from ..interfaces import IComment from ..interfaces import IConversation from ..interfaces import IDiscussionLayer from ..interfaces import IDiscussionSettings from ..interfaces import IReplies from ..testing import PLONE_APP_DISCUSSION_INTEGRATION_TESTING from Acquisition import aq_base from Acquisition import aq_parent from datetime import datetime from datetime import timedelta from datetime import timezone from plone.app.testing import setRoles from plone.app.testing import TEST_USER_ID from plone.app.vocabularies.types import BAD_TYPES from plone.dexterity.interfaces import IDexterityContent from plone.registry.interfaces import IRegistry from Products.CMFCore.utils import getToolByName from zope import interface from zope.annotation.interfaces import IAnnotations from zope.component import createObject from zope.component import queryUtility import unittest class ConversationTest(unittest.TestCase): layer = PLONE_APP_DISCUSSION_INTEGRATION_TESTING def setUp(self): self.portal = self.layer["portal"] setRoles(self.portal, TEST_USER_ID, ["Manager"]) interface.alsoProvides(self.portal.REQUEST, IDiscussionLayer) self.typetool = self.portal.portal_types self.portal_discussion = getToolByName( self.portal, "portal_discussion", None, ) # Allow discussion registry = queryUtility(IRegistry) settings = registry.forInterface(IDiscussionSettings) settings.globally_enabled = True workflow = self.portal.portal_workflow workflow.doActionFor(self.portal.doc1, "publish") def test_add_comment(self): # Create a conversation. In this case we doesn't assign it to an # object, as we just want to check the Conversation object API. conversation = IConversation(self.portal.doc1) # Add a comment. Note: in real life, we always create comments via the # factory to allow different factories to be swapped in comment = createObject("plone.Comment") comment.text = "Comment text" new_id = conversation.addComment(comment) # Check that the conversation methods return the correct data self.assertTrue(isinstance(comment.comment_id, int)) self.assertTrue(IComment.providedBy(conversation[new_id])) self.assertEqual( aq_base(conversation[new_id].__parent__), aq_base(conversation), ) self.assertEqual(new_id, comment.comment_id) self.assertEqual(len(list(conversation.getComments())), 1) self.assertEqual(len(tuple(conversation.getThreads())), 1) self.assertEqual(conversation.total_comments(), 1) self.assertTrue( conversation.last_comment_date - datetime.now().astimezone(timezone.utc) < timedelta(seconds=1), ) def test_timezone_naive_comment(self): # Create a conversation. In this case we doesn't assign it to an # object, as we just want to check the Conversation object API. conversation = IConversation(self.portal.doc1) # Add a comment. Note: in real life, we always create comments via the # factory to allow different factories to be swapped in comment = createObject("plone.Comment") comment.text = "Comment text" new_id = conversation.addComment(comment) # Check that comments have timezones self.assertTrue(comment.creation_date.tzinfo) self.assertTrue(comment.modification_date.tzinfo) # Remove the timezone from the comment dates comment.creation_date = comment.creation_date.replace(tzinfo=None) comment.modification_date = comment.modification_date.replace(tzinfo=None) # Check that the date is still correct self.assertTrue( conversation.last_comment_date - datetime.now().astimezone(timezone.utc) < timedelta(seconds=1), ) # Check that comments still have timezones self.assertTrue(comment.creation_date.tzinfo) self.assertTrue(comment.modification_date.tzinfo) def test_private_comment(self): conversation = IConversation(self.portal.doc1) comment = createObject("plone.Comment") comment.author_username = "nobody" conversation.addComment(comment) comment.manage_permission("View", roles=tuple()) self.assertEqual(0, conversation.total_comments()) self.assertEqual(None, conversation.last_comment_date) self.assertEqual(["nobody"], list(conversation.commentators)) self.assertEqual([], list(conversation.public_commentators)) def