it in the in memory structure.
if course_locator.course_id:
entry['course_id'] = course_locator.course_id
entry['revision'] = course_locator.revision
return entry
def get_courses(self, revision, qualifiers=None):
'''
Returns a list of course descriptors matching any given qualifiers.
qualifiers should be a dict of keywords matching the db fields or any
legal query for mongo to use against the active_versions collection.
Note, this is to find the current head of the named revision type
(e.g., 'draft'). To get specific versions via guid use get_course.
'''
if qualifiers is None:
qualifiers = {}
qualifiers.update({"versions.{}".format(revision): {"$exists": True}})
matching = self.course_index.find(qualifiers)
# collect ids and then query for those
version_guids = []
id_version_map = {}
for course_entry in matching:
version_guid = course_entry['versions'][revision]
version_guids.append(version_guid)
id_version_map[version_guid] = course_entry['_id']
course_entries = self.structures.find({'_id': {'$in': version_guids}})
# get the block for the course element (s/b the root)
result = []
for entry in course_entries:
# structures are course agnostic but the caller wants to know course, so add it in here
entry['course_id'] = id_version_map[entry['_id']]
root = entry['root']
result.extend(self._load_items(entry, [root], 0, lazy=True))
return result
def get_course(self, course_locator):
'''
Gets the course descriptor for the course identified by the locator
which may or may not be a blockLocator.
raises InsufficientSpecificationError
'''
course_entry = self._lookup_course(course_locator)
root = course_entry['root']
result = self._load_items(course_entry, [root], 0, lazy=True)
return result[0]
def get_course_for_item(self, location):
'''
Provided for backward compatibility. Is equivalent to calling get_course
:param location:
'''
return self.get_course(location)
def has_item(self, block_location):
"""
Returns True if location exists in its course. Returns false if
the course or the block w/in the course do not exist for the given version.
raises InsufficientSpecificationError if the locator does not id a block
"""
if block_location.usage_id is None:
raise InsufficientSpecificationError(block_location)
try:
course_structure = self._lookup_course(block_location)
except ItemNotFoundError:
# this error only occurs if the course does not exist
return False
return course_structure['blocks'].get(block_location.usage_id) is not None
def get_item(self, location, depth=0):
"""
depth (int): An argument that some module stores may use to prefetch
descendants of the queried modules for more efficient results later
in the request. The depth is counted in the number of
calls to get_children() to cache. None indicates to cache all
descendants.
raises InsufficientSpecificationError or ItemNotFoundError
"""
assert isinstance(location, BlockUsageLocator)
if not location.is_initialized():
raise InsufficientSpecificationError("Not yet initialized: %s" % location)
course = self._lookup_course(location)
items = self._load_items(course, [location.usage_id], depth, lazy=True)
if len(items) == 0:
raise ItemNotFoundError(location)
return items[0]
# TODO refactor this and get_courses to use a constructed query
def get_items(self, locator, qualifiers):
'''
Get all of the modules in the given course matching the qualifiers. The
qualifiers should only be fields in the structures collection (sorry).
There will be a separate search method for searching through
definitions.
Common qualifiers are category, definition (provide definition id),
metadata: {display_name ..}, children (return
block if its children includes the one given value). If you want
substring matching use {$regex: /acme.*corp/i} type syntax.
Although these
look like mongo queries, it is all done in memory; so, you cannot
try arbitrary queries.
:param locator: CourseLocator or BlockUsageLocator restricting search scope
:param qualifiers: a dict restricting which elements should match
'''
# TODO extend to only search a subdag of the course?
course = self._lookup_course(locator)
items = []
for usage_id, value in course['blocks'].iteritems():
if self._block_matches(value, qualifiers):
items.append(usage_id)
if len(items) > 0:
return self._load_items(course, items, 0, lazy=True)
else:
return []
# What's the use case for usage_id being separate?
def get_parent_locations(self, locator, usage_id=None):
'''
Return the locations (Locators w/ usage_ids) for the parents of this location in this
course. Could use get_items(location, {'children': usage_id}) but this is slightly faster.
NOTE: does not actually ensure usage_id exists
If usage_id is None, then the locator must specify the usage_id
'''
if usage_id is None:
usage_id = locator.usage_id
course = self._lookup_course(locator)
items = []
for parent_id, value in course['blocks'].iteritems():
for child_id in value['children']:
if usage_id == child_id:
locator = locator.as_course_locator()
items.append(BlockUsageLocator(url=locator, usage_id=parent_id))
return items
def get_course_index_info(self, course_locator):
"""
The index records the initial creation of the indexed course and tracks the current version
heads. This function is primarily for test verification but may serve some
more general purpose.
:param course_locator: must have a course_id set
:return {'org': , 'prettyid': ,
versions: {'draft': the head draft version id,
'published': the head published version id if any,
},
'edited_by': who created the course originally (named edited for consistency),
'edited_on': when the course was originally created
}
"""
if course_locator.course_id is None:
return None
index = self.course_index.find_one({'_id': course_locator.course_id})
return index
# TODO figure out a way to make this info accessible from the course descriptor
def get_course_history_info(self, course_locator):
"""
Because xblocks doesn't give a means to separate the course structure's meta information from
the course xblock's, this method will get that info for the structure as a whole.
:param course_locator:
:return {'original_version': the version guid of the original version of this course,
'previous_version': the version guid of the previous version,
'edited_by': who made the last change,
'edited_on': when the change was made
}
"""
course = self._lookup_course(course_locator)
return {'original_version': course['original_version'],
'previous_version': course['previous_version'],
'edited_by': course['edited_by'],
'edited_on': course['edited_on']
}
def get_definition_history_info(self, definition_locator):
"""
Because xblocks doesn't give a means to separate the definition's meta information from
the usage xblock's, this method will get that info for the definition
:return {'original_version': the version guid of the original version of this course,
'previous_version': the version guid of the previous version,
'edited_by': who made the last change,
'edited_on': when the change was made
}
"""
definition = self.definitions.find_one({'_id': definition_locator.definition_id})
if definition is None:
return None
return {'original_version': definition['original_version'],
'previous_version': definition['previous_version'],
'edited_by': definition['edited_by'],
'edited_on': definition['edited_on']
}
def get_course_successors(self, course_locator, version_history_depth=1):
'''
Find the version_history_depth next versions of this course. Return as a VersionTree
Mostly makes sense when course_locator uses a version_guid, but because it finds all relevant
next versions, these do include those created for other courses.
:param course_locator:
'''
if version_history_depth < 1:
return None
if course_locator.version_guid is None:
course = self._lookup_course(course_locator)
version_guid = course.version_guid
else:
version_guid = course_locator.version_guid
# TODO if depth is significant, it may make sense to get all that have the same original_version
# and reconstruct the subtree from version_guid
next_entries = self.structures.find({'previous_version' : version_guid})
# must only scan cursor's once
next_versions = [struct for struct in next_entries]
result = {version_guid: [CourseLocator(version_guid=struct['_id']) for struct in next_versions]}
depth = 1
while depth < version_history_depth and len(next_versions) > 0:
depth += 1
next_entries = self.structures.find({'previous_version':
{'$in': [struct['_id'] for struct in next_versions]}})
next_versions = [struct for struct in next_entries]
for course_structure in next_versions:
result.setdefault(course_structure['previous_version'], []).append(
CourseLocator(version_guid=struct['_id']))
return VersionTree(CourseLocator(course_locator, version_guid=version_guid), result)
def get_block_generations(self, block_locator):
'''
Find the history of this block. Return as a VersionTree of each place the block changed (except
deletion).
The block's history tracks its explicit changes; so, changes in descendants won't be reflected
as new iterations.
'''
block_locator = block_locator.version_agnostic()
course_struct = self._lookup_course(block_locator)
usage_id = block_locator.usage_id
update_version_field = 'blocks.{}.update_version'.format(usage_id)
all_versions_with_block = self.structures.find({'original_version': course_struct['original_version'],
update_version_field: {'$exists': True}})
# find (all) root versions and build map previous: [successors]
possible_roots = []
result = {}
for version in all_versions_with_block:
if version['_id'] == version['blocks'][usage_id]['update_version']:
if version['blocks'][usage_id].get('previous_version') is None:
possible_roots.append(version['blocks'][usage_id]['update_version'])
else:
result.setdefault(version['blocks'][usage_id]['previous_version'], set()).add(
version['blocks'][usage_id]['update_version'])
# more than one possible_root means usage was added and deleted > 1x.
if len(possible_roots) > 1:
# find the history segment including block_locator's version
element_to_find = course_struct['blocks'][usage_id]['update_version']
if element_to_find in possible_roots:
possible_roots = [element_to_find]
for possibility in possible_roots:
if self._find_local_root(element_to_find, possibility, result):
possible_roots = [possibility]
break
elif len(possible_roots) == 0:
return None
# convert the results value sets to locators
for k, versions in result.iteritems():
result[k] = [BlockUsageLocator(version_guid=version, usage_id=usage_id)
for version in versions]
return VersionTree(BlockUsageLocator(version_guid=possible_roots[0], usage_id=usage_id), result)
def get_definition_successors(self, definition_locator, version_history_depth=1):
'''
Find the version_history_depth next versions of this definition. Return as a VersionTree
'''
# TODO implement
pass
def create_definition_from_data(self, new_def_data, category, user_id):
"""
Pull the definition fields out of descriptor and save to the db as a new definition
w/o a predecessor and return the new id.
:param user_id: request.user object
"""
document = {"category" : category,
"data": new_def_data,
"edited_by": user_id,
"edited_on": datetime.datetime.utcnow(),
"previous_version": None,
"original_version": None}
new_id = self.definitions.insert(document)
definition_locator = DescriptionLocator(new_id)
document['original_version'] = new_id
self.definitions.update({'_id': new_id}, {'$set': {"original_version": new_id}})
return definition_locator
def update_definition_from_data(self, definition_locator, new_def_data, user_id):
"""
See if new_def_data differs from the persisted version. If so, update
the persisted version and return the new id.
:param user_id: request.user
"""
def needs_saved():
if isinstance(new_def_data, dict):
for key, value in new_def_data.iteritems():
if key not in old_definition['data'] or value != old_definition['data'][key]:
return True
for key, value in old_definition['data'].iteritems():
if key not in new_def_data:
return True
else:
return new_def_data != old_definition['data']
# if this looks in cache rather than fresh fetches, then it will probably not detect
# actual change b/c the descriptor and cache probably point to the same objects
old_definition = self.definitions.find_one({'_id': definition_locator.definition_id})
if old_definition is None:
raise ItemNotFoundError(definition_locator.url())
del old_definition['_id']
if needs_saved():
old_definition['data'] = new_def_data
old_definition['edited_by'] = user_id
old_definition['edited_on'] = datetime.datetime.utcnow()
old_definition['previous_version'] = definition_locator.definition_id
new_id = self.definitions.insert(old_definition)
return DescriptionLocator(new_id), True
else:
return definition_locator, False
def _generate_usage_id(self, course_blocks, category):
"""
Generate a somewhat readable block id unique w/in this course using the category
:param course_blocks: the current list of blocks.
:param category:
"""
# NOTE: a potential bug is that a block is deleted and another created which gets the old
# block's id. a possible fix is to cache the last serial in a dict in the structure
# {category: last_serial...}
# A potential confusion is if the name incorporates the parent's name, then if the child
# moves, its id won't change and will be confusing
serial = 1
while category + str(serial) in course_blocks:
serial += 1
return category + str(serial)
def _generate_course_id(self, id_root):
"""
Generate a somewhat readable course id unique w/in this db using the id_root
:param course_blocks: the current list of blocks.
:param category:
"""
existing_uses = self.course_index.find({"_id": {"$regex": id_root}})
if existing_uses.count() > 0:
max_found = 0
matcher = re.compile(id_root + r'(\d+)')
for entry in existing_uses:
serial = re.search(matcher, entry['_id'])
if serial is not None and serial.groups > 0:
value = int(serial.group(1))
if value > max_found:
max_found = value
return id_root + str(max_found + 1)
else:
return id_root
# TODO I would love to write this to take a real descriptor and persist it BUT descriptors, kvs, and dbmodel
# all assume locators are set and unique! Having this take the model contents piecemeal breaks the separation
# of model from persistence layer
def create_item(self, course_or_parent_locator, category, user_id, definition_locator=None, new_def_data=None,
metadata=None, force=False):
"""
Add a descriptor to persistence as the last child of the optional parent_location or just as an element
of the course (if no parent provided). Return the resulting post saved version with populated locators.
If the locator is a BlockUsageLocator, then it's assumed to be the parent. If it's a CourseLocator, then it's
merely the containing course.
raises InsufficientSpecificationError if there is no course locator.
raises VersionConflictError if course_id and version_guid given and the current version head != version_guid
and force is not True.
force: fork the structure and don't update the course draftVersion if the above
The incoming definition_locator should either be None to indicate this is a brand new definition or
a pointer to the existing definition to which this block should point or from which this was derived.
If new_def_data is None, then definition_locator must have a value meaning that this block points
to the existing definition. If new_def_data is not None and definition_location is not None, then
new_def_data is assumed to be a new payload for definition_location.
Creates a new version of the course structure, creates and inserts the new block, makes the block point
to the definition which may be new or a new version of an existing or an existing.
Rules for course locator:
* If the course locator specifies a course_id and either it doesn't
specify version_guid or the one it specifies == the current draft, it progresses the course to point
to the new draft and sets the active version to point to the new draft
* If the locator has a course_id but its version_guid != current draft, it raises VersionConflictError.
NOTE: using a version_guid will end up creating a new version of the course. Your new item won't be in
the course id'd by version_guid but instead in one w/ a new version_guid. Ensure in this case that you get
the new version_guid from the locator in the returned object!
"""
# find course_index entry if applicable and structures entry
index_entry = self._get_index_if_valid(course_or_parent_locator, force)
structure = self._lookup_course(course_or_parent_locator)
# persist the definition if persisted != passed
if (definition_locator is None or definition_locator.definition_id is None):
definition_locator = self.create_definition_from_data(new_def_data, category, user_id)
elif new_def_data is not None:
definition_locator, _ = self.update_definition_from_data(definition_locator, new_def_data, user_id)
# copy the structure and modify the new one
new_structure = self._version_structure(structure, user_id)
# generate an id
new_usage_id = self._generate_usage_id(new_structure['blocks'], category)
update_version_keys = ['blocks.{}.update_version'.format(new_usage_id)]
if isinstance(course_or_parent_locator, BlockUsageLocator) and course_or_parent_locator.usage_id is not None:
parent = new_structure['blocks'][course_or_parent_locator.usage_id]
parent['children'].append(new_usage_id)
parent['edited_on'] = datetime.datetime.utcnow()
parent['edited_by'] = user_id
parent['previous_version'] = parent['update_version']
update_version_keys.append('blocks.{}.update_version'.format(course_or_parent_locator.usage_id))
new_structure['blocks'][new_usage_id] = {
"children": [],
"category": category,
"definition": definition_locator.definition_id,
"metadata": metadata if metadata else {},
'edited_on': datetime.datetime.utcnow(),
'edited_by': user_id,
'previous_version': None
}
new_id = self.structures.insert(new_structure)
update_version_payload = {key: new_id for key in update_version_keys}
self.structures.update({'_id': new_id},
{'$set': update_version_payload})
# update the index entry if appropriate
if index_entry is not None:
self._update_head(index_entry, course_or_parent_locator.revision, new_id)
course_parent = course_or_parent_locator.as_course_locator()
else:
course_parent = None
# fetch and return the new item--fetching is unnecessary but a good qc step
return self.get_item(BlockUsageLocator(course_id=course_parent,
usage_id=new_usage_id,
version_guid=new_id))
def create_course(self, org, prettyid, user_id, id_root=None, metadata=None, course_data=None,
master_version='draft', versions_dict=None, root_category='course'):
"""
Create a new entry in the active courses index which points to an existing or new structure. Returns
the course root of the resulting entry (the location has the course id)
id_root: allows the caller to specify the course_id. It's a root in that, if it's already taken,
this method will append things to the root to make it unique. (defaults to org)
metadata: if provided, will set the metadata of the root course object in the new draft course. If both
metadata and a starting version are provided, it will generate a successor version to the given version,
and update the metadata with any provided values (via update not setting).
course_data: if provided, will update the data of the new course xblock definition to this. Like metadata,
if provided, this will cause a new version of any given version as well as a new version of the
definition (which will point to the existing one if given a version). If not provided and given
a draft_version, it will reuse the same definition as the draft course (obvious since it's reusing the draft
course). If not provided and no draft is given, it will be empty and get the field defaults (hopefully) when
loaded.
master_version: the tag (key) for the version name in the dict which is the 'draft' version. Not the actual
version guid, but what to call it.
versions_dict: the starting version ids where the keys are the tags such as 'draft' and 'published'
and the values are structure guids. If provided, the new course will reuse this version (unless you also
provide any overrides such as metadata, see above). if not provided, will create a mostly empty course
structure with just a category course root xblock.
"""
if metadata is None:
metadata = {}
# build from inside out: definition, structure, index entry
# if building a wholly new structure
if versions_dict is None or master_version not in versions_dict:
# create new definition and structure
if course_data is None:
course_data = {}
definition_entry = {
'category': root_category,
'data': course_data,
'edited_by': user_id,
'edited_on': datetime.datetime.utcnow(),
'previous_version': None,
}
definition_id = self.definitions.insert(definition_entry)
definition_entry['original_version'] = definition_id
self.definitions.update({'_id': definition_id}, {'$set': {"original_version": definition_id}})
draft_structure = {
'root': 'course',
'previous_version': None,
'edited_by': user_id,
'edited_on': datetime.datetime.utcnow(),
'blocks': {
'course': {
'children':[],
'category': 'course',
'definition': definition_id,
'metadata': metadata,
'edited_on': datetime.datetime.utcnow(),
'edited_by': user_id,
'previous_version': None}}}
new_id = self.structures.insert(draft_structure)
draft_structure['original_version'] = new_id
self.structures.update({'_id': new_id},
{'$set': {"original_version": new_id,
'blocks.course.update_version': new_id}})
if versions_dict is None:
versions_dict = {master_version: new_id}
else:
versions_dict[master_version] = new_id
else:
# just get the draft_version structure
draft_version = CourseLocator(version_guid=versions_dict[master_version])
draft_structure = self._lookup_course(draft_version)
if course_data is not None or metadata:
draft_structure = self._version_structure(draft_structure, user_id)
root_block = draft_structure['blocks'][draft_structure['root']]
if metadata is not None:
root_block['metadata'].update(metadata)
if course_data is not None:
definition = self.definitions.find_one({'_id': root_block['definition']})
definition['data'].update(course_data)
definition['previous_version'] = definition['_id']
definition['edited_by'] = user_id
definition['edited_on'] = datetime.datetime.utcnow()
del definition['_id']
root_block['definition'] = self.definitions.insert(definition)
root_block['edited_on'] = datetime.datetime.utcnow()
root_block['edited_by'] = user_id
root_block['previous_version'] = root_block.get('update_version')
# insert updates the '_id' in draft_structure
new_id = self.structures.insert(draft_structure)
versions_dict[master_version] = new_id
self.structures.update({'_id': new_id},
{'$set': {'blocks.{}.update_version'.format(draft_structure['root']): new_id}})
# create the index entry
if id_root is None:
id_root = org
new_id = self._generate_course_id(id_root)
index_entry = {
'_id': new_id,
'org': org,
'prettyid': prettyid,
'edited_by': user_id,
'edited_on': datetime.datetime.utcnow(),
'versions': versions_dict}
new_id = self.course_index.insert(index_entry)
return self.get_course(CourseLocator(course_id=new_id, revision=master_version))
def update_item(self, descriptor, user_id, force=False):
"""
Save the descriptor's definition, metadata, & children references (i.e., it doesn't descend the tree).
