We split recent_topics module into recent_topics_(ui + data + util).
This allows us to reduce cyclical dependencies which were
created due to large list of imports in recent topics. Also, this
refactor on its own makes sense.
This data structure has never been one that we actually render into
the DOM; instead, its role is to support clicking into view that
contain muted streams and topics quickly.
This downgrade makes that situation much more explicit, and is also
useful refactoring to help simpify the upcoming changes in #16746.
Signed-off-by: Anders Kaseorg <anders@zulip.com>
We move the message_store.add_message_metadata function
(and all its dependencies) into a new module called
message_helper and rename the function to process_new_message.
(It does a bit more than adding message metadata, such
as updating our message store.)
We also have a "protected" interface now in message_store,
so that message_helper can access the message store:
update_message_cache
get_cached_message
Because update_message_cache is identical to
the former create_mock_message, we just renamed it
in the tests.
Most callers should use these functions:
message_helper.process_new_message (setting)
message_store.get (getting)
It's slightly annoying that the setter interface
is in a different module than the getter interface,
but that's how you break a bunch of dependencies.
We also extract the tiny message_user_ids class:
user_ids()
add_user_ids()
All the code moves here are pretty trivial, and
the code that was moved maintains 100% line
coverage.
The module name `message_helper` is not ideal, but it's a single
function and it'll save time to just do the topology change now and
leave thinking through the right name to later.
This is a mostly verbatim extraction.
I re-phrased one line of code to work around a lint
false alarm. (Look for `preamble` in the diff.)
There are about 8 lines missing coverage here, so
the new module might be a good candidate to get
100% line coverage on.
Before this change, you would need to remove 74
edges from our dependency graph to make it
acyclic. Now it's 72.
Previously, the `muting_enabled` property of
MessageListData class was used to indicate whether
some messages in the message list need to be
filtered due to topic muting, depending on the
narrow. For example, we exclude messages belonging
to muted topics from stream narrows, but not from
search narrows.
The name `muting_enabled` is a bit confusing, and hence is
changed to `excludes_muted_topics`.
It is also important that the name be specific, since
a similar new property will be added for user mutes
in future commits.
This refactoring should have no functional effect for any call points,
but makes the function behave more naturally. The comments explain
the situation, but specifically:
* There's the page_params.narrow hack that affects both narrows and
home_msg_list.
* There's the shared data for home_msg_list and all_msg_list that
requires we modify the query from home_msg_list.data.public_operators().
And otherwise the logic should just use the operators associated with
the message_list.data object (allowing us to remove the force_fetch
hack added in the last commit).
Hopefully in some future refactoring, we'll be able to migrate those
hacks to live in the Filter object construction and eliminate this
block of conditionals entirely.
In commit ebea17b9a6,
we added an extra fetch to get accurate data for the top
items in recent topics table.
But the `narrow` parameter wasn't passed to the endpoint,
this resulted in fetching the user's overall message
history including the muted streams/topics which aren't
required by the recent topics table.
`operators` can be replaced as we set the same value for
the `narrow_state` module and the narrowed message list's
filter, when activating the narrow.
The comment explains the problem statement in some detail, but
basically this algorithm ensures that the top items in "Recent Topics"
on page load are always the very most recent topics the user has
received messages in (well, ignoring muted topics in this iteration).
ES and TypeScript modules are strict by default and don’t need this
directive. ESLint will remind us to add it to new CommonJS files and
remove it from ES and TypeScript modules.
Signed-off-by: Anders Kaseorg <anders@zulip.com>
Prettier would do this anyway, but it’s separated out for a more
reviewable diff. Generated by ESLint.
Signed-off-by: Anders Kaseorg <anders@zulip.com>
If the `load_messages_for_narrow` function tried to fetch messages with
a floating point anchor (locally echoed message id) we get a 400 error.
The logic to remove the rounding of the anchor parameter was done in
commit bf2f36e6b4, as it would always be
an integer in all incoming code paths.
However, since then we have updated the GET /messages API, to also allow
strings as the anchor parameter and this value's parsing is done in the
backend.
Fixes#15497.
This fixes one of our oldest important user experience issues, namely
that if you never visit the home view, the Zulip webapp would often
load "deep in the past" because the pointer had not advanced.
Fixes#1529.
When fetching older/new messages, we used to resort to the pointer
to act as anchor when message list was empty.
This appears to be an impossible case, as
`fetch_status.can_load_newer_messages`
should be false in this case and user cannot be scrolling an
empty message_list in the first case.
Hence, we raise a fatal error to inform user of the same.
The previous commit introduced a bug where it was not intuitive
for the user to scroll again.
For the current narrow, new messages were fetched again only when
scrolled to the bottom as usually there are many messages displayed.
However when the edge case mentioned in the previous commit
occured, it was not very obvious that a scroll should be done
or we could already be at the bottom and could not scroll again
to trigger a fetch.
`message_viewport.at_bottom` has a relevant comment explaining
this behaviour.
The previous commit handled the rare race condition. However,
there is a possibility that the rare race condition might occur
again while we are handling the previous condition.
This commit resolves these 2 problems by performing a re-fetch
while also resetting the `expected_max_message_id` and this
approach has two benefits:
1. The reset prevents an infinite loop, if somehow the expected
max message's id gets corrupted resulting in a situation
where the server can never send an id greater than that even
after fetching.
2. Even though we stop after just one re-fetch the race condition
might recursively occur while we handle the previous race
condition. And even though the reset prevents multiple re-fetches,
we don't have the missing message problem.
This is because we treat the next race condition as a new race
condition instead of it being a continuation of the previous.
The `expected_max_message_id` gets updated again, on receiving
a new message. Thus it can again enter the `fetch_status` block
as the reset value is updated again.