test_delete_comment(self): # Create a conversation. In this case we doesn't assign it to an # object, as we just want to check the Conversation object API. conversation = IConversation(self.portal.doc1) # Add a comment. Note: in real life, we always create comments via the # factory to allow different factories to be swapped in comment = createObject("plone.Comment") comment.text = "Comment text" new_id = conversation.addComment(comment) # make sure the comment has been added self.assertEqual(len(list(conversation.getComments())), 1) self.assertEqual(len(tuple(conversation.getThreads())), 1) self.assertEqual(conversation.total_comments(), 1) # delete the comment we just created del conversation[new_id] # make sure there is no comment left in the conversation self.assertEqual(len(list(conversation.getComments())), 0) self.assertEqual(len(tuple(conversation.getThreads())), 0) self.assertEqual(conversation.total_comments(), 0) def test_delete_recursive(self): # Create a conversation. In this case we doesn't assign it to an # object, as we just want to check the Conversation object API. conversation = IConversation(self.portal.doc1) IReplies(conversation) # Create a nested comment structure: # # Conversation # +- Comment 1 # +- Comment 1_1 # | +- Comment 1_1_1 # +- Comment 1_2 # +- Comment 2 # +- Comment 2_1 # Create all comments comment1 = createObject("plone.Comment") comment1.text = "Comment text" comment1_1 = createObject("plone.Comment") comment1_1.text = "Comment text" comment1_1_1 = createObject("plone.Comment") comment1_1_1.text = "Comment text" comment1_2 = createObject("plone.Comment") comment1_2.text = "Comment text" comment2 = createObject("plone.Comment") comment2.text = "Comment text" comment2_1 = createObject("plone.Comment") comment2_1.text = "Comment text" # Create the nested comment structure new_id_1 = conversation.addComment(comment1) new_id_2 = conversation.addComment(comment2) comment1_1.in_reply_to = new_id_1 new_id_1_1 = conversation.addComment(comment1_1) comment1_1_1.in_reply_to = new_id_1_1 conversation.addComment(comment1_1_1) comment1_2.in_reply_to = new_id_1 conversation.addComment(comment1_2) comment2_1.in_reply_to = new_id_2 new_id_2_1 = conversation.addComment(comment2_1) del conversation[new_id_1] self.assertEqual( [ {"comment": comment2, "depth": 0, "id": new_id_2}, {"comment": comment2_1, "depth": 1, "id": new_id_2_1}, ], list(conversation.getThreads()), ) def test_delete_comment_when_content_object_is_deleted(self): # Make sure all comments of a content object are deleted when the # object itself is deleted. conversation = IConversation(self.portal.doc1) comment = createObject("plone.Comment") comment.text = "Comment text" conversation.addComment(comment) # Delete the content object self.portal.manage_delObjects(["doc1"]) # Make sure the comment has been deleted as well self.assertEqual(len(list(conversation.getComments())), 0) self.assertEqual(len(tuple(conversation.getThreads())), 0) self.assertEqual(conversation.total_comments(), 0) def test_comments_enabled_on_doc_in_subfolder(self): typetool = self.portal.portal_types typetool.constructContent("Folder", self.portal, "folder1") typetool.constructContent("Document", self.portal.folder1, "doc2") folder = self.portal.folder1 folder.allow_discussion = True self.assertTrue(aq_base(folder).allow_discussion) folder.allow_discussion = False self.assertFalse(aq_base(folder).allow_discussion) doc = self.portal.folder1.doc2 conversation = doc.restrictedTraverse("@@conversation_view") self.assertEqual(conversation.enabled(), False) # We have to allow discussion on Document content type, since # otherwise allow_discussion will always return False portal_types = getToolByName(self.portal, "portal_types") document_fti = getattr(portal_types, "Document") document_fti.manage_changeProperties(allow_discussion=True) self.assertEqual(conversation.enabled(), True) def test_disable_commenting_globally(self): # Create a conversation. conversation = self.portal.doc1.restrictedTraverse("@@conversation_view") # We have to allow discussion on Document content type, since # otherwise allow_discussion will always return False portal_types = getToolByName(self.portal, "portal_types") document_fti = getattr(portal_types, "Document") document_fti.manage_changeProperties(allow_discussion=True) # Check if conversation is enabled now self.assertEqual(conversation.enabled(), True) # Disable commenting in the registry registry = queryUtility(IRegistry) settings = registry.forInterface(IDiscussionSettings) settings.globally_enabled = False # Check if commenting is disabled on the conversation self.assertEqual(conversation.enabled(), False) # Enable discussion again settings.globally_enabled = True self.assertEqual(conversation.enabled(), True) def test_allow_discussion_for_news_items(self): self.typetool.constructContent("News Item", self.portal, "newsitem") newsitem = self.portal.newsitem conversation = newsitem.restrictedTraverse("@@conversation_view") # We have to allow discussion on Document content type, since # otherwise allow_discussion will always return False portal_types = getToolByName(self.portal, "portal_types") document_fti = getattr(portal_types, "News Item") document_fti.manage_changeProperties(allow_discussion=True) # Check if conversation is enabled now self.assertEqual(conversation.enabled(), True) # Disable commenting in the registry registry = queryUtility(IRegistry) settings = registry.forInterface(IDiscussionSettings) settings.globally_enabled = False # Check if commenting is disabled on the conversation self.assertEqual(conversation.enabled(), False) # Enable discussion again settings.globally_enabled = True self.assertEqual(conversation.enabled(), True) def test_disable_commenting_for_content_type(self): # Create a conversation. conversation = self.portal.doc1.restrictedTraverse( "@@conversation_view", ) # The Document content type is disabled by default self.assertEqual(conversation.enabled(), False) # Allow discussion on Document content type portal_types = getToolByName(self.portal, "portal_types") document_fti = getattr(portal_types, "Document") document_fti.manage_changeProperties(allow_discussion=True) # Check if conversation is enabled now self.assertEqual(conversation.enabled(), True) # Disallow discussion on Document content type portal_types = getToolByName(self.portal, "portal_types") document_fti = getattr(portal_types, "Document") document_fti.manage_changeProperties(allow_discussion=False) # Check if conversation is enabled now self.assertEqual(conversation.enabled(), False) def test_allow_discussion_on_folder(self): # The ATContentTypes based allow_discussion method did not allow to # allow discussion on a folder. The dexerity behavior shipped with # plone.app.contenttypes does not have this restriction any longer. # Create a folder self.typetool.constructContent("Folder", self.portal, "f1") # Usually we don't create a conversation on a folder conversation = self.portal.f1.restrictedTraverse("@@conversation_view") # Allow discussion for the folder self.portal.f1.allow_discussion = True # Allow discussion on Folder content type portal_types = getToolByName(self.portal, "portal_types") document_fti = getattr(portal_types, "Folder") document_fti.manage_changeProperties(allow_discussion=True) self.assertTrue(conversation.enabled()) def test_is_discussion_allowed_on_content_object(self): # Allow discussion on a single content object # Create a conversation. conversation = self.portal.doc1.restrictedTraverse( "@@conversation_view", ) # Discussion is disallowed by default self.assertEqual(conversation.enabled(), False) # Allow discussion on content object self.portal.doc1.allow_discussion = True # Check if discussion is now allowed on the content object self.assertEqual(conversation.enabled(), True) self.portal.doc1.allow_discussion = False self.assertEqual(conversation.enabled(), False) def test_dict_operations(self): # test dict operations and acquisition wrapping # Create a conversation. In this case we