Return the new descriptor (updated location).
raises ItemNotFoundError if the location does not exist.
Creates a new course version. If the descriptor's location has a course_id, it moves the course head
pointer. If the version_guid of the descriptor points to a non-head version and there's been an intervening
change to this item, it raises a VersionConflictError unless force is True. In the force case, it forks
the course but leaves the head pointer where it is (this change will not be in the course head).
The implementation tries to detect which, if any changes, actually need to be saved and thus won't version
the definition, structure, nor course if they didn't change.
"""
original_structure = self._lookup_course(descriptor.location)
index_entry = self._get_index_if_valid(descriptor.location, force)
descriptor.definition_locator, is_updated = self.update_definition_from_data(
descriptor.definition_locator, descriptor.xblock_kvs.get_data(), user_id)
# check children
original_entry = original_structure['blocks'][descriptor.location.usage_id]
if (not is_updated and descriptor.has_children
and not self._xblock_lists_equal(original_entry['children'], descriptor.children)):
is_updated = True
# check metadata
if not is_updated:
is_updated = self._compare_metadata(descriptor.xblock_kvs.get_own_metadata(), original_entry['metadata'])
# if updated, rev the structure
if is_updated:
new_structure = self._version_structure(original_structure, user_id)
block_data = new_structure['blocks'][descriptor.location.usage_id]
if descriptor.has_children:
block_data["children"] = [self._usage_id(child) for child in descriptor.children]
block_data["definition"] = descriptor.definition_locator.definition_id
block_data["metadata"] = descriptor.xblock_kvs.get_own_metadata()
block_data['edited_on'] = datetime.datetime.utcnow()
block_data['edited_by'] = user_id
block_data['previous_version'] = block_data['update_version']
new_id = self.structures.insert(new_structure)
self.structures.update({'_id': new_id},
{'$set': {'blocks.{}.update_version'.format(descriptor.location.usage_id): new_id}})
# update the index entry if appropriate
if index_entry is not None:
self._update_head(index_entry, descriptor.location.revision, new_id)
# fetch and return the new item--fetching is unnecessary but a good qc step
return self.get_item(BlockUsageLocator(descriptor.location, version_guid=new_id))
else:
# nothing changed, just return the one sent in
return descriptor
def persist_xblock_dag(self, xblock, user_id, force=False):
"""
create or update the xblock and all of its children. The xblock's location must specify a course.
If it doesn't specify a usage_id, then it's presumed to be new and need creation. This function
descends the children performing the same operation for any that are xblocks. Any children which
are usage_ids just update the children pointer.
All updates go into the same course version (bulk updater).
Updates the objects which came in w/ updated location and definition_location info.
returns the post-persisted version of the incoming xblock. Note that its children will be ids not
objects.
:param xblock:
:param user_id:
"""
# find course_index entry if applicable and structures entry
index_entry = self._get_index_if_valid(xblock.location, force)
structure = self._lookup_course(xblock.location)
new_structure = self._version_structure(structure, user_id)
changed_blocks = self._persist_subdag(xblock, user_id, new_structure['blocks'])
if changed_blocks:
new_id = self.structures.insert(new_structure)
update_command = {}
for usage_id in changed_blocks:
update_command['blocks.{}.update_version'.format(usage_id)] = new_id
self.structures.update({'_id': new_id}, {'$set': update_command})
# update the index entry if appropriate
if index_entry is not None:
self._update_head(index_entry, xblock.location.revision, new_id)
# fetch and return the new item--fetching is unnecessary but a good qc step
return self.get_item(BlockUsageLocator(xblock.location, version_guid=new_id))
else:
return xblock
def _persist_subdag(self, xblock, user_id, structure_blocks):
# persist the definition if persisted != passed
new_def_data = xblock.xblock_kvs.get_data()
if (xblock.definition_locator is None or xblock.definition_locator.definition_id is None):
xblock.definition_locator = self.create_definition_from_data(new_def_data,
xblock.category, user_id)
is_updated = True
elif new_def_data is not None:
xblock.definition_locator, is_updated = self.update_definition_from_data(xblock.definition_locator,
new_def_data, user_id)
if xblock.location.usage_id is None:
# generate an id
is_new = True
is_updated = True
usage_id = self._generate_usage_id(structure_blocks, xblock.category)
xblock.location.usage_id = usage_id
else:
is_new = False
usage_id = xblock.location.usage_id
if (not is_updated and xblock.has_children
and not self._xblock_lists_equal(structure_blocks[usage_id]['children'], xblock.children)):
is_updated = True
children = []
updated_blocks = []
if xblock.has_children:
for child in xblock.children:
if isinstance(child, XModuleDescriptor):
updated_blocks += self._persist_subdag(child, user_id, structure_blocks)
children.append(child.location.usage_id)
else:
children.append(child)
is_updated = is_updated or updated_blocks
metadata = xblock.xblock_kvs.get_own_metadata()
if not is_new and not is_updated:
is_updated = self._compare_metadata(metadata, structure_blocks[usage_id]['metadata'])
if is_updated:
structure_blocks[usage_id] = {
"children": children,
"category": xblock.category,
"definition": xblock.definition_locator.definition_id,
"metadata": metadata if metadata else {},
'previous_version': structure_blocks.get(usage_id, {}).get('update_version'),
'edited_by': user_id,
'edited_on': datetime.datetime.utcnow()
}
updated_blocks.append(usage_id)
return updated_blocks
def _compare_metadata(self, metadata, original_metadata):
original_keys = original_metadata.keys()
if len(metadata) != len(original_keys):
return True
else:
new_keys = metadata.keys()
for key in original_keys:
if key not in new_keys or original_metadata[key] != metadata[key]:
return True
# TODO change all callers to update_item
def update_children(self, course_id, location, children):
raise NotImplementedError()
# TODO change all callers to update_item
def update_metadata(self, course_id, location, metadata):
raise NotImplementedError()
def update_course_index(self, course_locator, new_values_dict, update_versions=False):
"""
Change the given course's index entry for the given fields. new_values_dict
should be a subset of the dict returned by get_course_index_info.
It cannot include '_id' (will raise IllegalArgument).
Provide update_versions=True if you intend this to replace the versions hash.
Note, this operation can be dangerous and break running courses.
If the dict includes versions and not update_versions, it will raise an exception.
If the dict includes edited_on or edited_by, it will raise an exception
Does not return anything useful.
"""
# TODO how should this log the change? edited_on and edited_by for this entry
# has the semantic of who created the course and when; so, changing those will lose
# that information.
if '_id' in new_values_dict:
raise ValueError("Cannot override _id")
if 'edited_on' in new_values_dict or 'edited_by' in new_values_dict:
raise ValueError("Cannot set edited_on or edited_by")
if not update_versions and 'versions' in new_values_dict:
raise ValueError("Cannot override versions without setting update_versions")
self.course_index.update({'_id': course_locator.course_id},
{'$set': new_values_dict})
def delete_item(self, usage_locator, user_id, force=False):
"""
Delete the tree rooted at block and any references w/in the course to the block
from a new version of the course structure.
returns CourseLocator for new version
raises ItemNotFoundError if the location does not exist.
raises ValueError if usage_locator points to the structure root
Creates a new course version. If the descriptor's location has a course_id, it moves the course head
pointer. If the version_guid of the descriptor points to a non-head version and there's been an intervening
change to this item, it raises a VersionConflictError unless force is True. In the force case, it forks
the course but leaves the head pointer where it is (this change will not be in the course head).
"""
assert isinstance(usage_locator, BlockUsageLocator) and usage_locator.is_initialized()
original_structure = self._lookup_course(usage_locator)
if original_structure['root'] == usage_locator.usage_id:
raise ValueError("Cannot delete the root of a course")
index_entry = self._get_index_if_valid(usage_locator, force)
new_structure = self._version_structure(original_structure, user_id)
new_blocks = new_structure['blocks']
parents = self.get_parent_locations(usage_locator)
update_version_keys = []
for parent in parents:
parent_block = new_blocks[parent.usage_id]
parent_block['children'].remove(usage_locator.usage_id)
parent_block['edited_on'] = datetime.datetime.utcnow()
parent_block['edited_by'] = user_id
parent_block['previous_version'] = parent_block['update_version']
update_version_keys.append('blocks.{}.update_version'.format(parent.usage_id))
# remove subtree
def remove_subtree(usage_id):
for child in new_blocks[usage_id]['children']:
remove_subtree(child)
del new_blocks[usage_id]
remove_subtree(usage_locator.usage_id)
# update index if appropriate and structures
new_id = self.structures.insert(new_structure)
if update_version_keys:
update_version_payload = {key: new_id for key in update_version_keys}
self.structures.update({'_id': new_id}, {'$set': update_version_payload})
result = CourseLocator(version_guid=new_id)
# update the index entry if appropriate
if index_entry is not None:
self._update_head(index_entry, usage_locator.revision, new_id)
result.course_id = usage_locator.course_id
result.revision = usage_locator.revision
return result
def delete_course(self, course_id):
"""
Remove the given course from the course index.
Only removes the course from the index. The data remains. You can use create_course
with a versions hash to restore the course; however, the edited_on and
edited_by won't reflect the originals, of course.
:param course_id: uses course_id rather than locator to emphasize its global effect
"""
index = self.course_index.find_one({'_id': course_id})
if index is None:
raise ItemNotFoundError(course_id)
# this is the only real delete in the system. should it do something else?
self.course_index.remove(index['_id'])
# TODO remove all callers and then this
def get_errored_courses(self):
"""
This function doesn't make sense for the mongo modulestore, as structures
are loaded on demand, rather than up front
"""
return {}
def inherit_metadata(self, block_map, block, inheriting_metadata=None):
"""
Updates block with any value
that exist in inheriting_metadata and don't appear in block['metadata'],
and then inherits block['metadata'] to all of the children in
block['children']. Filters by inheritance.INHERITABLE_METADATA
"""
if block is None:
return
if inheriting_metadata is None:
inheriting_metadata = {}
# the currently passed down values take precedence over any previously cached ones
# NOTE: this should show the values which all fields would have if inherited: i.e.,
# not set to the locally defined value but to value set by nearest ancestor who sets it
block.setdefault('_inherited_metadata', {}).update(inheriting_metadata)
# update the inheriting w/ what should pass to children
inheriting_metadata = block['_inherited_metadata'].copy()
for field in inheritance.INHERITABLE_METADATA:
if field in block['metadata']:
inheriting_metadata[field] = block['metadata'][field]
for child in block.get('children', []):
self.inherit_metadata(block_map, block_map[child], inheriting_metadata)
def descendants(self, block_map, usage_id, depth, descendent_map):
"""
adds block and its descendants out to depth to descendent_map
Depth specifies the number of levels of descendants to return
(0 => this usage only, 1 => this usage and its children, etc...)
A depth of None returns all descendants
"""
if usage_id not in block_map:
return descendent_map
if usage_id not in descendent_map:
descendent_map[usage_id] = block_map[usage_id]
if depth is None or depth > 0:
depth = depth - 1 if depth is not None else None
for child in block_map[usage_id].get('children', []):
descendent_map = self.descendants(block_map, child, depth,
descendent_map)
return descendent_map
def definition_locator(self, definition):
'''
Pull the id out of the definition w/ correct semantics for its
representation
'''
if isinstance(definition, DefinitionLazyLoader):
return definition.definition_locator
elif '_id' not in definition:
return None
else:
return DescriptionLocator(definition['_id'])
def _block_matches(self, value, qualifiers):
'''
Return True or False depending on whether the value (block contents)
matches the qualifiers as per get_items
:param value:
:param qualifiers:
'''
for key, criteria in qualifiers.iteritems():
if key in value:
target = value[key]
if not self._value_matches(target, criteria):
return False
elif criteria is not None:
return False
return True
def _value_matches(self, target, criteria):
''' helper for _block_matches '''
if isinstance(target, list):
return any(self._value_matches(ele, criteria)
for ele in target)
elif isinstance(criteria, dict):
if '$regex' in criteria:
return re.search(criteria['$regex'], target) is not None
elif not isinstance(target, dict):
return False
else:
return (isinstance(target, dict) and
self._block_matches(target, criteria))
else:
return criteria == target
def _xblock_lists_equal(self, lista, listb):
"""
Do the 2 lists refer to the same xblocks in the same order (presumes they're from the
same course)
:param lista:
:param listb:
"""
if len(lista) != len(listb):
return False
for idx in enumerate(lista):
if lista[idx] != listb[idx]:
itema = self._usage_id(lista[idx])
if itema != self._usage_id(listb[idx]):
return False
return True
def _usage_id(self, xblock_or_id):
"""
arg is either an xblock or an id. If an xblock, get the usage_id from its location. Otherwise, return itself.
:param xblock_or_id:
"""
if isinstance(xblock_or_id, XModuleDescriptor):
return xblock_or_id.location.usage_id
else:
return xblock_or_id
def _get_index_if_valid(self, locator, force=False):
"""
If the locator identifies a course and points to its draft (or plausibly its draft),
then return the index entry.
raises VersionConflictError if not the right version
:param locator:
"""
if locator.course_id is None or locator.revision is None:
return None
else:
index_entry = self.course_index.find_one({'_id': locator.course_id})
if (locator.version_guid is not None
and index_entry['versions'][locator.revision] != locator.version_guid
and not force):
raise VersionConflictError(
locator,
CourseLocator(
course_id=index_entry['_id'],
version_guid=index_entry['versions'][locator.revision],
revision=locator.revision))
else:
return index_entry
def _version_structure(self, structure, user_id):
"""
Copy the structure and update the history info (edited_by, edited_on, previous_version)
:param structure:
:param user_id:
"""
new_structure = structure.copy()
new_structure['blocks'] = new_structure['blocks'].copy()
del new_structure['_id']
new_structure['previous_version'] = structure['_id']
new_structure['edited_by'] = user_id
new_structure['edited_on'] = datetime.datetime.utcnow()
return new_structure
def _find_local_root(self, element_to_find, possibility, tree):
if possibility not in tree:
return False
if element_to_find in tree[possibility]:
return True
for subtree in tree[possibility]:
if self._find_local_root(element_to_find, subtree, tree):
return True
return False
def _update_head(self, index_entry, revision, new_id):
"""
Update the active index for the given course's revision to point to new_id
:param index_entry:
:param course_locator:
:param new_id:
"""
self.course_index.update(
{"_id": index_entry["_id"]},
{"$set": {"versions.{}".format(revision): new_id}})
common/lib/xmodule/xmodule/modulestore/split_mongo/split_mongo_kvs.py 0 → 100644
import copy
from xblock.core import Scope
from collections import namedtuple
from xblock.runtime import KeyValueStore, InvalidScopeError
from .definition_lazy_loader import DefinitionLazyLoader
# id is a BlockUsageLocator, def_id is the definition's guid
SplitMongoKVSid = namedtuple('SplitMongoKVSid', 'id, def_id')
# TODO should this be here or w/ x_module or ???
class SplitMongoKVS(KeyValueStore):
"""
A KeyValueStore that maps keyed data access to one of the 3 data areas
known to the MongoModuleStore (data, children, and metadata)
"""
def __init__(self, definition, children, metadata, _inherited_metadata, location, category):
"""
:param definition:
:param children:
:param metadata: the locally defined value for each metadata field
:param _inherited_metadata: the value of each inheritable field from above this.
Note, metadata may override and disagree w/ this b/c this says what the value
should be if metadata is undefined for this field.
"""
# ensure kvs's don't share objects w/ others so that changes can't appear in separate ones
# the particular use case was that changes to kvs's were polluting caches. My thinking was
# that kvs's should be independent thus responsible for the isolation.
if isinstance(definition, DefinitionLazyLoader):
self._definition = definition
else:
self._definition = copy.copy(definition)
self._children = copy.copy(children)
self._metadata = copy.copy(metadata)
self._inherited_metadata = _inherited_metadata
self._location = location
self._category = category
def get(self, key):
if key.scope == Scope.children:
return self._children
elif key.scope == Scope.parent:
return None
elif key.scope == Scope.settings:
if key.field_name in self._metadata:
return self._metadata[key.field_name]
elif key.field_name in self._inherited_metadata:
return self._inherited_metadata[key.field_name]
else:
raise KeyError()
elif key.scope == Scope.content:
if key.field_name == 'location':
return self._location
elif key.field_name == 'category':
return self._category
else:
if isinstance(self._definition, DefinitionLazyLoader):
self._definition = self._definition.fetch()
if (key.field_name == 'data' and
not isinstance(self._definition.get('data'), dict)):
return self._definition.get('data')
elif 'data' not in self._definition or key.field_name not in self._definition['data']:
raise KeyError()
else:
return self._definition['data'][key.field_name]
else:
raise InvalidScopeError(key.scope)
def set(self, key, value):
# TODO cache db update implications & add method to invoke
if key.scope == Scope.children:
self._children = value
# TODO remove inheritance from any orphaned exchildren
# TODO add inheritance to any new children
elif key.scope == Scope.settings:
# TODO if inheritable, push down to children who don't override
self._metadata[key.field_name] = value
elif key.scope == Scope.content:
if key.field_name == 'location':
self._location = value
elif key.field_name == 'category':
self._category = value
else:
if isinstance(self._definition, DefinitionLazyLoader):
self._definition = self._definition.fetch()
if (key.field_name == 'data' and
not isinstance(self._definition.get('data'), dict)):
self._definition.get('data')
else:
self._definition.setdefault('data', {})[key.field_name] = value
else:
raise InvalidScopeError(key.scope)
def delete(self, key):
# TODO cache db update implications & add method to invoke
if key.scope == Scope.children:
self._children = []
elif key.scope == Scope.settings:
# TODO if inheritable, ensure _inherited_metadata has value from above and
# revert children to that value
if key.field_name in self._metadata:
del self._metadata[key.field_name]
elif key.scope == Scope.content:
# don't allow deletion of location nor category
if key.field_name == 'location':
pass
elif key.field_name == 'category':
pass
else:
if isinstance(self._definition, DefinitionLazyLoader):
self._definition = self._definition.fetch()
if (key.field_name == 'data' and
not isinstance(self._definition.get('data'), dict)):
self._definition.setdefault('data', None)
else:
try:
del self._definition['data'][key.field_name]
except KeyError:
pass
else:
raise InvalidScopeError(key.scope)
def has(self, key):
if key.scope in (Scope.children, Scope.parent):
return True
elif key.scope == Scope.settings:
return key.field_name in self._metadata or key.field_name in self._inherited_metadata
elif key.scope == Scope.content:
if key.field_name == 'location':
return True
elif key.field_name == 'category':
return self._category is not None
else:
if isinstance(self._definition, DefinitionLazyLoader):
self._definition = self._definition.fetch()
if (key.field_name == 'data' and
not isinstance(self._definition.get('data'), dict)):
return self._definition.get('data') is not None
else:
return key.field_name in self._definition.get('data', {})
else:
return False
def get_data(self):
"""
Intended only for use by persistence layer to get the native definition['data'] rep
"""
if isinstance(self._definition, DefinitionLazyLoader):
self._definition = self._definition.fetch()
return self._definition.get('data')
def get_own_metadata(self):
"""
Get the metadata explicitly set on this element.
"""
return self._metadata
def get_inherited_metadata(self):
"""
Get the metadata set by the ancestors (which own metadata may override or not)
"""
return self._inherited_metadata
common/lib/xmodule/xmodule/modulestore/tests/persistent_factories.py 0 → 100644
from xmodule.modulestore.django import modulestore
from xmodule.course_module import CourseDescriptor
from xmodule.x_module import XModuleDescriptor
import factory
# [dhm] I'm not sure why we're using factory_boy if we're not following its pattern. If anyone
# assumes they can call build, it will completely fail, for example.
# pylint: disable=W0232
class PersistentCourseFactory(factory.Factory):
"""
Create a new course (not a new version of a course, but a whole new index entry).
keywords:
* org: defaults to textX
* prettyid: defaults to 999
* display_name
* user_id
* data (optional) the data payload to save in the course item
* metadata (optional) the metadata payload. If display_name is in the metadata, that takes
precedence over any display_name provided directly.
"""
FACTORY_FOR = CourseDescriptor
org = 'testX'
prettyid = '999'
display_name = 'Robot Super Course'
user_id = "test_user"
data = None
metadata = None
master_version = 'draft'
# pylint: disable=W0613
@classmethod
def _create(cls, target_class, *args, **kwargs):
org = kwargs.get('org')
prettyid = kwargs.get('prettyid')
display_name = kwargs.get('display_name')
user_id = kwargs.get('user_id')
data = kwargs.get('data')
metadata = kwargs.get('metadata', {})
if metadata is None:
metadata = {}
if 'display_name' not in metadata:
metadata['display_name'] = display_name
# Write the data to the mongo datastore
new_course = modulestore('split').create_course(
org, prettyid, user_id, metadata=metadata, course_data=data, id_root=prettyid,
master_version=kwargs.get('master_version'))
return new_course
@classmethod
def _build(cls, target_class, *args, **kwargs):
raise NotImplementedError()
class ItemFactory(factory.Factory):
FACTORY_FOR = XModuleDescriptor
category = 'chapter'
user_id = 'test_user'
display_name = factory.LazyAttributeSequence(lambda o, n: "{} {}".format(o.category, n))
# pylint: disable=W0613
@classmethod
def _create(cls, target_class, *args, **kwargs):
"""
Uses *kwargs*:
*parent_location* (required): the location of the course & possibly parent
*category* (defaults to 'chapter')
*data* (optional): the data for the item
definition_locator (optional): the DescriptorLocator for the definition this uses or branches
*display_name* (optional): the display name of the item
*metadata* (optional): dictionary of metadata attributes (display_name here takes
precedence over the above attr)
"""
metadata = kwargs.get('metadata', {})
if 'display_name' not in metadata and 'display_name' in kwargs:
metadata['display_name'] = kwargs['display_name']
return modulestore('split').create_item(kwargs['parent_location'], kwargs['category'],
kwargs['user_id'], definition_locator=kwargs.get('definition_locator'),
new_def_data=kwargs.get('data'), metadata=metadata)
@classmethod
def _build(cls, target_class, *args, **kwargs):
raise NotImplementedError()
common/lib/xmodule/xmodule/modulestore/tests/test_locators.py 0 → 100644
'''
Created on Mar 14, 2013
@author: dmitchell
'''
from unittest import TestCase
from nose.plugins.skip import SkipTest
from bson.objectid import ObjectId
from xmodule.modulestore.locator import Locator, CourseLocator, BlockUsageLocator
from xmodule.modulestore.exceptions import InvalidLocationError, \
InsufficientSpecificationError, OverSpecificationError
class LocatorTest(TestCase):
def test_cant_instantiate_abstract_class(self):
self.assertRaises(TypeError, Locator)
def test_course_constructor_overspecified(self):
self.assertRaises(
OverSpecificationError,
CourseLocator,
url='edx://edu.mit.eecs.6002x',
course_id='edu.harvard.history',
revision='published',
version_guid=ObjectId())
self.assertRaises(
OverSpecificationError,
CourseLocator,
url='edx://edu.mit.eecs.6002x',
course_id='edu.harvard.history',
version_guid=ObjectId())
self.assertRaises(
OverSpecificationError,
CourseLocator,
url='edx://edu.mit.eecs.6002x;published',
revision='draft')
self.assertRaises(
OverSpecificationError,
CourseLocator,
course_id='edu.mit.eecs.6002x;published',
revision='draft')
def test_course_constructor_underspecified(self):
self.assertRaises(InsufficientSpecificationError, CourseLocator)
self.assertRaises(InsufficientSpecificationError, CourseLocator, revision='published')
def test_course_constructor_bad_version_guid(self):
self.assertRaises(ValueError, CourseLocator, version_guid="012345")
self.assertRaises(InsufficientSpecificationError, CourseLocator, version_guid=None)
def test_course_constructor_version_guid(self):
# generate a random location
test_id_1 = ObjectId()
test_id_1_loc = str(test_id_1)
testobj_1 = CourseLocator(version_guid=test_id_1)
self.check_course_locn_fields(testobj_1, 'version_guid', version_guid=test_id_1)
self.assertEqual(str(testobj_1.version_guid), test_id_1_loc)
self.assertEqual(str(testobj_1), '@' + test_id_1_loc)
self.assertEqual(testobj_1.url(), 'edx://@' + test_id_1_loc)
# Test using a given string
test_id_2_loc = '519665f6223ebd6980884f2b'
test_id_2 = ObjectId(test_id_2_loc)
testobj_2 = CourseLocator(version_guid=test_id_2)
self.check_course_locn_fields(testobj_2, 'version_guid', version_guid=test_id_2)
self.assertEqual(str(testobj_2.version_guid), test_id_2_loc)
self.assertEqual(str(testobj_2), '@' + test_id_2_loc)
self.assertEqual(testobj_2.url(), 'edx://@' + test_id_2_loc)
def test_course_constructor_bad_course_id(self):
"""
Test all sorts of badly-formed course_ids (and urls with those course_ids)
"""
for bad_id in ('edu.mit.',
' edu.mit.eecs',
'edu.mit.eecs ',
'@edu.mit.eecs',
'#edu.mit.eecs',
'edu.mit.ee cs',
'edu.mit.ee,cs',
'edu.mit.ee/cs',
'edu.mit.ee$cs',
'edu.mit.ee&cs',
'edu.mit.ee()cs',
';this',
'edu.mit.eecs;',
'edu.mit.eecs;this;that',
'edu.mit.eecs;this;',
'edu.mit.eecs;this ',
'edu.mit.eecs;th%is ',
):
self.assertRaises(AssertionError, CourseLocator, course_id=bad_id)
self.assertRaises(AssertionError, CourseLocator, url='edx://' + bad_id)
def test_course_constructor_bad_url(self):
for bad_url in ('edx://',
'edx:/edu.mit.eecs',
'http://edu.mit.eecs',
'edu.mit.eecs',
'edx//edu.mit.eecs'):
self.assertRaises(AssertionError, CourseLocator, url=bad_url)
def test_course_constructor_redundant_001(self):
testurn = 'edu.mit.eecs.6002x'
testobj = CourseLocator(course_id=testurn, url='edx://' + testurn)
self.check_course_locn_fields(testobj, 'course_id', course_id=testurn)
def test_course_constructor_redundant_002(self):
testurn = 'edu.mit.eecs.6002x;published'
expected_urn = 'edu.mit.eecs.6002x'
expected_rev = 'published'
testobj = CourseLocator(course_id=testurn, url='edx://' + testurn)
self.check_course_locn_fields(testobj, 'course_id',
course_id=expected_urn,
revision=expected_rev)
def test_course_constructor_course_id_no_revision(self):
testurn = 'edu.mit.eecs.6002x'
testobj = CourseLocator(course_id=testurn)
self.check_course_locn_fields(testobj, 'course_id', course_id=testurn)
self.assertEqual(testobj.course_id, testurn)
self.assertEqual(str(testobj), testurn)
self.assertEqual(testobj.url(), 'edx://' + testurn)
def test_course_constructor_course_id_with_revision(self):
testurn = 'edu.mit.eecs.6002x;published'
expected_id = 'edu.mit.eecs.6002x'
expected_revision = 'published'
testobj = CourseLocator(course_id=testurn)
self.check_course_locn_fields(testobj, 'course_id with revision',
course_id=expected_id,
revision=expected_revision,
)
self.assertEqual(testobj.course_id, expected_id)
self.assertEqual(testobj.revision, expected_revision)
self.assertEqual(str(testobj), testurn)
self.assertEqual(testobj.url(), 'edx://' + testurn)
def test_course_constructor_course_id_separate_revision(self):
test_id = 'edu.mit.eecs.6002x'
test_revision = 'published'
expected_urn = 'edu.mit.eecs.6002x;published'
testobj = CourseLocator(course_id=test_id, revision=test_revision)
self.check_course_locn_fields(testobj, 'course_id with separate revision',
course_id=test_id,
revision=test_revision,
)
self.assertEqual(testobj.course_id, test_id)
self.assertEqual(testobj.revision, test_revision)
self.assertEqual(str(testobj), expected_urn)
self.assertEqual(testobj.url(), 'edx://' + expected_urn)
def test_course_constructor_course_id_repeated_revision(self):
"""
The same revision appears in the course_id and the revision field.
"""
test_id = 'edu.mit.eecs.6002x;published'
test_revision = 'published'
expected_id = 'edu.mit.eecs.6002x'
expected_urn = 'edu.mit.eecs.6002x;published'
testobj = CourseLocator(course_id=test_id, revision=test_revision)
self.check_course_locn_fields(testobj, 'course_id with repeated revision',
course_id=expected_id,
revision=test_revision,
)
self.assertEqual(testobj.course_id, expected_id)
self.assertEqual(testobj.revision, test_revision)
self.assertEqual(str(testobj), expected_urn)
self.assertEqual(testobj.url(), 'edx://' + expected_urn)
def test_block_constructor(self):
testurn = 'edu.mit.eecs.6002x;published#HW3'
expected_id = 'edu.mit.eecs.6002x'
expected_revision = 'published'
expected_block_ref = 'HW3'
testobj = BlockUsageLocator(course_id=testurn)
self.check_block_locn_fields(testobj, 'test_block constructor',
course_id=expected_id,
revision=expected_revision,
block=expected_block_ref)
self.assertEqual(str(testobj), testurn)
self.assertEqual(testobj.url(), 'edx://' + testurn)
# ------------------------------------------------------------
# Disabled tests
def test_course_urls(self):
'''
Test constructor and property accessors.
'''
raise SkipTest()
self.assertRaises(TypeError, CourseLocator, 'empty constructor')
# url inits
testurn = 'edx://org/course/category/name'
self.assertRaises(InvalidLocationError, CourseLocator, url=testurn)
testurn = 'unknown/versionid/blockid'
self.assertRaises(InvalidLocationError, CourseLocator, url=testurn)
testurn = 'cvx/versionid'
testobj = CourseLocator(testurn)
self.check_course_locn_fields(testobj, testurn, 'versionid')
self.assertEqual(testobj, CourseLocator(testobj),
'initialization from another instance')
testurn = 'cvx/versionid/'
testobj = CourseLocator(testurn)
self.check_course_locn_fields(testobj, testurn, 'versionid')
testurn = 'cvx/versionid/blockid'
testobj = CourseLocator(testurn)
self.check_course_locn_fields(testobj, testurn, 'versionid')
testurn = 'cvx/versionid/blockid/extraneousstuff?including=args'
testobj = CourseLocator(testurn)
self.check_course_locn_fields(testobj, testurn, 'versionid')
testurn = 'cvx://versionid/blockid'
testobj = CourseLocator(testurn)
self.check_course_locn_fields(testobj, testurn, 'versionid')
testurn = 'crx/courseid/blockid'
testobj = CourseLocator(testurn)
self.check_course_locn_fields(testobj, testurn, course_id='courseid')
testurn = 'crx/courseid@revision/blockid'
testobj = CourseLocator(testurn)
self.check_course_locn_fields(testobj, testurn, course_id='courseid',
revision='revision')
self.assertEqual(testobj, CourseLocator(testobj),
'run initialization from another instance')
def test_course_keyword_setters(self):
raise SkipTest()
# arg list inits
testobj = CourseLocator(version_guid='versionid')
self.check_course_locn_fields(testobj, 'versionid arg', 'versionid')
testobj = CourseLocator(course_id='courseid')
self.check_course_locn_fields(testobj, 'courseid arg',
course_id='courseid')
testobj = CourseLocator(course_id='courseid', revision='rev')
self.check_course_locn_fields(testobj, 'rev arg',
course_id='courseid',
revision='rev')
# ignores garbage
testobj = CourseLocator(course_id='courseid', revision='rev',
potato='spud')
self.check_course_locn_fields(testobj, 'extra keyword arg',
course_id='courseid',
revision='rev')
# url w/ keyword override
testurn = 'crx/courseid@revision/blockid'
testobj = CourseLocator(testurn, revision='rev')
self.check_course_locn_fields(testobj, 'rev override',
course_id='courseid',
revision='rev')
def test_course_dict(self):
raise SkipTest()
# dict init w/ keyword overwrites
testobj = CourseLocator({"version_guid": 'versionid'})
self.check_course_locn_fields(testobj, 'versionid dict', 'versionid')
testobj = CourseLocator({"course_id": 'courseid'})
self.check_course_locn_fields(testobj, 'courseid dict',
course_id='courseid')
testobj = CourseLocator({"course_id": 'courseid', "revision": 'rev'})
self.check_course_locn_fields(testobj, 'rev dict',
course_id='courseid',
revision='rev')
# ignores garbage
testobj = CourseLocator({"course_id": 'courseid', "revision": 'rev',
"potato": 'spud'})
self.check_course_locn_fields(testobj, 'extra keyword dict',
course_id='courseid',
revision='rev')
testobj = CourseLocator({"course_id": 'courseid', "revision": 'rev'},
revision='alt')
self.check_course_locn_fields(testobj, 'rev dict',
course_id='courseid',
revision='alt')
# urn init w/ dict & keyword overwrites
testobj = CourseLocator('crx/notcourse@notthis',
{"course_id": 'courseid'},
revision='alt')
self.check_course_locn_fields(testobj, 'rev dict',
course_id='courseid',
revision='alt')
def test_url(self):
'''
Ensure CourseLocator generates expected urls.
'''
raise SkipTest()
testobj = CourseLocator(version_guid='versionid')
self.assertEqual(testobj.url(), 'cvx/versionid', 'versionid')
self.assertEqual(testobj, CourseLocator(testobj.url()),
'versionid conversion through url')
testobj = CourseLocator(course_id='courseid')
self.assertEqual(testobj.url(), 'crx/courseid', 'courseid')
self.assertEqual(testobj, CourseLocator(testobj.url()),
'courseid conversion through url')
testobj = CourseLocator(course_id='courseid', revision='rev')
self.assertEqual(testobj.url(), 'crx/courseid@rev', 'rev')
self.assertEqual(testobj, CourseLocator(testobj.url()),
'rev conversion through url')
def test_html(self):
'''
Ensure CourseLocator generates expected urls.
'''
raise SkipTest()
testobj = CourseLocator(version_guid='versionid')
self.assertEqual(testobj.html_id(), 'cvx/versionid', 'versionid')
self.assertEqual(testobj, CourseLocator(testobj.html_id()),
'versionid conversion through html_id')
testobj = CourseLocator(course_id='courseid')
self.assertEqual(testobj.html_id(), 'crx/courseid', 'courseid')
self.assertEqual(testobj, CourseLocator(testobj.html_id()),
'courseid conversion through html_id')
testobj = CourseLocator(course_id='courseid', revision='rev')
self.assertEqual(testobj.html_id(), 'crx/courseid%40rev', 'rev')
self.assertEqual(testobj, CourseLocator(testobj.html_id()),
'rev conversion through html_id')
def test_block_locator(self):
'''
Test constructor and property accessors.