doesn't assign it to an # object, as we just want to check the Conversation object API. conversation = IConversation(self.portal.doc1) # Add a comment. Note: in real life, we always create comments via the # factory to allow different factories to be swapped in comment1 = createObject("plone.Comment") comment1.text = "Comment text" new_id1 = conversation.addComment(comment1) comment2 = createObject("plone.Comment") comment2.text = "Comment text" new_id2 = conversation.addComment(comment2) # check if get returns a comment object, and None if the key # can not be found self.assertTrue(IComment.providedBy(conversation.get(new_id1))) self.assertTrue(IComment.providedBy(conversation.get(new_id2))) self.assertEqual(conversation.get(123), None) # check if keys return the ids of all comments self.assertEqual(len(conversation.keys()), 2) self.assertTrue(new_id1 in conversation.keys()) self.assertTrue(new_id2 in conversation.keys()) self.assertFalse(123 in conversation.keys()) # check if items returns (key, comment object) pairs self.assertEqual(len(conversation.items()), 2) self.assertTrue((new_id1, comment1) in conversation.items()) self.assertTrue((new_id2, comment2) in conversation.items()) # check if values returns the two comment objects self.assertEqual(len(conversation.values()), 2) self.assertTrue(comment1 in conversation.values()) self.assertTrue(comment2 in conversation.values()) # check if comment ids are in iterkeys self.assertTrue(new_id1 in conversation.keys()) self.assertTrue(new_id2 in conversation.keys()) self.assertFalse(123 in conversation.keys()) # check if comment objects are in itervalues self.assertTrue(comment1 in conversation.values()) self.assertTrue(comment2 in conversation.values()) # check if iteritems returns (key, comment object) pairs self.assertTrue((new_id1, comment1) in conversation.items()) self.assertTrue((new_id2, comment2) in conversation.items()) # TODO test acquisition wrapping # noqa T000 # self.assertTrue(aq_base(aq_parent(comment1)) is conversation) def test_total_comments(self): # Create a conversation. In this case we doesn't assign it to an # object, as we just want to check the Conversation object API. conversation = IConversation(self.portal.doc1) # Add a three comments. Note: in real life, we always create # comments via the factory to allow different factories to be # swapped in comment1 = createObject("plone.Comment") comment1.text = "Comment text" comment2 = createObject("plone.Comment") comment2.text = "Comment text" comment3 = createObject("plone.Comment") comment3.text = "Comment text" conversation.addComment(comment1) conversation.addComment(comment2) conversation.addComment(comment3) self.assertEqual(conversation.total_comments(), 3) def test_commentators(self): # add and remove a few comments to make sure the commentators # property returns a true set # Create a conversation. In this case we doesn't assign it to an # object, as we just want to check the Conversation object API. conversation = IConversation(self.portal.doc1) self.assertEqual(conversation.total_comments(), 0) # Add a four comments from three different users # Note: in real life, we always create # comments via the factory to allow different factories to be # swapped in comment1 = createObject("plone.Comment") comment1.text = "Comment text" comment1.author_username = "Jim" conversation.addComment(comment1) comment2 = createObject("plone.Comment") comment2.text = "Comment text" comment2.author_username = "Joe" conversation.addComment(comment2) comment3 = createObject("plone.Comment") comment3.text = "Comment text" comment3.author_username = "Jack" new_comment3_id = conversation.addComment(comment3) comment4 = createObject("plone.Comment") comment4.text = "Comment text" comment4.author_username = "Jack" new_comment4_id = conversation.addComment(comment4) # check if all commentators are in the commentators list self.assertEqual(conversation.total_comments(), 4) self.assertTrue("Jim" in conversation.commentators) self.assertTrue("Joe" in conversation.commentators) self.assertTrue("Jack" in conversation.commentators) # remove the comment from Jack del conversation[new_comment3_id] # check if Jack is still in the commentators list (since # he had added two comments) self.assertTrue("Jim" in conversation.commentators) self.assertTrue("Joe" in conversation.commentators) self.assertTrue("Jack" in conversation.commentators) self.assertEqual(conversation.total_comments(), 3) # remove the second comment from Jack del conversation[new_comment4_id] # check if Jack has been removed from the commentators list self.assertTrue("Jim" in conversation.commentators) self.assertTrue("Joe" in conversation.commentators) self.assertFalse("Jack" in conversation.commentators) self.assertEqual(conversation.total_comments(), 2) def test_last_comment_date(self): # add and remove some comments and check if last_comment_date # is properly updated # Create a conversation. In this case we doesn't assign it to an # object, as we just want to check the Conversation object API. conversation = IConversation(self.portal.doc1) # Add a three comments that are at least one day old # Note: in real life, we always create # comments via the factory to allow different factories to be # swapped in comment1 = createObject("plone.Comment") comment1.text = "Comment text" comment1.creation_date =\ datetime.now().astimezone(timezone.utc) - timedelta(4) conversation.addComment(comment1) comment2 = createObject("plone.Comment") comment2.text = "Comment text" comment2.creation_date =\ datetime.now().astimezone(timezone.utc) - timedelta(2) new_comment2_id = conversation.addComment(comment2) comment3 = createObject("plone.Comment") comment3.text = "Comment text" comment3.creation_date =\ datetime.now().astimezone(timezone.utc) - timedelta(1) new_comment3_id = conversation.addComment(comment3) # check if the latest comment is exactly one day old self.assertTrue( conversation.last_comment_date < datetime.now().astimezone(timezone.utc) - timedelta(hours=23, minutes=59, seconds=59), ) self.assertTrue( conversation.last_comment_date > datetime.now().astimezone(timezone.utc) - timedelta(days=1, seconds=1), ) # remove the latest comment del conversation[new_comment3_id] # check if the latest comment has been updated # the latest comment should be exactly two days old self.assertTrue( conversation.last_comment_date < datetime.now().astimezone(timezone.utc) - timedelta(days=1, hours=23, minutes=59, seconds=59), ) self.assertTrue( conversation.last_comment_date > datetime.now().astimezone(timezone.utc) - timedelta(days=2, seconds=1), ) # remove the latest comment again del conversation[new_comment2_id] # check if the latest comment has been updated # the latest comment should be exactly four days old self.assertTrue( conversation.last_comment_date < datetime.now().astimezone(timezone.utc) - timedelta(days=3, hours=23, minutes=59, seconds=59), ) self.assertTrue( conversation.last_comment_date > datetime.now().astimezone(timezone.utc) - timedelta(days=4, seconds=2), ) def test_get_comments_full(self): pass def test_get_comments_batched(self): pass def test_get_threads(self): # Create a conversation. In this case we doesn't assign it to an # object, as we just want to check the Conversation object API. conversation = IConversation(self.portal.doc1) IReplies(conversation) # Create a nested comment structure: # # Conversation # +- Comment 1 # +- Comment 1_1 # | +- Comment 1_1_1 # +- Comment 1_2 # +- Comment 2 # +- Comment 2_1 # Create all comments comment1 = createObject("plone.Comment") comment1.text = "Comment text" comment1_1 = createObject("plone.Comment") comment1_1.text = "Comment text" comment1_1_1 = createObject("plone.Comment") comment1_1_1.text = "Comment text" comment1_2 = createObject("plone.Comment") comment1_2.text = "Comment text" comment2 = createObject("plone.Comment") comment2.text = "Comment text" comment2_1 = createObject("plone.Comment") comment2_1.text = "Comment text" # Create the nested comment structure new_id_1 = conversation.addComment(comment1) new_id_2 = conversation.addComment(comment2) comment1_1.in_reply_to = new_id_1 new_id_1_1 = conversation.addComment(comment1_1) comment1_1_1.in_reply_to = new_id_1_1 new_id_1_1_1 = conversation.addComment(comment1_1_1) comment1_2.in_reply_to = new_id_1 new_id_1_2 = conversation.addComment(comment1_2) comment2_1.in_reply_to = new_id_2 new_id_2_1 = conversation.addComment(comment2_1) # Get threads self.assertEqual( [ {"comment": comment1, "depth": 0, "id": new_id_1}, {"comment": comment1_1, "depth": 1, "id": new_id_1_1}, {"comment": comment1_1_1, "depth": 2, "id": new_id_1_1_1}, {"comment": comment1_2, "depth": 1, "id": new_id_1_2}, {"comment": comment2, "depth": 0, "id": new_id_2}, {"comment": comment2_1, "depth": 1, "id": new_id_2_1}, ], list(conversation.getThreads()), ) def test_get_threads_batched(self): # TODO: test start, size, root and depth arguments to getThreads() # noqa T000 # - may want to split this into multiple tests pass def test_traversal(self): # make sure we can traverse to conversations and get a URL and path conversation = self.portal.doc1.restrictedTraverse( "++conversation++default", ) self.assertTrue(IConversation.providedBy(conversation)) self.assertEqual( ("", "plone", "doc1", "++conversation++default"), conversation.getPhysicalPath(), ) self.assertEqual( "http://nohost/plone/doc1/++conversation++default", conversation.absolute_url(), ) def test_unconvertible_id(self): # make sure the conversation view doesn't break when given comment id # can't be converted to int conversation = self.portal.doc1.restrictedTraverse( "++conversation++default/ThisCantBeRight", ) self.assertEqual(conversation, None) def test_parent(self): # Check that conversation has a content object as parent # Create a conversation. conversation = IConversation(self.portal.doc1) # Check the parent self.assertTrue(conversation.__parent__) self.assertTrue(aq_parent(conversation)) self.assertEqual(conversation.__parent__.getId(), "doc1") def test_discussion_item_not_in_bad_types(self): self.assertFalse("Discussion Item" in BAD_TYPES) def test_no_comment(self): IConversation(self.portal.doc1) # Make sure no conversation has been created self.assertTrue( "plone.app.discussion:conversation" not in IAnnotations(self.portal.doc1), ) class ConversationEnabledForDexterityTypesTest(unittest.TestCase): layer = PLONE_APP_DISCUSSION_INTEGRATION_TESTING def setUp(self): self.portal = self.layer["portal"] setRoles(self.portal, TEST_USER_ID, ["Manager"]) interface.alsoProvides( self.portal.REQUEST, IDiscussionLayer, ) interface.alsoProvides( self.portal.doc1, IDexterityContent, ) def _makeOne(self, *args, **kw): return self.portal.doc1.restrictedTraverse("@@conversation_view") def _globally_enable_discussion(self, value): registry = queryUtility(IRegistry) settings = registry.forInterface(IDiscussionSettings) settings.globally_enabled = value def _enable_discussion_on_portal_type(self, portal_type, allow_discussion): portal_types = getToolByName(self.portal, "portal_types") document_fti = getattr(portal_types, portal_type) document_fti.manage_changeProperties(allow_discussion=allow_discussion) def test_conversation_is_not_enabled_by_default(self): conversation = self._makeOne(self.portal.doc1) self.assertFalse(conversation.enabled()) def test_conversation_is_not_enabled_by_default_on_portal_type(self): self._globally_enable_discussion(True) conversation = self._makeOne(self.portal.doc1) self.assertFalse(conversation.enabled()) def test_conversation_needs_to_be_enabled_globally_and_for_type(self): self._globally_enable_discussion(True) self._enable_discussion_on_portal_type("Document", True) conversation = self._makeOne(self.portal.doc1) self.assertTrue(conversation.enabled()) def test_disable_discussion(self): self._globally_enable_discussion(True) self._enable_discussion_on_portal_type("Document", True) self.portal.doc1.allow_discussion = False conversation = self._makeOne(self.portal.doc1) self.assertFalse(conversation.enabled()) def