'''
raise SkipTest()
self.assertIsInstance(BlockUsageLocator(), BlockUsageLocator,
'empty constructor')
# url inits
testurn = 'edx://org/course/category/name'
self.assertRaises(InvalidLocationError, BlockUsageLocator, testurn)
testurn = 'unknown/versionid/blockid'
self.assertRaises(InvalidLocationError, BlockUsageLocator, testurn)
testurn = 'cvx/versionid'
testobj = BlockUsageLocator(testurn)
self.check_block_locn_fields(testobj, testurn, 'versionid')
self.assertEqual(testobj, BlockUsageLocator(testobj),
'initialization from another instance')
testurn = 'cvx/versionid/'
testobj = BlockUsageLocator(testurn)
self.check_block_locn_fields(testobj, testurn, 'versionid')
testurn = 'cvx/versionid/blockid'
testobj = BlockUsageLocator(testurn)
self.check_block_locn_fields(testobj, testurn, 'versionid',
block='blockid')
testurn = 'cvx/versionid/blockid/extraneousstuff?including=args'
testobj = BlockUsageLocator(testurn)
self.check_block_locn_fields(testobj, testurn, 'versionid',
block='blockid')
testurn = 'cvx://versionid/blockid'
testobj = BlockUsageLocator(testurn)
self.check_block_locn_fields(testobj, testurn, 'versionid',
block='blockid')
testurn = 'crx/courseid/blockid'
testobj = BlockUsageLocator(testurn)
self.check_block_locn_fields(testobj, testurn, course_id='courseid',
block='blockid')
testurn = 'crx/courseid@revision/blockid'
testobj = BlockUsageLocator(testurn)
self.check_block_locn_fields(testobj, testurn, course_id='courseid',
revision='revision', block='blockid')
self.assertEqual(testobj, BlockUsageLocator(testobj),
'run initialization from another instance')
def test_block_keyword_init(self):
# arg list inits
raise SkipTest()
testobj = BlockUsageLocator(version_guid='versionid')
self.check_block_locn_fields(testobj, 'versionid arg', 'versionid')
testobj = BlockUsageLocator(version_guid='versionid', usage_id='myblock')
self.check_block_locn_fields(testobj, 'versionid arg', 'versionid',
block='myblock')
testobj = BlockUsageLocator(course_id='courseid')
self.check_block_locn_fields(testobj, 'courseid arg',
course_id='courseid')
testobj = BlockUsageLocator(course_id='courseid', revision='rev')
self.check_block_locn_fields(testobj, 'rev arg',
course_id='courseid',
revision='rev')
# ignores garbage
testobj = BlockUsageLocator(course_id='courseid', revision='rev',
usage_id='this_block', potato='spud')
self.check_block_locn_fields(testobj, 'extra keyword arg',
course_id='courseid', block='this_block', revision='rev')
# url w/ keyword override
testurn = 'crx/courseid@revision/blockid'
testobj = BlockUsageLocator(testurn, revision='rev')
self.check_block_locn_fields(testobj, 'rev override',
course_id='courseid', block='blockid',
revision='rev')
def test_block_keywords(self):
# dict init w/ keyword overwrites
raise SkipTest()
testobj = BlockUsageLocator({"version_guid": 'versionid',
'usage_id': 'dictblock'})
self.check_block_locn_fields(testobj, 'versionid dict', 'versionid',
block='dictblock')
testobj = BlockUsageLocator({"course_id": 'courseid',
'usage_id': 'dictblock'})
self.check_block_locn_fields(testobj, 'courseid dict',
block='dictblock', course_id='courseid')
testobj = BlockUsageLocator({"course_id": 'courseid', "revision": 'rev',
'usage_id': 'dictblock'})
self.check_block_locn_fields(testobj, 'rev dict',
course_id='courseid', block='dictblock',
revision='rev')
# ignores garbage
testobj = BlockUsageLocator({"course_id": 'courseid', "revision": 'rev',
'usage_id': 'dictblock', "potato": 'spud'})
self.check_block_locn_fields(testobj, 'extra keyword dict',
course_id='courseid', block='dictblock',
revision='rev')
testobj = BlockUsageLocator({"course_id": 'courseid', "revision": 'rev',
'usage_id': 'dictblock'}, revision='alt', usage_id='anotherblock')
self.check_block_locn_fields(testobj, 'rev dict',
course_id='courseid', block='anotherblock',
revision='alt')
# urn init w/ dict & keyword overwrites
testobj = BlockUsageLocator('crx/notcourse@notthis/northis',
{"course_id": 'courseid'}, revision='alt', usage_id='anotherblock')
self.check_block_locn_fields(testobj, 'rev dict',
course_id='courseid', block='anotherblock',
revision='alt')
def test_ensure_fully_specd(self):
'''
Test constructor and property accessors.
'''
raise SkipTest()
self.assertRaises(InsufficientSpecificationError,
BlockUsageLocator.ensure_fully_specified, BlockUsageLocator())
# url inits
testurn = 'edx://org/course/category/name'
self.assertRaises(InvalidLocationError,
BlockUsageLocator.ensure_fully_specified, testurn)
testurn = 'unknown/versionid/blockid'
self.assertRaises(InvalidLocationError,
BlockUsageLocator.ensure_fully_specified, testurn)
testurn = 'cvx/versionid'
self.assertRaises(InsufficientSpecificationError,
BlockUsageLocator.ensure_fully_specified, testurn)
testurn = 'cvx/versionid/'
self.assertRaises(InsufficientSpecificationError,
BlockUsageLocator.ensure_fully_specified, testurn)
testurn = 'cvx/versionid/blockid'
self.assertIsInstance(BlockUsageLocator.ensure_fully_specified(testurn),
BlockUsageLocator, testurn)
testurn = 'cvx/versionid/blockid/extraneousstuff?including=args'
self.assertIsInstance(BlockUsageLocator.ensure_fully_specified(testurn),
BlockUsageLocator, testurn)
testurn = 'cvx://versionid/blockid'
self.assertIsInstance(BlockUsageLocator.ensure_fully_specified(testurn),
BlockUsageLocator, testurn)
testurn = 'crx/courseid/blockid'
self.assertIsInstance(BlockUsageLocator.ensure_fully_specified(testurn),
BlockUsageLocator, testurn)
testurn = 'crx/courseid@revision/blockid'
self.assertIsInstance(BlockUsageLocator.ensure_fully_specified(testurn),
BlockUsageLocator, testurn)
def test_ensure_fully_via_keyword(self):
# arg list inits
raise SkipTest()
testobj = BlockUsageLocator(version_guid='versionid')
self.assertRaises(InsufficientSpecificationError,
BlockUsageLocator.ensure_fully_specified, testobj)
testurn = 'crx/courseid@revision/blockid'
testobj = BlockUsageLocator(version_guid='versionid', usage_id='myblock')
self.assertIsInstance(BlockUsageLocator.ensure_fully_specified(testurn),
BlockUsageLocator, testurn)
testobj = BlockUsageLocator(course_id='courseid')
self.assertRaises(InsufficientSpecificationError,
BlockUsageLocator.ensure_fully_specified, testobj)
testobj = BlockUsageLocator(course_id='courseid', revision='rev')
self.assertRaises(InsufficientSpecificationError,
BlockUsageLocator.ensure_fully_specified, testobj)
testobj = BlockUsageLocator(course_id='courseid', revision='rev',
usage_id='this_block')
self.assertIsInstance(BlockUsageLocator.ensure_fully_specified(testurn),
BlockUsageLocator, testurn)
# ------------------------------------------------------------------
# Utilities
def check_course_locn_fields(self, testobj, msg, version_guid=None,
course_id=None, revision=None):
self.assertEqual(testobj.version_guid, version_guid, msg)
self.assertEqual(testobj.course_id, course_id, msg)
self.assertEqual(testobj.revision, revision, msg)
def check_block_locn_fields(self, testobj, msg, version_guid=None,
course_id=None, revision=None, block=None):
self.check_course_locn_fields(testobj, msg, version_guid, course_id,
revision)
self.assertEqual(testobj.usage_id, block)
common/lib/xmodule/xmodule/modulestore/tests/test_split_modulestore.py 0 → 100644
'''
Created on Mar 25, 2013
@author: dmitchell
'''
import datetime
import subprocess
import unittest
import uuid
from importlib import import_module
from xblock.core import Scope
from xmodule.course_module import CourseDescriptor
from xmodule.modulestore.exceptions import InsufficientSpecificationError, ItemNotFoundError, VersionConflictError
from xmodule.modulestore.locator import CourseLocator, BlockUsageLocator, VersionTree, DescriptionLocator
from pytz import UTC
from path import path
import re
class SplitModuleTest(unittest.TestCase):
'''
The base set of tests manually populates a db w/ courses which have
versions. It creates unique collection names and removes them after all
tests finish.
'''
# Snippet of what would be in the django settings envs file
modulestore_options = {
'default_class': 'xmodule.raw_module.RawDescriptor',
'host': 'localhost',
'db': 'test_xmodule',
'collection': 'modulestore{0}'.format(uuid.uuid4().hex),
'fs_root': '',
}
MODULESTORE = {
'ENGINE': 'xmodule.modulestore.split_mongo.SplitMongoModuleStore',
'OPTIONS': modulestore_options
}
# don't create django dependency; so, duplicates common.py in envs
match = re.search(r'(.*?/common)(?:$|/)', path(__file__))
COMMON_ROOT = match.group(1)
modulestore = None
# These version_guids correspond to values hard-coded in fixture files
# used for these tests. The files live in mitx/fixtures/splitmongo_json/*
GUID_D0 = "1d00000000000000dddd0000" # v12345d
GUID_D1 = "1d00000000000000dddd1111" # v12345d1
GUID_D2 = "1d00000000000000dddd2222" # v23456d
GUID_D3 = "1d00000000000000dddd3333" # v12345d0
GUID_D4 = "1d00000000000000dddd4444" # v23456d0
GUID_D5 = "1d00000000000000dddd5555" # v345679d
GUID_P = "1d00000000000000eeee0000" # v23456p
@staticmethod
def bootstrapDB():
'''
Loads the initial data into the db ensuring the collection name is
unique.
'''
collection_prefix = SplitModuleTest.MODULESTORE['OPTIONS']['collection'] + '.'
dbname = SplitModuleTest.MODULESTORE['OPTIONS']['db']
processes = [
subprocess.Popen([
'mongoimport', '-d', dbname, '-c',
collection_prefix + collection, '--jsonArray',
'--file',
SplitModuleTest.COMMON_ROOT + '/test/data/splitmongo_json/' + collection + '.json'
])
for collection in ('active_versions', 'structures', 'definitions')]
for p in processes:
if p.wait() != 0:
raise Exception("DB did not init correctly")
@classmethod
def tearDownClass(cls):
collection_prefix = SplitModuleTest.MODULESTORE['OPTIONS']['collection'] + '.'
if SplitModuleTest.modulestore:
for collection in ('active_versions', 'structures', 'definitions'):
modulestore().db.drop_collection(collection_prefix + collection)
# drop the modulestore to force re init
SplitModuleTest.modulestore = None
def findByIdInResult(self, collection, _id):
"""
Result is a collection of descriptors. Find the one whose block id
matches the _id.
"""
for element in collection:
if element.location.usage_id == _id:
return element
class SplitModuleCourseTests(SplitModuleTest):
'''
Course CRUD operation tests
'''
def test_get_courses(self):
courses = modulestore().get_courses('draft')
# should have gotten 3 draft courses
self.assertEqual(len(courses), 3, "Wrong number of courses")
# check metadata -- NOTE no promised order
course = self.findByIdInResult(courses, "head12345")
self.assertEqual(course.location.course_id, "GreekHero")
self.assertEqual(
str(course.location.version_guid), self.GUID_D0,
"course version mismatch"
)
self.assertEqual(course.category, 'course', 'wrong category')
self.assertEqual(len(course.tabs), 6, "wrong number of tabs")
self.assertEqual(
course.display_name, "The Ancient Greek Hero",
"wrong display name"
)
self.assertEqual(
course.advertised_start, "Fall 2013",
"advertised_start"
)
self.assertEqual(
len(course.children), 3,
"children")
self.assertEqual(course.definition_locator.definition_id, "head12345_12")
# check dates and graders--forces loading of descriptor
self.assertEqual(course.edited_by, "testassist@edx.org")
self.assertEqual(str(course.previous_version), self.GUID_D1)
self.assertDictEqual(course.grade_cutoffs, {"Pass": 0.45})
def test_revision_requests(self):
# query w/ revision qualifier (both draft and published)
courses_published = modulestore().get_courses('published')
self.assertEqual(len(courses_published), 1, len(courses_published))
course = self.findByIdInResult(courses_published, "head23456")
self.assertIsNotNone(course, "published courses")
self.assertEqual(course.location.course_id, "wonderful")
self.assertEqual(str(course.location.version_guid), self.GUID_P,
course.location.version_guid)
self.assertEqual(course.category, 'course', 'wrong category')
self.assertEqual(len(course.tabs), 4, "wrong number of tabs")
self.assertEqual(course.display_name, "The most wonderful course",
course.display_name)
self.assertIsNone(course.advertised_start)
self.assertEqual(len(course.children), 0,
"children")
def test_search_qualifiers(self):
# query w/ search criteria
courses = modulestore().get_courses('draft', qualifiers={'org': 'testx'})
self.assertEqual(len(courses), 2)
self.assertIsNotNone(self.findByIdInResult(courses, "head12345"))
self.assertIsNotNone(self.findByIdInResult(courses, "head23456"))
courses = modulestore().get_courses(
'draft',
qualifiers={'edited_on': {"$lt": datetime.datetime(2013, 3, 28, 15)}})
self.assertEqual(len(courses), 2)
courses = modulestore().get_courses(
'draft',
qualifiers={'org': 'testx', "prettyid": "test_course"})
self.assertEqual(len(courses), 1)
self.assertIsNotNone(self.findByIdInResult(courses, "head12345"))
def test_get_course(self):
'''
Test the various calling forms for get_course
'''
locator = CourseLocator(version_guid=self.GUID_D1)
course = modulestore().get_course(locator)
self.assertIsNone(course.location.course_id)
self.assertEqual(str(course.location.version_guid), self.GUID_D1)
self.assertEqual(course.category, 'course')
self.assertEqual(len(course.tabs), 6)
self.assertEqual(course.display_name, "The Ancient Greek Hero")
self.assertIsNone(course.advertised_start)
self.assertEqual(len(course.children), 0)
self.assertEqual(course.definition_locator.definition_id, "head12345_11")
# check dates and graders--forces loading of descriptor
self.assertEqual(course.edited_by, "testassist@edx.org")
self.assertDictEqual(course.grade_cutoffs, {"Pass": 0.55})
locator = CourseLocator(course_id='GreekHero', revision='draft')
course = modulestore().get_course(locator)
self.assertEqual(course.location.course_id, "GreekHero")
self.assertEqual(str(course.location.version_guid), self.GUID_D0)
self.assertEqual(course.category, 'course')
self.assertEqual(len(course.tabs), 6)
self.assertEqual(course.display_name, "The Ancient Greek Hero")
self.assertEqual(course.advertised_start, "Fall 2013")
self.assertEqual(len(course.children), 3)
# check dates and graders--forces loading of descriptor
self.assertEqual(course.edited_by, "testassist@edx.org")
self.assertDictEqual(course.grade_cutoffs, {"Pass": 0.45})
locator = CourseLocator(course_id='wonderful', revision='published')
course = modulestore().get_course(locator)
self.assertEqual(course.location.course_id, "wonderful")
self.assertEqual(str(course.location.version_guid), self.GUID_P)
locator = CourseLocator(course_id='wonderful', revision='draft')
course = modulestore().get_course(locator)
self.assertEqual(str(course.location.version_guid), self.GUID_D2)
def test_get_course_negative(self):
# Now negative testing
self.assertRaises(InsufficientSpecificationError,
modulestore().get_course, CourseLocator(course_id='edu.meh.blah'))
self.assertRaises(ItemNotFoundError,
modulestore().get_course, CourseLocator(course_id='nosuchthing', revision='draft'))
self.assertRaises(ItemNotFoundError,
modulestore().get_course,
CourseLocator(course_id='GreekHero', revision='published'))
def test_course_successors(self):
"""
get_course_successors(course_locator, version_history_depth=1)
"""
locator = CourseLocator(version_guid=self.GUID_D3)
result = modulestore().get_course_successors(locator)
self.assertIsInstance(result, VersionTree)
self.assertIsNone(result.locator.course_id)
self.assertEqual(str(result.locator.version_guid), self.GUID_D3)
self.assertEqual(len(result.children), 1)
self.assertEqual(str(result.children[0].locator.version_guid), self.GUID_D1)
self.assertEqual(len(result.children[0].children), 0, "descended more than one level")
result = modulestore().get_course_successors(locator, version_history_depth=2)
self.assertEqual(len(result.children), 1)
self.assertEqual(str(result.children[0].locator.version_guid), self.GUID_D1)
self.assertEqual(len(result.children[0].children), 1)
result = modulestore().get_course_successors(locator, version_history_depth=99)
self.assertEqual(len(result.children), 1)
self.assertEqual(str(result.children[0].locator.version_guid), self.GUID_D1)
self.assertEqual(len(result.children[0].children), 1)
class SplitModuleItemTests(SplitModuleTest):
'''
Item read tests including inheritance
'''
def test_has_item(self):
'''
has_item(BlockUsageLocator)
'''
# positive tests of various forms
locator = BlockUsageLocator(version_guid=self.GUID_D1, usage_id='head12345')
self.assertTrue(modulestore().has_item(locator),
"couldn't find in %s" % self.GUID_D1)
locator = BlockUsageLocator(course_id='GreekHero', usage_id='head12345', revision='draft')
self.assertTrue(
modulestore().has_item(locator),
"couldn't find in 12345"
)
self.assertTrue(
modulestore().has_item(BlockUsageLocator(
course_id=locator.course_id,
revision='draft',
usage_id=locator.usage_id
)),
"couldn't find in draft 12345"
)
self.assertFalse(
modulestore().has_item(BlockUsageLocator(
course_id=locator.course_id,
revision='published',
usage_id=locator.usage_id)),
"found in published 12345"
)
locator.revision = 'draft'
self.assertTrue(
modulestore().has_item(locator),
"not found in draft 12345"
)
# not a course obj
locator = BlockUsageLocator(course_id='GreekHero', usage_id='chapter1', revision='draft')
self.assertTrue(
modulestore().has_item(locator),
"couldn't find chapter1"
)
# in published course
locator = BlockUsageLocator(course_id="wonderful", usage_id="head23456", revision='draft')
self.assertTrue(modulestore().has_item(BlockUsageLocator(course_id=locator.course_id,
usage_id=locator.usage_id,
revision='published')),
"couldn't find in 23456")
locator.revision = 'published'
self.assertTrue(modulestore().has_item(locator), "couldn't find in 23456")
def test_negative_has_item(self):
# negative tests--not found
# no such course or block
locator = BlockUsageLocator(course_id="doesnotexist", usage_id="head23456", revision='draft')
self.assertFalse(modulestore().has_item(locator))
locator = BlockUsageLocator(course_id="wonderful", usage_id="doesnotexist", revision='draft')
self.assertFalse(modulestore().has_item(locator))
# negative tests--insufficient specification
self.assertRaises(InsufficientSpecificationError, BlockUsageLocator)
self.assertRaises(InsufficientSpecificationError,
modulestore().has_item, BlockUsageLocator(version_guid=self.GUID_D1))
self.assertRaises(InsufficientSpecificationError,
modulestore().has_item, BlockUsageLocator(course_id='GreekHero'))
def test_get_item(self):
'''
get_item(blocklocator)
'''
# positive tests of various forms
locator = BlockUsageLocator(version_guid=self.GUID_D1, usage_id='head12345')
block = modulestore().get_item(locator)
self.assertIsInstance(block, CourseDescriptor)
locator = BlockUsageLocator(course_id='GreekHero', usage_id='head12345', revision='draft')
block = modulestore().get_item(locator)
self.assertEqual(block.location.course_id, "GreekHero")
# look at this one in detail
self.assertEqual(len(block.tabs), 6, "wrong number of tabs")
self.assertEqual(block.display_name, "The Ancient Greek Hero")
self.assertEqual(block.advertised_start, "Fall 2013")
self.assertEqual(len(block.children), 3)
self.assertEqual(block.definition_locator.definition_id, "head12345_12")
# check dates and graders--forces loading of descriptor
self.assertEqual(block.edited_by, "testassist@edx.org")
self.assertDictEqual(
block.grade_cutoffs, {"Pass": 0.45},
)
# try to look up other revisions
self.assertRaises(ItemNotFoundError,
modulestore().get_item,
BlockUsageLocator(course_id=locator.as_course_locator(),
usage_id=locator.usage_id,
revision='published'))
locator.revision = 'draft'
self.assertIsInstance(
modulestore().get_item(locator),
CourseDescriptor
)
def test_get_non_root(self):
# not a course obj
locator = BlockUsageLocator(course_id='GreekHero', usage_id='chapter1', revision='draft')
block = modulestore().get_item(locator)
self.assertEqual(block.location.course_id, "GreekHero")
self.assertEqual(block.category, 'chapter')
self.assertEqual(block.definition_locator.definition_id, "chapter12345_1")
self.assertEqual(block.display_name, "Hercules")
self.assertEqual(block.edited_by, "testassist@edx.org")
# in published course
locator = BlockUsageLocator(course_id="wonderful", usage_id="head23456", revision='published')
self.assertIsInstance(
modulestore().get_item(locator),
CourseDescriptor
)
# negative tests--not found
# no such course or block
locator = BlockUsageLocator(course_id="doesnotexist", usage_id="head23456", revision='draft')
with self.assertRaises(ItemNotFoundError):
modulestore().get_item(locator)
locator = BlockUsageLocator(course_id="wonderful", usage_id="doesnotexist", revision='draft')
with self.assertRaises(ItemNotFoundError):
modulestore().get_item(locator)
# negative tests--insufficient specification
with self.assertRaises(InsufficientSpecificationError):
modulestore().get_item(BlockUsageLocator(version_guid=self.GUID_D1))
with self.assertRaises(InsufficientSpecificationError):
modulestore().get_item(BlockUsageLocator(course_id='GreekHero', revision='draft'))
# pylint: disable=W0212
def test_matching(self):
'''
test the block and value matches help functions
'''
self.assertTrue(modulestore()._value_matches('help', 'help'))
self.assertFalse(modulestore()._value_matches('help', 'Help'))
self.assertTrue(modulestore()._value_matches(['distract', 'help', 'notme'], 'help'))
self.assertFalse(modulestore()._value_matches(['distract', 'Help', 'notme'], 'help'))
self.assertFalse(modulestore()._value_matches({'field': ['distract', 'Help', 'notme']}, {'field': 'help'}))
self.assertFalse(modulestore()._value_matches(['distract', 'Help', 'notme'], {'field': 'help'}))
self.assertTrue(modulestore()._value_matches(
{'field': ['distract', 'help', 'notme'],
'irrelevant': 2},
{'field': 'help'}))
self.assertTrue(modulestore()._value_matches('I need some help', {'$regex': 'help'}))
self.assertTrue(modulestore()._value_matches(['I need some help', 'today'], {'$regex': 'help'}))
self.assertFalse(modulestore()._value_matches('I need some help', {'$regex': 'Help'}))
self.assertFalse(modulestore()._value_matches(['I need some help', 'today'], {'$regex': 'Help'}))
self.assertTrue(modulestore()._block_matches({'a': 1, 'b': 2}, {'a': 1}))
self.assertTrue(modulestore()._block_matches({'a': 1, 'b': 2}, {'c': None}))
self.assertTrue(modulestore()._block_matches({'a': 1, 'b': 2}, {'a': 1, 'c': None}))
self.assertFalse(modulestore()._block_matches({'a': 1, 'b': 2}, {'a': 2}))
self.assertFalse(modulestore()._block_matches({'a': 1, 'b': 2}, {'c': 1}))
self.assertFalse(modulestore()._block_matches({'a': 1, 'b': 2}, {'a': 1, 'c': 1}))
def test_get_items(self):
'''
get_items(locator, qualifiers, [revision])
'''
locator = CourseLocator(version_guid=self.GUID_D0)
# get all modules
matches = modulestore().get_items(locator, {})
self.assertEqual(len(matches), 6)
matches = modulestore().get_items(locator, {'category': 'chapter'})
self.assertEqual(len(matches), 3)
matches = modulestore().get_items(locator, {'category': 'garbage'})
self.assertEqual(len(matches), 0)
matches = modulestore().get_items(
locator,
{
'category': 'chapter',
'metadata': {'display_name': {'$regex': 'Hera'}}
}
)
self.assertEqual(len(matches), 2)
matches = modulestore().get_items(locator, {'children': 'chapter2'})
self.assertEqual(len(matches), 1)
self.assertEqual(matches[0].location.usage_id, 'head12345')
def test_get_parents(self):
'''
get_parent_locations(locator, [usage_id], [revision]): [BlockUsageLocator]
'''
locator = CourseLocator(course_id="GreekHero", revision='draft')
parents = modulestore().get_parent_locations(locator, usage_id='chapter1')
self.assertEqual(len(parents), 1)
self.assertEqual(parents[0].usage_id, 'head12345')
self.assertEqual(parents[0].course_id, "GreekHero")
locator.usage_id = 'chapter2'
parents = modulestore().get_parent_locations(locator)
self.assertEqual(len(parents), 1)
self.assertEqual(parents[0].usage_id, 'head12345')
parents = modulestore().get_parent_locations(locator, usage_id='nosuchblock')
self.assertEqual(len(parents), 0)
def test_get_children(self):
"""
Test the existing get_children method on xdescriptors
"""
locator = BlockUsageLocator(course_id="GreekHero", usage_id="head12345", revision='draft')
block = modulestore().get_item(locator)
children = block.get_children()
expected_ids = [
"chapter1", "chapter2", "chapter3"
]
for child in children:
self.assertEqual(child.category, "chapter")
self.assertIn(child.location.usage_id, expected_ids)
expected_ids.remove(child.location.usage_id)
self.assertEqual(len(expected_ids), 0)
class TestItemCrud(SplitModuleTest):
"""
Test create update and delete of items
"""
# TODO do I need to test this case which I believe won't work:
# 1) fetch a course and some of its blocks
# 2) do a series of CRUD operations on those previously fetched elements
# The problem here will be that the version_guid of the items will be the version at time of fetch.
# Each separate save will change the head version; so, the 2nd piecemeal change will flag the version
# conflict. That is, if versions are v0..vn and start as v0 in initial fetch, the first CRUD op will
# say it's changing an object from v0, splitMongo will process it and make the current head v1, the next
# crud op will pass in its v0 element and splitMongo will flag the version conflict.
# What I don't know is how realistic this test is and whether to wrap the modulestore with a higher level
# transactional operation which manages the version change or make the threading cache reason out whether or
# not the changes are independent and additive and thus non-conflicting.
# A use case I expect is
# (client) change this metadata
# (server) done, here's the new info which, btw, updates the course version to v1
# (client) add these children to this other node (which says it came from v0 or
# will the client have refreshed the version before doing the op?)
# In this case, having a server side transactional model won't help b/c the bug is a long-transaction on the
# on the client where it would be a mistake for the server to assume anything about client consistency. The best
# the server could do would be to see if the parent's children changed at all since v0.
def test_create_minimal_item(self):
"""
create_item(course_or_parent_locator, category, user, definition_locator=None, new_def_data=None,
metadata=None): new_desciptor
"""
# grab link to course to ensure new versioning works
locator = CourseLocator(course_id="GreekHero", revision='draft')
premod_course = modulestore().get_course(locator)
premod_time = datetime.datetime.now(UTC) - datetime.timedelta(seconds=1)
# add minimal one w/o a parent
category = 'sequential'
new_module = modulestore().create_item(
locator, category, 'user123',
metadata={'display_name': 'new sequential'}
)
# check that course version changed and course's previous is the other one
self.assertEqual(new_module.location.course_id, "GreekHero")
self.assertNotEqual(new_module.location.version_guid, premod_course.location.version_guid)
self.assertIsNone(locator.version_guid, "Version inadvertently filled in")
current_course = modulestore().get_course(locator)
self.assertEqual(new_module.location.version_guid, current_course.location.version_guid)
history_info = modulestore().get_course_history_info(current_course.location)
self.assertEqual(history_info['previous_version'], premod_course.location.version_guid)
self.assertEqual(str(history_info['original_version']), self.GUID_D3)
self.assertEqual(history_info['edited_by'], "user123")
self.assertGreaterEqual(history_info['edited_on'], premod_time)
self.assertLessEqual(history_info['edited_on'], datetime.datetime.now(UTC))
# check block's info: category, definition_locator, and display_name
self.assertEqual(new_module.category, 'sequential')
self.assertIsNotNone(new_module.definition_locator)
self.assertEqual(new_module.display_name, 'new sequential')
# check that block does not exist in previous version
locator = BlockUsageLocator(
version_guid=premod_course.location.version_guid,
usage_id=new_module.location.usage_id
)
self.assertRaises(ItemNotFoundError, modulestore().get_item, locator)
def test_create_parented_item(self):
"""
Test create_item w/ specifying the parent of the new item
"""
locator = BlockUsageLocator(course_id="wonderful", usage_id="head23456", revision='draft')
premod_course = modulestore().get_course(locator)
category = 'chapter'
new_module = modulestore().create_item(
locator, category, 'user123',
metadata={'display_name': 'new chapter'},
definition_locator=DescriptionLocator("chapter12345_2")
)
# check that course version changed and course's previous is the other one
self.assertNotEqual(new_module.location.version_guid, premod_course.location.version_guid)
parent = modulestore().get_item(locator)
self.assertIn(new_module.location.usage_id, parent.children)
self.assertEqual(new_module.definition_locator.definition_id, "chapter12345_2")
def test_unique_naming(self):
"""
Check that 2 modules of same type get unique usage_ids. Also check that if creation provides
a definition id and new def data that it branches the definition in the db.
Actually, this tries to test all create_item features not tested above.
"""
locator = BlockUsageLocator(course_id="contender", usage_id="head345679", revision='draft')
category = 'problem'
premod_time = datetime.datetime.now(UTC) - datetime.timedelta(seconds=1)
new_payload = "<problem>empty</problem>"
new_module = modulestore().create_item(
locator, category, 'anotheruser',
metadata={'display_name': 'problem 1'},
new_def_data=new_payload
)
another_payload = "<problem>not empty</problem>"
another_module = modulestore().create_item(
locator, category, 'anotheruser',
metadata={'display_name': 'problem 2'},
definition_locator=DescriptionLocator("problem12345_3_1"),
new_def_data=another_payload
)
# check that course version changed and course's previous is the other one
parent = modulestore().get_item(locator)
self.assertNotEqual(new_module.location.usage_id, another_module.location.usage_id)
self.assertIn(new_module.location.usage_id, parent.children)
self.assertIn(another_module.location.usage_id, parent.children)
self.assertEqual(new_module.data, new_payload)
self.assertEqual(another_module.data, another_payload)
# check definition histories
new_history = modulestore().get_definition_history_info(new_module.definition_locator)
self.assertIsNone(new_history['previous_version'])
self.assertEqual(new_history['original_version'], new_module.definition_locator.definition_id)
self.assertEqual(new_history['edited_by'], "anotheruser")
self.assertLessEqual(new_history['edited_on'], datetime.datetime.now(UTC))
self.assertGreaterEqual(new_history['edited_on'], premod_time)
another_history = modulestore().get_definition_history_info(another_module.definition_locator)
self.assertEqual(another_history['previous_version'], 'problem12345_3_1')
# TODO check that default fields are set
def test_update_metadata(self):
"""
test updating an items metadata ensuring the definition doesn't version but the course does if it should
"""
locator = BlockUsageLocator(course_id="GreekHero", usage_id="problem3_2", revision='draft')
problem = modulestore().get_item(locator)
pre_def_id = problem.definition_locator.definition_id
pre_version_guid = problem.location.version_guid
self.assertIsNotNone(pre_def_id)
self.assertIsNotNone(pre_version_guid)
premod_time = datetime.datetime.now(UTC) - datetime.timedelta(seconds=1)
self.assertNotEqual(problem.max_attempts, 4, "Invalidates rest of test")
problem.max_attempts = 4
updated_problem = modulestore().update_item(problem, 'changeMaven')
# check that course version changed and course's previous is the other one
self.assertEqual(updated_problem.definition_locator.definition_id, pre_def_id)
self.assertNotEqual(updated_problem.location.version_guid, pre_version_guid)
self.assertEqual(updated_problem.max_attempts, 4)
# refetch to ensure original didn't change
original_location = BlockUsageLocator(
version_guid=pre_version_guid,
usage_id=problem.location.usage_id
)
problem = modulestore().get_item(original_location)
self.assertNotEqual(problem.max_attempts, 4, "original changed")
current_course = modulestore().get_course(locator)
self.assertEqual(updated_problem.location.version_guid, current_course.location.version_guid)
history_info = modulestore().get_course_history_info(current_course.location)
self.assertEqual(history_info['previous_version'], pre_version_guid)
self.assertEqual(str(history_info['original_version']), self.GUID_D3)
self.assertEqual(history_info['edited_by'], "changeMaven")
self.assertGreaterEqual(history_info['edited_on'], premod_time)
self.assertLessEqual(history_info['edited_on'], datetime.datetime.now(UTC))
def test_update_children(self):
"""
test updating an item's children ensuring the definition doesn't version but the course does if it should
"""
locator = BlockUsageLocator(course_id="GreekHero", usage_id="chapter3", revision='draft')
block = modulestore().get_item(locator)
pre_def_id = block.definition_locator.definition_id
pre_version_guid = block.location.version_guid
# reorder children
self.assertGreater(len(block.children), 0, "meaningless test")
moved_child = block.children.pop()
updated_problem = modulestore().update_item(block, 'childchanger')
# check that course version changed and course's previous is the other one
self.assertEqual(updated_problem.definition_locator.definition_id, pre_def_id)
self.assertNotEqual(updated_problem.location.version_guid, pre_version_guid)
self.assertEqual(updated_problem.children, block.children)
self.assertNotIn(moved_child, updated_problem.children)
locator.usage_id = "chapter1"
other_block = modulestore().get_item(locator)
other_block.children.append(moved_child)
other_updated = modulestore().update_item(other_block, 'childchanger')
self.assertIn(moved_child, other_updated.children)
def test_update_definition(self):
"""
test updating an item's definition: ensure it gets versioned as well as the course getting versioned
"""
locator = BlockUsageLocator(course_id="GreekHero", usage_id="head12345", revision='draft')
block = modulestore().get_item(locator)
pre_def_id = block.definition_locator.definition_id
pre_version_guid = block.location.version_guid
block.grading_policy['GRADER'][0]['min_count'] = 13
updated_block = modulestore().update_item(block, 'definition_changer')
self.assertNotEqual(updated_block.definition_locator.definition_id, pre_def_id)
self.assertNotEqual(updated_block.location.version_guid, pre_version_guid)
self.assertEqual(updated_block.grading_policy['GRADER'][0]['min_count'], 13)
def test_update_manifold(self):
"""
Test updating metadata, children, and definition in a single call ensuring all the versioning occurs
"""
# first add 2 children to the course for the update to manipulate
locator = BlockUsageLocator(course_id="contender", usage_id="head345679", revision='draft')
category = 'problem'
new_payload = "<problem>empty</problem>"
modulestore().create_item(
locator, category, 'test_update_manifold',
metadata={'display_name': 'problem 1'},
new_def_data=new_payload
)
another_payload = "<problem>not empty</problem>"
modulestore().create_item(
locator, category, 'test_update_manifold',
metadata={'display_name': 'problem 2'},
definition_locator=DescriptionLocator("problem12345_3_1"),
new_def_data=another_payload
)
# pylint: disable=W0212
modulestore()._clear_cache()
# now begin the test
block = modulestore().get_item(locator)
pre_def_id = block.definition_locator.definition_id
pre_version_guid = block.location.version_guid
self.assertNotEqual(block.grading_policy['GRADER'][0]['min_count'], 13)
block.grading_policy['GRADER'][0]['min_count'] = 13
block.children = block.children[1:] + [block.children[0]]
block.advertised_start = "Soon"
updated_block = modulestore().update_item(block, "test_update_manifold")
self.assertNotEqual(updated_block.definition_locator.definition_id, pre_def_id)
self.assertNotEqual(updated_block.location.version_guid, pre_version_guid)
self.assertEqual(updated_block.grading_policy['GRADER'][0]['min_count'], 13)
self.assertEqual(updated_block.children[0], block.children[0])
self.assertEqual(updated_block.advertised_start, "Soon")
def test_delete_item(self):
course = self.create_course_for_deletion()
self.assertRaises(ValueError,
modulestore().delete_item,
course.location,
'deleting_user')
reusable_location = BlockUsageLocator(
course_id=course.location.course_id,
usage_id=course.location.usage_id,
revision='draft')
# delete a leaf
problems = modulestore().get_items(reusable_location, {'category': 'problem'})
locn_to_del = problems[0].location
new_course_loc = modulestore().delete_item(locn_to_del, 'deleting_user')
deleted = BlockUsageLocator(course_id=reusable_location.course_id,
revision=reusable_location.revision,
usage_id=locn_to_del.usage_id)
self.assertFalse(modulestore().has_item(deleted))
self.assertRaises(VersionConflictError, modulestore().has_item, locn_to_del)
locator = BlockUsageLocator(
version_guid=locn_to_del.version_guid,
usage_id=locn_to_del.usage_id
)
self.assertTrue(modulestore().has_item(locator))
self.assertNotEqual(new_course_loc.version_guid, course.location.version_guid)
# delete a subtree
nodes = modulestore().get_items(reusable_location, {'category': 'chapter'})
new_course_loc = modulestore().delete_item(nodes[0].location, 'deleting_user')
# check subtree
def check_subtree(node):
if node:
node_loc = node.location
self.assertFalse(modulestore().has_item(
BlockUsageLocator(
course_id=node_loc.course_id,
revision=node_loc.revision,
usage_id=node.location.usage_id)))
locator = BlockUsageLocator(
version_guid=node.location.version_guid,
usage_id=node.location.usage_id)
self.assertTrue(modulestore().has_item(locator))
if node.has_children:
for sub in node.get_children():
check_subtree(sub)
check_subtree(nodes[0])
def create_course_for_deletion(self):
course = modulestore().create_course('nihilx', 'deletion', 'deleting_user')
root = BlockUsageLocator(
course_id=course.location.course_id,
usage_id=course.location.usage_id,
revision='draft')
for _ in range(4):
self.create_subtree_for_deletion(root, ['chapter', 'vertical', 'problem'])
return modulestore().get_item(root)
def create_subtree_for_deletion(self, parent, category_queue):
if not category_queue:
return
node = modulestore().create_item(parent, category_queue[0], 'deleting_user')
node_loc = BlockUsageLocator(parent.as_course_locator(), usage_id=node.location.usage_id)
for _ in range(4):
self.create_subtree_for_deletion(node_loc, category_queue[1:])
class TestCourseCreation(SplitModuleTest):
"""
Test create_course, duh :-)
"""
def test_simple_creation(self):
"""
The simplest case but probing all expected results from it.