test_enable_discussion(self): self._globally_enable_discussion(True) self._enable_discussion_on_portal_type("Document", True) self.portal.doc1.allow_discussion = True conversation = self._makeOne(self.portal.doc1) self.assertTrue(conversation.enabled()) class RepliesTest(unittest.TestCase): # test the IReplies adapter on a conversation layer = PLONE_APP_DISCUSSION_INTEGRATION_TESTING def setUp(self): self.portal = self.layer["portal"] setRoles(self.portal, TEST_USER_ID, ["Manager"]) workflow = self.portal.portal_workflow workflow.doActionFor(self.portal.doc1, "publish") def test_add_comment(self): # Add comments to a ConversationReplies adapter # Create a conversation. In this case we doesn't assign it to an # object, as we just want to check the Conversation object API. conversation = IConversation(self.portal.doc1) replies = IReplies(conversation) comment = createObject("plone.Comment") comment.text = "Comment text" new_id = replies.addComment(comment) # check that replies provides the IReplies interface self.assertTrue(IReplies.providedBy(replies)) # Make sure our comment was added self.assertTrue(new_id in replies) # Make sure it is also reflected in the conversation self.assertTrue(new_id in conversation) self.assertEqual(conversation[new_id].comment_id, new_id) def test_delete_comment(self): # Create and remove a comment and check if the replies adapter # has been updated accordingly # Create a conversation. In this case we doesn't assign it to an # object, as we just want to check the Conversation object API. conversation = IConversation(self.portal.doc1) replies = IReplies(conversation) # Add a comment. comment = createObject("plone.Comment") comment.text = "Comment text" new_id = replies.addComment(comment) # make sure the comment has been added self.assertEqual(len(replies), 1) # delete the comment we just created del replies[new_id] # make sure there is no comment left in the conversation self.assertEqual(len(replies), 0) def test_dict_api(self): # This test is for the ConversationReplies as well as the # CommentReplies adapter. # # Ensure all operations use only top-level comments. Add some # deeper children and ensure that these are not exposed through the # IReplies dict. # Create a conversation. In this case we doesn't assign it to an # object, as we just want to check the Conversation object API. conversation = IConversation(self.portal.doc1) replies = IReplies(conversation) # Create a nested comment structure: # # Conversation # +- Comment 1 # +- Comment 1_1 # | +- Comment 1_1_1 # +- Comment 1_2 # +- Comment 2 # +- Comment 2_1 # Create all comments comment1 = createObject("plone.Comment") comment1.text = "Comment text" comment1_1 = createObject("plone.Comment") comment1_1.text = "Comment text" comment1_1_1 = createObject("plone.Comment") comment1_1_1.text = "Comment text" comment1_2 = createObject("plone.Comment") comment1_2.text = "Comment text" comment2 = createObject("plone.Comment") comment2.text = "Comment text" comment2_1 = createObject("plone.Comment") comment2_1.text = "Comment text" # Create the nested comment structure new_id_1 = replies.addComment(comment1) comment1 = self.portal.doc1.restrictedTraverse( f"++conversation++default/{new_id_1}", ) replies_to_comment1 = IReplies(comment1) new_id_2 = replies.addComment(comment2) comment2 = self.portal.doc1.restrictedTraverse( f"++conversation++default/{new_id_2}", ) replies_to_comment2 = IReplies(comment2) new_id_1_1 = replies_to_comment1.addComment(comment1_1) comment1_1 = self.portal.doc1.restrictedTraverse( f"++conversation++default/{new_id_1_1}", ) replies_to_comment1_1 = IReplies(comment1_1) replies_to_comment1_1.addComment(comment1_1_1) replies_to_comment1.addComment(comment1_2) replies_to_comment2.addComment(comment2_1) # check that replies only contain the direct comments # and no comments deeper than 1 self.assertEqual(conversation.total_comments(), 6) self.assertEqual(len(replies), 2) self.assertEqual(len(replies_to_comment1), 2) self.assertEqual(len(replies_to_comment1_1), 1) self.assertEqual(len(replies_to_comment2), 1)