"""
# Oddly getting differences of 200nsec
pre_time = datetime.datetime.now(UTC) - datetime.timedelta(milliseconds=1)
new_course = modulestore().create_course('test_org', 'test_course', 'create_user')
new_locator = new_course.location
# check index entry
index_info = modulestore().get_course_index_info(new_locator)
self.assertEqual(index_info['org'], 'test_org')
self.assertEqual(index_info['prettyid'], 'test_course')
self.assertGreaterEqual(index_info["edited_on"], pre_time)
self.assertLessEqual(index_info["edited_on"], datetime.datetime.now(UTC))
self.assertEqual(index_info['edited_by'], 'create_user')
# check structure info
structure_info = modulestore().get_course_history_info(new_locator)
self.assertEqual(structure_info['original_version'], index_info['versions']['draft'])
self.assertIsNone(structure_info['previous_version'])
self.assertGreaterEqual(structure_info["edited_on"], pre_time)
self.assertLessEqual(structure_info["edited_on"], datetime.datetime.now(UTC))
self.assertEqual(structure_info['edited_by'], 'create_user')
# check the returned course object
self.assertIsInstance(new_course, CourseDescriptor)
self.assertEqual(new_course.category, 'course')
self.assertFalse(new_course.show_calculator)
self.assertTrue(new_course.allow_anonymous)
self.assertEqual(len(new_course.children), 0)
self.assertEqual(new_course.edited_by, "create_user")
self.assertEqual(len(new_course.grading_policy['GRADER']), 4)
self.assertDictEqual(new_course.grade_cutoffs, {"Pass": 0.5})
def test_cloned_course(self):
"""
Test making a course which points to an existing draft and published but not making any changes to either.
"""
pre_time = datetime.datetime.now(UTC)
original_locator = CourseLocator(course_id="wonderful", revision='draft')
original_index = modulestore().get_course_index_info(original_locator)
new_draft = modulestore().create_course(
'leech', 'best_course', 'leech_master', id_root='best',
versions_dict=original_index['versions'])
new_draft_locator = new_draft.location
self.assertRegexpMatches(new_draft_locator.course_id, r'best.*')
# the edited_by and other meta fields on the new course will be the original author not this one
self.assertEqual(new_draft.edited_by, 'test@edx.org')
self.assertLess(new_draft.edited_on, pre_time)
self.assertEqual(new_draft.location.version_guid, original_index['versions']['draft'])
# however the edited_by and other meta fields on course_index will be this one
new_index = modulestore().get_course_index_info(new_draft_locator)
self.assertGreaterEqual(new_index["edited_on"], pre_time)
self.assertLessEqual(new_index["edited_on"], datetime.datetime.now(UTC))
self.assertEqual(new_index['edited_by'], 'leech_master')
new_published_locator = CourseLocator(course_id=new_draft_locator.course_id, revision='published')
new_published = modulestore().get_course(new_published_locator)
self.assertEqual(new_published.edited_by, 'test@edx.org')
self.assertLess(new_published.edited_on, pre_time)
self.assertEqual(new_published.location.version_guid, original_index['versions']['published'])
# changing this course will not change the original course
# using new_draft.location will insert the chapter under the course root
new_item = modulestore().create_item(
new_draft.location, 'chapter', 'leech_master',
metadata={'display_name': 'new chapter'}
)
new_draft_locator.version_guid = None
new_index = modulestore().get_course_index_info(new_draft_locator)
self.assertNotEqual(new_index['versions']['draft'], original_index['versions']['draft'])
new_draft = modulestore().get_course(new_draft_locator)
self.assertEqual(new_item.edited_by, 'leech_master')
self.assertGreaterEqual(new_item.edited_on, pre_time)
self.assertNotEqual(new_item.location.version_guid, original_index['versions']['draft'])
self.assertNotEqual(new_draft.location.version_guid, original_index['versions']['draft'])
structure_info = modulestore().get_course_history_info(new_draft_locator)
self.assertGreaterEqual(structure_info["edited_on"], pre_time)
self.assertLessEqual(structure_info["edited_on"], datetime.datetime.now(UTC))
self.assertEqual(structure_info['edited_by'], 'leech_master')
original_course = modulestore().get_course(original_locator)
self.assertEqual(original_course.location.version_guid, original_index['versions']['draft'])
self.assertFalse(
modulestore().has_item(BlockUsageLocator(
original_locator,
usage_id=new_item.location.usage_id
))
)
def test_derived_course(self):
"""
Create a new course which overrides metadata and course_data
"""
pre_time = datetime.datetime.now(UTC)
original_locator = CourseLocator(course_id="contender", revision='draft')
original = modulestore().get_course(original_locator)
original_index = modulestore().get_course_index_info(original_locator)
data_payload = {}
metadata_payload = {}
for field in original.fields:
if field.scope == Scope.content and field.name != 'location':
data_payload[field.name] = getattr(original, field.name)
elif field.scope == Scope.settings:
metadata_payload[field.name] = getattr(original, field.name)
data_payload['grading_policy']['GRADE_CUTOFFS'] = {'A': .9, 'B': .8, 'C': .65}
metadata_payload['display_name'] = 'Derivative'
new_draft = modulestore().create_course(
'leech', 'derivative', 'leech_master', id_root='counter',
versions_dict={'draft': original_index['versions']['draft']},
course_data=data_payload,
metadata=metadata_payload
)
new_draft_locator = new_draft.location
self.assertRegexpMatches(new_draft_locator.course_id, r'counter.*')
# the edited_by and other meta fields on the new course will be the original author not this one
self.assertEqual(new_draft.edited_by, 'leech_master')
self.assertGreaterEqual(new_draft.edited_on, pre_time)
self.assertNotEqual(new_draft.location.version_guid, original_index['versions']['draft'])
# however the edited_by and other meta fields on course_index will be this one
new_index = modulestore().get_course_index_info(new_draft_locator)
self.assertGreaterEqual(new_index["edited_on"], pre_time)
self.assertLessEqual(new_index["edited_on"], datetime.datetime.now(UTC))
self.assertEqual(new_index['edited_by'], 'leech_master')
self.assertEqual(new_draft.display_name, metadata_payload['display_name'])
self.assertDictEqual(
new_draft.grading_policy['GRADE_CUTOFFS'],
data_payload['grading_policy']['GRADE_CUTOFFS']
)
def test_update_course_index(self):
"""
Test changing the org, pretty id, etc of a course. Test that it doesn't allow changing the id, etc.
"""
locator = CourseLocator(course_id="GreekHero", revision='draft')
modulestore().update_course_index(locator, {'org': 'funkyU'})
course_info = modulestore().get_course_index_info(locator)
self.assertEqual(course_info['org'], 'funkyU')
modulestore().update_course_index(locator, {'org': 'moreFunky', 'prettyid': 'Ancient Greek Demagods'})
course_info = modulestore().get_course_index_info(locator)
self.assertEqual(course_info['org'], 'moreFunky')
self.assertEqual(course_info['prettyid'], 'Ancient Greek Demagods')
self.assertRaises(ValueError, modulestore().update_course_index, locator, {'_id': 'funkygreeks'})
with self.assertRaises(ValueError):
modulestore().update_course_index(
locator,
{'edited_on': datetime.datetime.now(UTC)}
)
with self.assertRaises(ValueError):
modulestore().update_course_index(
locator,
{'edited_by': 'sneak'}
)
self.assertRaises(ValueError, modulestore().update_course_index, locator,
{'versions': {'draft': self.GUID_D1}})
# an allowed but not necessarily recommended way to revert the draft version
versions = course_info['versions']
versions['draft'] = self.GUID_D1
modulestore().update_course_index(locator, {'versions': versions}, update_versions=True)
course = modulestore().get_course(locator)
self.assertEqual(str(course.location.version_guid), self.GUID_D1)
# an allowed but not recommended way to publish a course
versions['published'] = self.GUID_D1
modulestore().update_course_index(locator, {'versions': versions}, update_versions=True)
course = modulestore().get_course(CourseLocator(course_id=locator.course_id, revision="published"))
self.assertEqual(str(course.location.version_guid), self.GUID_D1)
class TestInheritance(SplitModuleTest):
"""
Test the metadata inheritance mechanism.
"""
def test_inheritance(self):
"""
The actual test
"""
# Note, not testing value where defined (course) b/c there's no
# defined accessor for it on CourseDescriptor.
locator = BlockUsageLocator(course_id="GreekHero", usage_id="problem3_2", revision='draft')
node = modulestore().get_item(locator)
# inherited
self.assertEqual(node.graceperiod, datetime.timedelta(hours=2))
locator = BlockUsageLocator(course_id="GreekHero", usage_id="problem1", revision='draft')
node = modulestore().get_item(locator)
# overridden
self.assertEqual(node.graceperiod, datetime.timedelta(hours=4))
# TODO test inheritance after set and delete of attrs
#===========================================
# This mocks the django.modulestore() function and is intended purely to disentangle
# the tests from django
def modulestore():
def load_function(path):
module_path, _, name = path.rpartition('.')
return getattr(import_module(module_path), name)
if SplitModuleTest.modulestore is None:
SplitModuleTest.bootstrapDB()
class_ = load_function(SplitModuleTest.MODULESTORE['ENGINE'])
options = {}
options.update(SplitModuleTest.MODULESTORE['OPTIONS'])
options['render_template'] = render_to_template_mock
# pylint: disable=W0142
SplitModuleTest.modulestore = class_(**options)
return SplitModuleTest.modulestore
# pylint: disable=W0613
def render_to_template_mock(*args):
pass
common/lib/xmodule/xmodule/tests/test_capa_module.py
......@@ -1233,6 +1233,37 @@ class CapaModuleTest(unittest.TestCase):
mock_log.exception.assert_called_once_with('Got bad progress')
mock_log.reset_mock()
@patch('xmodule.capa_module.Progress')
def test_get_progress_calculate_progress_fraction(self, mock_progress):
"""
Check that score and total are calculated correctly for the progress fraction.
"""
module = CapaFactory.create()
module.weight = 1
module.get_progress()
mock_progress.assert_called_with(0, 1)
other_module = CapaFactory.create(correct=True)
other_module.weight = 1
other_module.get_progress()
mock_progress.assert_called_with(1, 1)
def test_get_html(self):
"""
Check that get_html() calls get_progress() with no arguments.
"""
module = CapaFactory.create()
module.get_progress = Mock(wraps=module.get_progress)
module.get_html()
module.get_progress.assert_called_once_with()
def test_get_problem(self):
"""
Check that get_problem() returns the expected dictionary.
"""
module = CapaFactory.create()
self.assertEquals(module.get_problem("data"), {'html': module.get_problem_html(encapsulate=False)})
class ComplexEncoderTest(unittest.TestCase):
def test_default(self):
......
common/lib/xmodule/xmodule/x_module.py
......@@ -8,9 +8,10 @@ from collections import namedtuple
from pkg_resources import resource_listdir, resource_string, resource_isdir
from xmodule.modulestore import inheritance, Location
from xmodule.modulestore.exceptions import ItemNotFoundError, InsufficientSpecificationError
from xmodule.modulestore.exceptions import ItemNotFoundError, InsufficientSpecificationError, InvalidLocationError
from xblock.core import XBlock, Scope, String, Integer, Float, ModelType
from xmodule.modulestore.locator import BlockUsageLocator
log = logging.getLogger(__name__)
......@@ -27,7 +28,13 @@ class LocationField(ModelType):
"""
Parse the json value as a Location
"""
return Location(value)
try:
return Location(value)
except InvalidLocationError:
if isinstance(value, BlockUsageLocator):
return value
else:
return BlockUsageLocator(value)
def to_json(self, value):
"""
......@@ -166,6 +173,10 @@ class XModule(XModuleFields, HTMLSnippet, XBlock):
self.url_name = self.location.name
if not hasattr(self, 'category'):
self.category = self.location.category
elif isinstance(self.location, BlockUsageLocator):
self.url_name = self.location.usage_id
if not hasattr(self, 'category'):
raise InsufficientSpecificationError()
else:
raise InsufficientSpecificationError()
self._loaded_children = None
......@@ -436,8 +447,17 @@ class XModuleDescriptor(XModuleFields, HTMLSnippet, ResourceTemplates, XBlock):
self.url_name = self.location.name
if not hasattr(self, 'category'):
self.category = self.location.category
elif isinstance(self.location, BlockUsageLocator):
self.url_name = self.location.usage_id
if not hasattr(self, 'category'):
raise InsufficientSpecificationError()
else:
raise InsufficientSpecificationError()
# update_version is the version which last updated this xblock v prev being the penultimate updater
# leaving off original_version since it complicates creation w/o any obv value yet and is computable
# by following previous until None
# definition_locator is only used by mongostores which separate definitions from blocks
self.edited_by = self.edited_on = self.previous_version = self.update_version = self.definition_locator = None
self._child_instances = None
@property
......@@ -514,22 +534,30 @@ class XModuleDescriptor(XModuleFields, HTMLSnippet, ResourceTemplates, XBlock):
# ================================= JSON PARSING ===========================
@staticmethod
def load_from_json(json_data, system, default_class=None):
def load_from_json(json_data, system, default_class=None, parent_xblock=None):
"""
This method instantiates the correct subclass of XModuleDescriptor based
on the contents of json_data.
on the contents of json_data. It does not persist it and can create one which
has no usage id.
json_data must contain a 'location' element, and must be suitable to be
passed into the subclasses `from_json` method as model_data
parent_xblock is used to compute inherited metadata as well as to append the new xblock.
json_data:
- 'location' : must have this field
- 'category': the xmodule category (required or location must be a Location)
- 'metadata': a dict of locally set metadata (not inherited)
- 'children': a list of children's usage_ids w/in this course
- 'definition':
- '_id' (optional): the usage_id of this. Will generate one if not given one.
"""
class_ = XModuleDescriptor.load_class(
json_data['location']['category'],
json_data.get('category', json_data.get('location', {}).get('category')),
default_class
)
return class_.from_json(json_data, system)
return class_.from_json(json_data, system, parent_xblock)
@classmethod
def from_json(cls, json_data, system):
def from_json(cls, json_data, system, parent_xblock=None):
"""
Creates an instance of this descriptor from the supplied json_data.
This may be overridden by subclasses
......@@ -547,28 +575,25 @@ class XModuleDescriptor(XModuleFields, HTMLSnippet, ResourceTemplates, XBlock):
Otherwise, it contains the single field 'data'
4) Any value later in this list overrides a value earlier in this list
system: A DescriptorSystem for interacting with external resources
"""
model_data = {}
for key, value in json_data.get('metadata', {}).items():
model_data[cls._translate(key)] = value
model_data.update(json_data.get('metadata', {}))
definition = json_data.get('definition', {})
if 'children' in definition:
model_data['children'] = definition['children']
if 'data' in definition:
if isinstance(definition['data'], dict):
model_data.update(definition['data'])
else:
model_data['data'] = definition['data']
model_data['location'] = json_data['location']
return cls(system, model_data)
json_data:
- 'category': the xmodule category (required)
- 'metadata': a dict of locally set metadata (not inherited)
- 'children': a list of children's usage_ids w/in this course
- 'definition':
- '_id' (optional): the usage_id of this. Will generate one if not given one.
"""
usage_id = json_data.get('_id', None)
if not '_inherited_metadata' in json_data and parent_xblock is not None:
json_data['_inherited_metadata'] = parent_xblock.xblock_kvs.get_inherited_metadata().copy()
json_metadata = json_data.get('metadata', {})
for field in inheritance.INHERITABLE_METADATA:
if field in json_metadata:
json_data['_inherited_metadata'][field] = json_metadata[field]
new_block = system.xblock_from_json(cls, usage_id, json_data)
if parent_xblock is not None:
parent_xblock.children.append(new_block)
return new_block
@classmethod
def _translate(cls, key):
......@@ -649,6 +674,8 @@ class XModuleDescriptor(XModuleFields, HTMLSnippet, ResourceTemplates, XBlock):
"""
Use w/ caution. Really intended for use by the persistence layer.
"""
# if caller wants kvs, caller's assuming it's up to date; so, decache it
self.save()
return self._model_data._kvs
# =============================== BUILTIN METHODS ==========================
......
common/test/data/splitmongo_json/active_versions.json 0 → 100644
[{"_id" : "GreekHero",
"org" : "testx",
"prettyid" : "test_course",
"versions" : {
"draft" : { "$oid" : "1d00000000000000dddd0000" }
},
"edited_on" : {"$date" : 1364481713238},
"edited_by" : "test@edx.org"},
{"_id" : "wonderful",
"org" : "testx",
"prettyid" : "another_course",
"versions" : {
"draft" : { "$oid" : "1d00000000000000dddd2222" },
"published" : { "$oid" : "1d00000000000000eeee0000" }
},
"edited_on" : {"$date" : 1364481313238},
"edited_by" : "test@edx.org"},
{"_id" : "contender",
"org" : "guestx",
"prettyid" : "test_course",
"versions" : {
"draft" : { "$oid" : "1d00000000000000dddd5555" }},
"edited_on" : {"$date" : 1364491313238},
"edited_by" : "test@guestx.edu"}
]
common/test/data/splitmongo_json/definitions.json 0 → 100644
[
{
"_id":"head12345_12",
"category":"course",
"data":{
"textbooks":[
],
"grading_policy":{
"GRADER":[
{
"min_count":4,
"weight":0.15,
"type":"Homework",
"drop_count":2,
"short_label":"HWa"
},
{
"short_label":"",
"min_count":12,
"type":"Lab",
"drop_count":2,
"weight":0.15
},
{
"short_label":"Midterm",
"min_count":1,
"type":"Midterm Exam",
"drop_count":0,
"weight":0.3
},
{
"short_label":"Final",
"min_count":1,
"type":"Final Exam",
"drop_count":0,
"weight":0.4
}
],
"GRADE_CUTOFFS":{
"Pass":0.45
}
},
"wiki_slug":null
},
"edited_by":"testassist@edx.org",
"edited_on":{"$date" : 1364481713238},
"previous_version":"head12345_11",
"original_version":"head12345_10"
},
{
"_id":"head12345_11",
"category":"course",
"data":{
"textbooks":[
],
"grading_policy":{
"GRADER":[
{
"min_count":5,
"weight":0.15,
"type":"Homework",
"drop_count":1,
"short_label":"HWa"
},
{
"short_label":"",
"min_count":12,
"type":"Lab",
"drop_count":2,
"weight":0.15
},
{
"short_label":"Midterm",
"min_count":1,
"type":"Midterm Exam",
"drop_count":0,
"weight":0.3
},
{
"short_label":"Final",
"min_count":1,
"type":"Final Exam",
"drop_count":0,
"weight":0.4
}
],
"GRADE_CUTOFFS":{
"Pass":0.55
}
},
"wiki_slug":null
},
"edited_by":"testassist@edx.org",
"edited_on":{"$date" : 1364481713238},
"previous_version":"head12345_10",
"original_version":"head12345_10"
},
{
"_id":"head12345_10",
"category":"course",
"data":{
"textbooks":[
],
"grading_policy":{
"GRADER":[
{
"min_count":5,
"weight":0.15,
"type":"Homework",
"drop_count":1,
"short_label":"HWa"
},
{
"short_label":"",
"min_count":2,
"type":"Lab",
"drop_count":0,
"weight":0.15
},
{
"short_label":"Midterm",
"min_count":1,
"type":"Midterm Exam",
"drop_count":0,
"weight":0.3
},
{
"short_label":"Final",
"min_count":1,
"type":"Final Exam",
"drop_count":0,
"weight":0.4
}
],
"GRADE_CUTOFFS":{
"Pass":0.75
}
},
"wiki_slug":null
},
"edited_by":"test@edx.org",
"edited_on":{"$date": 1364473713238},
"previous_version":null,
"original_version":"head12345_10"
},
{
"_id":"head23456_1",
"category":"course",
"data":{
"textbooks":[
],
"grading_policy":{
"GRADER":[
{
"min_count":14,
"weight":0.25,
"type":"Homework",
"drop_count":1,
"short_label":"HWa"
},
{
"short_label":"",
"min_count":12,
"type":"Lab",
"drop_count":2,
"weight":0.25
},
{
"short_label":"Midterm",
"min_count":1,
"type":"Midterm Exam",
"drop_count":0,
"weight":0.2
},
{
"short_label":"Final",
"min_count":1,
"type":"Final Exam",
"drop_count":0,
"weight":0.3
}
],
"GRADE_CUTOFFS":{
"Pass":0.45
}
},
"wiki_slug":null
},
"edited_by":"test@edx.org",
"edited_on":{"$date": 1364481313238},
"previous_version":"head23456_0",
"original_version":"head23456_0"
},
{
"_id":"head23456_0",
"category":"course",
"data":{
"textbooks":[
],
"grading_policy":{
"GRADER":[
{
"min_count":14,
"weight":0.25,
"type":"Homework",
"drop_count":1,
"short_label":"HWa"
},
{
"short_label":"",
"min_count":12,
"type":"Lab",
"drop_count":2,
"weight":0.25
},
{
"short_label":"Midterm",
"min_count":1,
"type":"Midterm Exam",
"drop_count":0,
"weight":0.2
},
{
"short_label":"Final",
"min_count":1,
"type":"Final Exam",
"drop_count":0,
"weight":0.3
}
],
"GRADE_CUTOFFS":{
"Pass":0.95
}
},
"wiki_slug":null
},
"edited_by":"test@edx.org",
"edited_on":{"$date" : 1364481313238},
"previous_version":null,
"original_version":"head23456_0"
},
{
"_id":"head345679_1",
"category":"course",
"data":{
"textbooks":[
],
"grading_policy":{
"GRADER":[
{
"min_count":4,
"weight":0.25,
"type":"Homework",
"drop_count":0,
"short_label":"HW"
},
{
"short_label":"Midterm",
"min_count":1,
"type":"Midterm Exam",
"drop_count":0,
"weight":0.4
},
{
"short_label":"Final",
"min_count":1,
"type":"Final Exam",
"drop_count":0,
"weight":0.35
}
],
"GRADE_CUTOFFS":{
"Pass":0.25
}
},
"wiki_slug":null
},
"edited_by":"test@edx.org",
"edited_on":{"$date" : 1364481313238},
"previous_version":null,
"original_version":"head23456_0"
},
{
"_id":"chapter12345_1",
"category":"chapter",
"data":null,
"edited_by":"testassist@edx.org",
"edited_on":{"$date" : 1364483713238},
"previous_version":null,
"original_version":"chapter12345_1"
},
{
"_id":"chapter12345_2",
"category":"chapter",
"data":null,
"edited_by":"testassist@edx.org",
"edited_on":{"$date" : 1364483713238},
"previous_version":null,
"original_version":"chapter12345_2"
},
{
"_id":"chapter12345_3",
"category":"chapter",
"data":null,
"edited_by":"testassist@edx.org",
"edited_on":{"$date" : 1364483713238},
"previous_version":null,
"original_version":"chapter12345_3"
},
{
"_id":"problem12345_3_1",
"category":"problem",
"data":"",
"edited_by":"testassist@edx.org",
"edited_on":{"$date" : 1364483713238},
"previous_version":null,
"original_version":"problem12345_3_1"
},
{
"_id":"problem12345_3_2",
"category":"problem",
"data":"",
"edited_by":"testassist@edx.org",
"edited_on":{"$date" : 1364483713238},
"previous_version":null,
"original_version":"problem12345_3_2"
}
]
\ No newline at end of file
common/test/data/splitmongo_json/structures.json 0 → 100644
[
{
"_id": { "$oid" : "1d00000000000000dddd0000"},
"root":"head12345",
"original_version":{ "$oid" : "1d00000000000000dddd3333" },
"previous_version":{ "$oid" : "1d00000000000000dddd1111" },
"edited_by":"testassist@edx.org",
"edited_on":{
"$date":1364483713238
},
"blocks":{
"head12345":{
"children":[
"chapter1",
"chapter2",
"chapter3"
],
"category":"course",
"definition":"head12345_12",
"metadata":{
"end":"2013-06-13T04:30",
"tabs":[
{
"type":"courseware"
},
{
"type":"course_info",
"name":"Course Info"
},
{
"type":"discussion",
"name":"Discussion"
},
{
"type":"wiki",
"name":"Wiki"
},
{
"type":"static_tab",
"name":"Syllabus",
"url_slug":"01356a17b5924b17a04b7fc2426a3798"
},
{
"type":"static_tab",
"name":"Advice for Students",
"url_slug":"57e9991c0d794ff58f7defae3e042e39"
}
],
"enrollment_start":"2013-01-01T05:00",
"graceperiod":"2 hours 0 minutes 0 seconds",
"start":"2013-02-14T05:00",
"enrollment_end":"2013-03-02T05:00",
"data_dir":"MITx-2-Base",
"advertised_start":"Fall 2013",
"display_name":"The Ancient Greek Hero"
},
"update_version":{ "$oid" : "1d00000000000000dddd0000" },
"previous_version":{ "$oid" : "1d00000000000000dddd1111" },
"edited_by":"testassist@edx.org",
"edited_on":{
"$date":1364483713238
}
},
"chapter1":{
"children":[
],
"category":"chapter",
"definition":"chapter12345_1",
"metadata":{
"display_name":"Hercules"
},
"update_version":{ "$oid" : "1d00000000000000dddd0000" },
"previous_version":null,
"edited_by":"testassist@edx.org",
"edited_on":{
"$date":1364483713238
}
},
"chapter2":{
"children":[
],
"category":"chapter",
"definition":"chapter12345_2",
"metadata":{
"display_name":"Hera heckles Hercules"
},
"update_version":{ "$oid" : "1d00000000000000dddd0000" },
"previous_version":null,
"edited_by":"testassist@edx.org",
"edited_on":{
"$date":1364483713238
}
},
"chapter3":{
"children":[
"problem1",
"problem3_2"
],
"category":"chapter",
"definition":"chapter12345_3",
"metadata":{
"display_name":"Hera cuckolds Zeus"
},
"update_version":{ "$oid" : "1d00000000000000dddd0000" },
"previous_version":null,
"edited_by":"testassist@edx.org",
"edited_on":{
"$date":1364483713238
}
},
"problem1":{
"children":[
],
"category":"problem",
"definition":"problem12345_3_1",
"metadata":{
"display_name":"Problem 3.1",
"graceperiod":"4 hours 0 minutes 0 seconds"
},
"update_version":{ "$oid" : "1d00000000000000dddd0000" },
"previous_version":null,
"edited_by":"testassist@edx.org",
"edited_on":{
"$date":1364483713238
}
},
"problem3_2":{
"children":[
],
"category":"problem",
"definition":"problem12345_3_2",
"metadata":{
"display_name":"Problem 3.2"
},
"update_version":{ "$oid" : "1d00000000000000dddd0000" },
"previous_version":null,
"edited_by":"testassist@edx.org",
"edited_on":{
"$date":1364483713238
}
}
}
},
{
"_id": { "$oid" : "1d00000000000000dddd1111"},
"root":"head12345",
"original_version":{ "$oid" : "1d00000000000000dddd3333" },
"previous_version":{ "$oid" : "1d00000000000000dddd3333" },
"edited_by":"testassist@edx.org",
"edited_on":{
"$date":1364481713238
},
"blocks":{
"head12345":{
"children":[
],
"category":"course",
"definition":"head12345_11",
"metadata":{
"end":"2013-04-13T04:30",
"tabs":[
{
"type":"courseware"
},
{
"type":"course_info",
"name":"Course Info"
},
{
"type":"discussion",
"name":"Discussion"
},
{
"type":"wiki",
"name":"Wiki"
},
{
"type":"static_tab",
"name":"Syllabus",
"url_slug":"01356a17b5924b17a04b7fc2426a3798"
},
{
"type":"static_tab",
"name":"Advice for Students",
"url_slug":"57e9991c0d794ff58f7defae3e042e39"
}
],
"enrollment_start":null,
"graceperiod":"2 hours 0 minutes 0 seconds",
"start":"2013-02-14T05:00",
"enrollment_end":null,
"data_dir":"MITx-2-Base",
"advertised_start":null,
"display_name":"The Ancient Greek Hero"
},
"update_version":{ "$oid" : "1d00000000000000dddd1111" },
"previous_version":{ "$oid" : "1d00000000000000dddd3333" },
"edited_by":"testassist@edx.org",
"edited_on":{
"$date":1364481713238
}
}
}
},
{
"_id": { "$oid" : "1d00000000000000dddd3333"},
"root":"head12345",
"original_version":{ "$oid" : "1d00000000000000dddd3333" },
"previous_version":null,
"edited_by":"test@edx.org",
"edited_on":{
"$date":1364473713238
},
"blocks":{
"head12345":{
"children":[
],
"category":"course",
"definition":"head12345_10",
"metadata":{
"end":null,
"tabs":[
{
"type":"courseware"
},
{
"type":"course_info",
"name":"Course Info"
},
{
"type":"discussion",
"name":"Discussion"
},
{
"type":"wiki",
"name":"Wiki"
}
],
"enrollment_start":null,
"graceperiod":null,
"start":"2013-02-14T05:00",
"enrollment_end":null,
"data_dir":"MITx-2-Base",
"advertised_start":null,
"display_name":"The Ancient Greek Hero"
},
"update_version":{ "$oid" : "1d00000000000000dddd3333" },
"previous_version":null,
"edited_by":"test@edx.org",
"edited_on":{
"$date":1364473713238
}
}
}
},
{
"_id": { "$oid" : "1d00000000000000dddd2222"},
"root":"head23456",
"original_version":{ "$oid" : "1d00000000000000dddd4444" },
"previous_version":{ "$oid" : "1d00000000000000dddd4444" },
"edited_by":"test@edx.org",
"edited_on":{
"$date":1364481313238
},
"blocks":{
"head23456":{
"children":[
],
"category":"course",
"definition":"head23456_1",
"metadata":{
"end":null,
"tabs":[
{
"type":"courseware"
},
{
"type":"course_info",
"name":"Course Info"
},
{
"type":"discussion",
"name":"Discussion"
},
{
"type":"wiki",
"name":"Wiki"
}
],
"enrollment_start":null,
"graceperiod":null,
"start":"2013-02-14T05:00",
"enrollment_end":null,
"data_dir":"MITx-2-Base",
"advertised_start":null,
"display_name":"The most wonderful course"
},
"update_version":{ "$oid" : "1d00000000000000dddd2222" },
"previous_version":{ "$oid" : "1d00000000000000dddd4444" },
"edited_by":"test@edx.org",
"edited_on":{
"$date":1364481313238
}
}
}
},
{
"_id": { "$oid" : "1d00000000000000dddd4444"},
"root":"head23456",
"original_version":{ "$oid" : "1d00000000000000dddd4444" },
"previous_version":null,
"edited_by":"test@edx.org",
"edited_on":{
"$date":1364480313238
},
"blocks":{
"head23456":{
"children":[
],
"category":"course",
"definition":"head23456_0",
"metadata":{
"end":null,
"tabs":[
{
"type":"courseware"
},
{
"type":"course_info",
"name":"Course Info"
},
{
"type":"discussion",
"name":"Discussion"
},
{
"type":"wiki",
"name":"Wiki"
}
],
"enrollment_start":null,
"graceperiod":null,
"start":"2013-02-14T05:00",
"enrollment_end":null,
"data_dir":"MITx-2-Base",
"advertised_start":null,
"display_name":"A wonderful course"
},
"update_version":{ "$oid" : "1d00000000000000dddd4444" },
"previous_version":null,
"edited_by":"test@edx.org",
"edited_on":{
"$date":1364480313238
}
}
}
},
{
"_id": { "$oid" : "1d00000000000000eeee0000"},
"root":"head23456",
"original_version":{ "$oid" : "1d00000000000000eeee0000" },
"previous_version":null,
"edited_by":"test@edx.org",
"edited_on":{
"$date":1364481333238
},
"blocks":{
"head23456":{
"children":[
],
"category":"course",
"definition":"head23456_1",
"metadata":{
"end":null,
"tabs":[
{
"type":"courseware"
},
{
"type":"course_info",
"name":"Course Info"
},
{
"type":"discussion",
"name":"Discussion"
},
{
"type":"wiki",
"name":"Wiki"
}
],
"enrollment_start":null,
"graceperiod":null,
"start":"2013-02-14T05:00",
"enrollment_end":null,
"data_dir":"MITx-2-Base",
"advertised_start":null,
"display_name":"The most wonderful course"
},
"update_version":{ "$oid" : "1d00000000000000eeee0000" },
"previous_version":null,
"edited_by":"test@edx.org",
"edited_on":{
"$date":1364481333238
}
}
}
},
{
"_id": { "$oid" : "1d00000000000000dddd5555"},
"root":"head345679",
"original_version":{ "$oid" : "1d00000000000000dddd5555" },
"previous_version":null,
"edited_by":"test@guestx.edu",
"edited_on":{
"$date":1364491313238
},
"blocks":{
"head345679":{
"children":[
],
"category":"course",
"definition":"head345679_1",
"metadata":{
"end":null,
"tabs":[
{
"type":"courseware"
},
{
"type":"course_info",
"name":"Course Info"
},
{
"type":"discussion",
"name":"Discussion"
},
{
"type":"wiki",
"name":"Wiki"
}
],
"enrollment_start":null,
"graceperiod":null,
"start":"2013-03-14T05:00",
"enrollment_end":null,
"data_dir":"MITx-3-Base",
"advertised_start":null,
"display_name":"Yet another contender"
},
"update_version":{ "$oid" : "1d00000000000000dddd5555" },
"previous_version":null,
"edited_by":"test@guestx.edu",
"edited_on":{
"$date":1364491313238
}
}
}
}
]
docs/source/persistence.rst 0 → 100644
This document describes the split mongostore representation which
separates course structure from content where each course run can have
its own structure. It does not describe the original mongostore
representation which combined structure and content and used the key
to distinguish draft from published elements.
This document does not describe mongo nor its operations. See
`http://www.mongodb.org/`_ for information on Mongo.
Product Goals and Discussion
----------------------------
(Mark Chang)
This work was instigated by the studio team's need to correctly do
metadata inheritance. As we moved from an on-startup load of the
courseware, the system was able to inflate and perform an inheritance
calculation step such that the intended properties of children could
be set through inheritance. While not strictly a requirement from the
studio authoring approach, where inheritance really rears its head is
on import of existing courseware that was designed assuming
inheritance.
A short term patch was applied that allowed inheritance to act
correctly, but it was felt that it was insufficient and this would be
an opportunity to make a more clean datastore representation. After
much difficulty with how draft objects would work, Calen Pennington
worked through a split data store model ala FAT filesystem (Mark's
metaphor, not Cale's) to split the structure from the content. The
goal would be a sea of content documents that would not know about the
structure they were utilized within. Cale began the work and handed it
off to Don Mitchell.
In the interim, great discussion was had at the Architect's Council
that firmed up the design and strategy for implementation, adding
great richness and completeness to the new data structure.
The immediate
needs are two, and only two.
#. functioning metadata inheritance
#. good groundwork for versioning
While the discussions of the atomic unit of courseware available for
sharing, how these are shared, and how they refer back to the parent
definition are all valuable, they will not be built in the near term. I
understand and expect there to be many refactorings, improvements, and
migrations in the future.
I fully anticipate much more detail to be uncovered even in this first
thin implementation. When that happens, we will need as much advice
from those watching this page to make sure we move in the right
direction. We also must have the right design artifacts to document
where we stand relative to the overall design that has loftier goals.
Representation
--------------
The xmodule collections:
+ `modulestore.active_versions`: this collection maps the org, course,
and run to the current draft and published versions of the course.
+ `modulestore.structures`: this collection has one entry per course
run and one for the template.
+ `modulestore.definitions`: this collection has one entry per
"module" or "block" version.
modulestore.active_versions: 2 simple maps for dereferencing the
correct course from the structures collection. Every course run will
have a draft version. Not every course run will have a published
version. No course run will have more than one of each of these.
::
{ '_id' : uniqueid,
'versions' : { <versionName> : versionGuid, ..}
'creator' : user_id,
'created' : date (native mongo rep)
}
::
+ `id` is a unique id for finding this course run. It's a
location-reference string, like 'edu.mit.eng.eecs.6002x.industry.spring2013'.
+ `versions`: These are references to `modulestore.structures`. A
location-reference like
`edu.mit.eng.eecs.6002x.industry.spring2013;draft` refers to the value
associated with `draft` for this document.
+ `versionName` is `draft`, `published`, or another user-defined
string.
+ `versionGuid` is a system generated globally unique id (hash). It
points to the entry in `modulestore.structures` ` `
`draftVersion`: the design will try to generate a new draft version
for each change to the course object: that is, for each move,
deletion, node creation, or metadata change. Cloning a course
(creating a new run of a course or such) will create a new entry in
this table with just a `draftVersion` and will cause a copy of the
corresponding entry in `modulestore.structures`. The entry in
`structures` will point to its version parent in the source course.
modulestore.structures : the entries in this collection follow this
definition:
::
{ '_id' : course_guid,
'blocks' :
{ block_guid : // the guid is an arbitrary id to represent this node in the course tree
{ 'children' : [ block_guid* ],
'metadata' : { property map },
'definition' : definition_guid,
'category' : 'section' | 'sequence' | ... }
::
...// more guids
::
},
'root' : block_guid,
'original' : course_guid, // the first version of this course from which all others were derived
'previous' : course_guid | null, // the previous revision of this course (null if this is the original)
'version_entry' : uniqueid, // from the active_versions collection
'creator' : user_idÂ
}
+ `blocks`: each block is a node in the course such as the course, a
section, a subsection, a unit, or a component. The block ids remain
the same over edits (they're not versioned).
+ `root`: the true top of the course. Not all nodes without parents
are truly roots. Some are orphans.
+ `course_guid, block_guid, definition_guid` are not those specific
strings but instead some system generated globally unique id.
+ The one which gets passed around and pointed to by urls is the
`block_guid`; so, it will be the one the system ensures is readable.
Unlike the other guids, this one stays the same over revisions and can
even be the same between course runs (although the course run
contextualizes it to distinguish its instantiated version).
+ `definition` points to the specific revision of the given element in
`modulestore.definitions` which this version of the course includes.
+ `children` lists the block_guids which are the children of this node
in the course tree. It's an error if the guid in the `children` list
does not occur in the `blocks` dictionary.
+ `metadata` is the node's explicitly defined metadata some of which
may be inherited by its children
For debugging purposes, there may be value in adding a courseId field
(org, course, run) for use via db browsers.
modulestore.definitions : the data associated with each version of
each node in the structures. Many courses may point to the same
definition or may point to different versions derived from the same
original definition.
::
{ '_id' : guid,
'data' : ..,
'default_settings' : {'display_name':..,..}, // a starting point for new uses of this definition
'category' : xblocktype, // the xmodule/xblock type such as course, problem, html, video, about
'original' : guid, // the first kept version of this definition from which all others were derived
'previous' : guid | null, // the previous revision of this definition (null if this is the original)
'creator' : user_id // the id of whomever pressed the draft or publish button
}
+ `_id`: a guid to uniquely identify the definition.
+ `data` is the payload used by the xmodule and following the
xmodule's data representation.
+ `category` is the xmodule type and used to figure out which xmodule
to instantiate.
There may be some debugging value to adding a courseId field, but it
may also be misleading if the element is used in more than one course.
Templates
~~~~~~~~~
(I'm refactoring templates quite a bit from their representation prior
to this design)
All field defaults will be defined through the xblock field.default
mechanism. Templates, otoh, are for representing optional boilerplate
usually for examples such as a multiple-choice problem or a video
component with the fields all filled in. Templates are stored in yaml
files which provide a template name, sorting and filtering information
(e.g., requires advanced editor v allows simple editor), and then
field: value pairs for setting xblocks' fields upon template
selection.
Most of the pre-existing templates including all of the 'empty' ones
will go away. The ones which will stay are the ones truly just giving
examples or starting points for variants. This change will require
that the template choice code provide a default 'blank' choice to the
user which just instantiates the model w/ its defaults versus a choice
of the boilerplates. The client can therefore populate its own model
of the xblock and then send a create-item request to the server when
the user says he/she's ready to save it.
Import/export
~~~~~~~~~~~~~
Export should allow the user to select the version of the course to
export which can be any of the draft or published versions. At a
minimum, the user should choose between draft or published.
Import should import the course as a draft course regardless of
whether it was exported as a published or draft one, I believe. If
there's already a draft for the same course, in the best of all
worlds, it would have the guid to see if the guid exists in the
structures collection, and, if so, just make that the current
draftVersion (don't do any actual data changes). If there's no guid or
the guid doesn't exist in the structures collection, then we'll need
to work out the logic for how to decide what definitions to create v
update v point to.
Course ID
~~~~~~~~~
Currently, we use a triple to identify a run of a course. The triple
is organization, course name, and run identity (e.g., 2013Q1). The
system does not care what the id consists of only that it uniquely
identify an edition of the course. The system uses this id to organize
the course composition and find the course elements. It distinguishes
between a current being-edited version (aka, draft) and publicly
viewable version (published). Not every course has a published
version, but every course will have a draft version. The application
specifies whether it wants the draft or published version. This system
allows the application to easily switch between the 2; however, it
will have a configuration in which it's impossible to access the draft
so that we can add access optimizations and extraction filtering later
if needed.
Location
~~~~~~~~
The purpose of `Location` is to identify content. That is, to be able
to locate content by providing sufficient addressing. The `Location`
object is ubiquitous throughout the current code and thus will be
difficult to adapt and make more flexible. Right now, it's a very
simple `namedtuple` and a lot of code presumes this. This refactoring
generalizes and subclasses it to handle various addressing schemes and
remove direct manipulations.
Our code needs to locate several types of things and should probably
use several different types of locators for these. These are the types
of things we need to address. Some of these can be the same as others,
but I wanted to lay them out fairly fine grained here before proposing
my distinctions:
#. Courses: an object representing a course as an offering but not any
of its content. Used for dashboards and other such navigators. These
may specify a version or merely reference the idea of the course's
existence.
#. Course structures: the names (and other metadata), `Locations`, and
children pointers but not definitions for all the blocks in a course
or a subtree of a course. Our applications often display contextual,
outline, or other such structural information which do not need to
include definitions but need to show display names, graded as, and
other status info. This document's design makes fetching these a
single document fetch; however, if it has to fetch the full course, it
will require far more work (getting all definitions too) than the apps
need.
#. Blocks (uses of definitions within a version of a course including
metadata, pointers to children, and type specific content)
#. Definitions: use independent definitions of content without
metadata (and currently w/o pointers to children).
#. Version trees Fetching the time history portrayal of a definition,
course, or block including branching.
#. Collections of courses, definitions, or blocks matching some
partial descriptors (e.g., all courses for org x, all definitions of
type foo, all blocks in course y of type x, all currently accessible
courses (published with startdate < today and enddate > today)).
#. Fetching of courses, blocks, or definitions via "human readable"
urls.
#. (partial descriptors) may suffice for this as human readable
does not guarantee uniqueness.
Some of these differ not so much in how to address them but in what
should be returned. The content should be up to the functions not the
addressing scheme. So, I think the addressable things are:
#. Course as in #1 above: usually a specific offering of a course.
Often used as a context for the other queries.
#. Blocks (aka usages) as in #3 above: a specific block contextualized
in a course
#. Definitions (#4): a specific definition
#. Collections of courses, blocks within a specific course, or
definitions matching a partial descriptor
Course locator (course_loc)
```````````````````````````
There are 3 ways to locate a course:
#. By its unique id in the `active_versions` collection with an
implied or specified selection of draft or published version.
#. By its unique id in the `structures` collection.
Block locator (block_loc)
`````````````````````````
A block locator finds a specific node in a specific version of a
course. Thus, it needs a course locator plus a `usage_id`.
Definition locator (definition_loc)
```````````````````````````````````
Just a `guid`.
Partial descriptor collections locators (partial)
`````````````````````````````````````````````````
In the most general case, and to simplify implementation, these can be
any payload passable to mongo for doing the lookup. The specification
of which collection to look into can be implied by which lookup
function your code calls (get_courses, get_blocks, get_definitions) or
we could add it as another property. For now, I will leave this as
merely a search string. Thus, to find all courses for org = mitx,
`{"org": "mitx"}`. To find all blocks in a course whose display name
contains "circuit example", call `get_blocks` with the course locator
plus `{"metadata.display_name" : /circuit example/i}` (the i makes it
case insensitive and is just an example). To find if a definition is
used in a course, call get_blocks with the course locator plus
`{definition : definition_guid}`. Note, this looks for a specific
version of the definition. If you wanted to see if it used any of a
set of versions, use `{definition : {"$in" : [definition_guid*]}}`
i4x locator
```````````
To support existing xml based courses and any urls, we need to
support i4x locators. These are tuples of `(org course category id
['draft'])`. The trouble with these is that they don't uniquely
identify a course run from which to dereference the element. There's
also no requirement that `id` have any uniqueness outside the scope of
the other elements. There's some debate as to whether these address
blocks or definitions. To mean, they seem to address blocks; however,
in the current system there is no distinction between blocks and
definitions; so, either could be argued.
This version will define an `i4x_location` class for representing
these and using them for xml based courses if necessary.
Current code munges strings to make them 'acceptable' by replacing
'illegal' chars with underscores. I'd like to suggest leaving strings
as is and using url escaping to make acceptable urls. As to making
human readable names from display strings, that should be the
responsibility of the naming module not the Location representation,
imo.
Use cases (expository)
~~~~~~~~~~~~~~~~~~~~~~
There's a section below walking through a specific use case. This one
just tries to review potential functionality.
Inheritance
```````````
Our system has the notion of policies which should control the
behavior of whole courses or subtrees within courses. Such policies
include graceperiods, discussion forum controls, dates, whether to
show answers, how to randomize, etc. It's important that the course
authors' intent propagates to all relevant course sections. The
desired behavior is that (some? all?) metadata attributes on modules
flow down to all children unless overridden.
This design addresses inheritance by making course structure and
metadata separate from content thus enabling a single or small number
of db queries to get these and then compute the inheritance.
Separating editing from live production
```````````````````````````````````````
Course authors should be able to make changes in isolation from
production and then push out consistent chunks of changes for all
students to see as atomic and consistent. The current system allows
authors to change text and content without affecting production but
not metadata nor course structure. This design separates all changes
from production until pushed.
Sharing of content, part 1
``````````````````````````
Authors want to share content between course runs and even between
different courses. The current system requires copying all such
content and losing the providence information which could be used to
take advantage of other peoples' changes. This design allows multiple
courses and multiple places within a course to point to the same
definitions and thus potentially, at some day, see other changes to
the content.
Sharing of content, part 2: course structure
````````````````````````````````````````````
Because courses structures are separate from their identities, courses
can share structure and track changes in the same way as definitions.
That is, a new course run can point to an existing course instance
with its version history and then branch it from there.
Sharing of content, part 3: modules
```````````````````````````````````
Suppose a course includes a soldering tutorial (or a required lab
safety lesson). Other courses want to use the same tutorial and
possibly allow the student to skip it if the student succeeded at it
in another course. As the tutorial updates, other courses may want to
track the updates or choose to move to the updates without having to
copy the modules from the module's authoritative parent course.
This design enables sharing of composed modules but it does not track
the revisions of those modules separately from their courses. It does
not adequately address this but may be extendible enough to do so.
That is, we could represent these shared units as separate "courses"
and allow ids in block.children[] to point to courses as well as other
blocks in the same course.
We should decide on the behaviors we want. Such as, some times the
student has to repeat the content or the student never has to repeat
it or? progress should be tracked by the owning course or as a stand
alone minicourse type element? Because it's a safety lesson, all
courses should track the current published head and not have their own
heads or they should choose when to promote the head?
Are these shared elements rare and large grained enough to make the
indirection not expensive or will it result in devolving to the
current one entry per module design for deducing course structure?
Functional differences from existing modulestore:
-------------------------------------------------
+ Courses and definitions support trees of versions knowing from where
they were derived. For now, I will not implement the server functions
for retrieving and manipulating these version trees and will leave
those for a future effort. I will only implement functions which
extend the trees.
+ Changes to course structure don't immediately affect production:
note, we need to figure out the granularity of the user's publish
behavior for pushing out these actions. That is, do they publish a
whole subtree which may include new children in order to make these
effective, do they publish all structural (deletion, move) changes
under a subtree but not insertions as an action, do they publish each
action individually, or what? How do they know that any of these are
not yet published? Do we have phantom placeholders for deleted nodes
w/ "publish deletion" buttons?
+ Element deletion
+ Element move
+ metadata changes
+ No location objects used as ids! This implementation will use guids
instead. There's a reasonable objection to guids as being too ugly,
long, and indecipherable. I will check mongy, pymongo, and python guid
generation mechanisms to find out if there's a way to make ones which
include a prepended string (such as course and run or an explicitly
stated prepend string) and minimize guid length (e.g., by using
sequential serial # from a global or local pool).
Use case walkthrough:
---------------------
Simple course creation with no precursor course: Note, this shows that
publishing creates subsets and side copies not in line versions of
nodes.
user db create course for org, course id, run id
active_versions.draftVersion: add entry
definitions: add entry C w/ category = 'course', no data
structures: add entry w/ 1 child C, original = self, no previous,
author = user
add section S copy structures entry, new one points to old as original
and previous
active_versions.draftVersion points to new
definitions: add entry S w/ category = 'section'
structures entry:
+ add S to children of the course block,
+ add S to blocks w/ no children
add subsection T copy structures entry, new one points to old as
original and previous
active_versions.draftVersion points to new
definitions: add entry T w/ category = 'sequential'
structures entry:
+ add T to children of the S block entry,
+ add T to blocks w/ no children
add unit U copy structures entry, new one points to old as original
and previous
active_versions.draftVersion points to new
definitions: add entry U w/ category = 'vertical'
structures entry:
+ add U to children of the T block entry,
+ add U to blocks w/ no children
publish U
create structures entry, new one points to self as original (no
pointer to draft course b/c it's not really a clone)
active_versions.publishedVersion points to new
block: add U, T, S, C pointers with each as respective child
(regardless of other children they may have in draft), and their
metadata
add units V, W, X under T copy structures entry of the draftVersion,
new one points to old as original and previous
active_versions.draftVersion points to new
definitions: add entries V, W, X w/ category = 'vertical'
structures entry:
+ add V, W, X to children of the T block entry,
+ add V, W, X to blocks w/ no children
edit U copy structures entry, new one points to old as original and
previous
active_versions.draftVersion points to new
definitions: copy entry U to U_2 w/ updates, U_2 points to U as
original and previous
structures entry:
+ replace U w/ U_2 in children of the T block entry,
+ copy entry U in blocks to entry U_2 and remove U
add subsection Z under S copy structures entry, new one points to old
as original and previous
active_versions.draftVersion points to new
definitions: add entry Z w/ category = 'sequential'
structures entry:
+ add Z to children of the S block entry,
+ add Z to blocks w/ no children
edit S's name (metadata) copy structures entry, new one points to old
as original and previous
active_versions.draftVersion points to new
structures entry: update S's metadata w/ new name publish U, V copy
publishedCourse structures entry, new one points to old published as
original and previous
active_versions.publishedVersion points to new
block: update T to point to new U & V and not old U
Note: does not update S's name publish C copy publishedCourse
structures entry, new one points to old published as original and
previous
active_versions.publishedVersion points to new
blocks: note that C child S == published(S) but metadata !=, update
metadata
note that S has unpublished children: publish them (recurse on this)
note that Z is unpublished: add pointer to blocks and children of S
note that W, X unpublished: add to blocks, add to children of T edit C
metadata (e.g., graceperiod) copy draft structures entry, new one
points to old as original and previous
active_versions.draftVersion points to new
structures entry: update C's metadata add Y under Z ... publish C's
metadata change copy publishedCourse structures entry, new one points
to old published as original and previous
active_versions.publishedVersion points to new
blocks: update C's metadata
Note: no copying of Y or any other changes to published move X under Z
copy draft structures entry, new one points to old as original and
previous
active_versions.draftVersion points to new
structures entry: remove X from T's children and add to Z's
Note: making it persistently clear to the user that X still exists
under T in the published version will be crucial delete W copy draft
structures entry, new one points to old as original and previous
active_versions.draftVersion points to new
structures entry: remove W from T's children and remove W from blocks
Note: no actual deletion of W, just no longer reachable w/in the draft
course, but still in published; so, need to keep user aware of that.
publish Z Note: the interesting thing here is that X cannot occur
under both Z and T, but the user's not publishing T, here's where
having a consistent definition of original may help. If the original
of a new element == original of an existing, then it's an update?
copy publishedCourse entry...
definitions: add Y, copy/update Z, X if either have any data changes
(they don't)
blocks: remove X from T's children and add to Z's, add Y to Z, add Y
publish deletion of W copy publishedCourse entry...
structures entry: remove W from T's children and remove W from blocks
Conflict detection:
Need a scenario where 2 authors make edits to different parts of
course, to parts while parents being moved, while parents being
deleted, to same parts, ...
.. _http://www.mongodb.org/: http://www.mongodb.org/
lms/djangoapps/courseware/features/problems.feature
......@@ -129,3 +129,45 @@ Feature: Answer problems
When I press the button with the label "Hide Answer(s)"
Then the button with the label "Show Answer(s)" does appear
And I should not see "4.14159" anywhere on the page
Scenario: I can see my score on a problem when I answer it and after I reset it
Given I am viewing a "<ProblemType>" problem
When I answer a "<ProblemType>" problem "<Correctness>ly"
Then I should see a score of "<Score>"
When I reset the problem
Then I should see a score of "<Points Possible>"
Examples:
| ProblemType | Correctness | Score | Points Possible |
| drop down | correct | 1/1 points | 1 point possible |
| drop down | incorrect | 1 point possible | 1 point possible |
| multiple choice | correct | 1/1 points | 1 point possible |
| multiple choice | incorrect | 1 point possible | 1 point possible |
| checkbox | correct | 1/1 points | 1 point possible |
| checkbox | incorrect | 1 point possible | 1 point possible |
| radio | correct | 1/1 points | 1 point possible |
| radio | incorrect | 1 point possible | 1 point possible |
| string | correct | 1/1 points | 1 point possible |
| string | incorrect | 1 point possible | 1 point possible |
| numerical | correct | 1/1 points | 1 point possible |
| numerical | incorrect | 1 point possible | 1 point possible |
| formula | correct | 1/1 points | 1 point possible |
| formula | incorrect | 1 point possible | 1 point possible |
| script | correct | 2/2 points | 2 points possible |
| script | incorrect | 2 points possible | 2 points possible |
Scenario: I can see my score on a problem to which I submit a blank answer
Given I am viewing a "<ProblemType>" problem
When I check a problem
Then I should see a score of "<Points Possible>"
Examples:
| ProblemType | Points Possible |
| drop down | 1 point possible |
| multiple choice | 1 point possible |
| checkbox | 1 point possible |
| radio | 1 point possible |
| string | 1 point possible |
| numerical | 1 point possible |
| formula | 1 point possible |
| script | 2 points possible |
lms/djangoapps/courseware/features/problems.py
......@@ -142,6 +142,11 @@ def button_with_label_present(_step, buttonname, doesnt_appear):
assert world.browser.is_text_present(buttonname, wait_time=5)
@step(u'I should see a score of "([^"]*)"$')
def see_score(_step, score):
assert world.browser.is_text_present(score)
@step(u'My "([^"]*)" answer is marked "([^"]*)"')
def assert_answer_mark(step, problem_type, correctness):
"""
......
lms/templates/problem.html
<%namespace name='static' file='static_content.html'/>
<h2 class="problem-header">
${ problem['name'] }
% if problem['weight'] != 1 and problem['weight'] is not None:
: ${ problem['weight'] } points
% endif
</h2>
<section class="problem-progress">
</section>
<section class="problem">
${ problem['html'] }
......
lms/templates/problem_ajax.html
<section id="problem_${element_id}" class="problems-wrapper" data-problem-id="${id}" data-url="${ajax_url}" progress="${progress}"></section>
<section id="problem_${element_id}" class="problems-wrapper" data-problem-id="${id}" data-url="${ajax_url}" data-progress_status="${progress_status}" data-progress_detail="${progress_detail}"></section>
requirements/edx/github.txt
......@@ -8,6 +8,6 @@
-e git://github.com/eventbrite/zendesk.git@d53fe0e81b623f084e91776bcf6369f8b7b63879#egg=zendesk
# Our libraries:
-e git+https://github.com/edx/XBlock.git@3974e999fe853a37dfa6fadf0611289434349409#egg=XBlock
-e git+https://github.com/edx/XBlock.git@b697bebd45deebd0f868613fab6722a0460ca0c1#egg=XBlock
-e git+https://github.com/edx/codejail.git@c08967fb44d1bcdb259d3ec58812e3ac592539c2#egg=codejail
-e git+https://github.com/edx/diff-cover.git@v0.1.3#egg=diff_cover
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