mirror of https://github.com/zulip/zulip.git
729 lines
21 KiB
JavaScript
729 lines
21 KiB
JavaScript
"use strict";
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// This is a general tour of how to write node tests that
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// may also give you some quick insight on how the Zulip
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// browser app is constructed. Let's start with testing
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// a function from util.js.
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//
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// The most basic unit tests load up code, call functions,
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// and assert truths:
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const util = zrequire("util");
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assert(!util.find_wildcard_mentions("boring text"));
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assert(util.find_wildcard_mentions("mention @**everyone**"));
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// Let's test with people.js next. We'll show this technique:
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// * get a false value
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// * change the data
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// * get a true value
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zrequire("people");
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const isaac = {
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email: "isaac@example.com",
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user_id: 30,
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full_name: "Isaac Newton",
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};
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assert(!people.is_known_user_id(isaac.user_id));
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people.add_active_user(isaac);
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assert(people.is_known_user_id(isaac.user_id));
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// The `people`object is a very fundamental object in the
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// Zulip app. You can learn a lot more about it by reading
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// the tests in people.js in the same directory as this file.
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// Let's create the current user, which some future tests will
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// require.
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const me = {
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email: "me@example.com",
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user_id: 31,
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full_name: "Me Myself",
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};
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people.add_active_user(me);
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people.initialize_current_user(me.user_id);
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// Let's look at stream_data next, and we will start by putting
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// some data at module scope (since it may be useful for future
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// tests):
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const denmark_stream = {
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color: "blue",
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name: "Denmark",
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stream_id: 101,
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subscribed: false,
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};
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// Some quick housekeeping: Let's clear page_params, which is a data
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// structure that the server sends down to us when the app starts. We
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// prefer to test with a clean slate.
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set_global("page_params", {});
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zrequire("stream_data");
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run_test("stream_data", () => {
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assert.equal(stream_data.get_sub_by_name("Denmark"), undefined);
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stream_data.add_sub(denmark_stream);
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const sub = stream_data.get_sub_by_name("Denmark");
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assert.equal(sub.color, "blue");
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});
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// Hopefully the basic patterns for testing data-oriented modules
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// are starting to become apparent. To reinforce that, we will present
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// few more examples that also expose you to some of our core
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// data objects. Also, we start testing some objects that have
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// deeper dependencies.
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const messages = {
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isaac_to_denmark_stream: {
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id: 400,
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sender_id: isaac.user_id,
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stream_id: denmark_stream.stream_id,
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type: "stream",
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flags: ["has_alert_word"],
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topic: "copenhagen",
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// note we don't have every field that a "real" message
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// would have, and that can be fine
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},
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};
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// We are going to test a core module called messages_store.js. It
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// depends on some code that we aren't really interested in testing,
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// so let's create some stub functions that do nothing.
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const noop = () => undefined;
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set_global("alert_words", {});
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alert_words.process_message = noop;
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// We can also bring in real code:
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zrequire("recent_senders");
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zrequire("unread");
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zrequire("stream_topic_history");
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zrequire("recent_topics");
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zrequire("overlays");
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// And finally require the module that we will test directly:
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zrequire("message_store");
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run_test("message_store", () => {
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const in_message = {...messages.isaac_to_denmark_stream};
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assert.equal(in_message.alerted, undefined);
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message_store.set_message_booleans(in_message);
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assert.equal(in_message.alerted, true);
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// Let's add a message into our message_store via
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// add_message_metadata.
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assert.equal(message_store.get(in_message.id), undefined);
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message_store.add_message_metadata(in_message);
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const message = message_store.get(in_message.id);
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assert.equal(message, in_message);
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// There are more side effects.
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const topic_names = stream_topic_history.get_recent_topic_names(denmark_stream.stream_id);
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assert.deepEqual(topic_names, ["copenhagen"]);
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});
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// Tracking unread messages is a very fundamental part of the Zulip
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// app, and we use the unread object to track unread messages.
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run_test("unread", () => {
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const stream_id = denmark_stream.stream_id;
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const topic_name = "copenhagen";
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assert.equal(unread.num_unread_for_topic(stream_id, topic_name), 0);
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const in_message = {...messages.isaac_to_denmark_stream};
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message_store.set_message_booleans(in_message);
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unread.process_loaded_messages([in_message]);
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assert.equal(unread.num_unread_for_topic(stream_id, topic_name), 1);
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});
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// In the Zulip app you can narrow your message stream by topic, by
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// sender, by PM recipient, by search keywords, etc. We will discuss
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// narrows more broadly, but first let's test out a core piece of
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// code that makes things work.
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// We use the second argument of zrequire to find the location of the
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// Filter class.
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zrequire("Filter", "js/filter");
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run_test("filter", () => {
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const filter_terms = [
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{operator: "stream", operand: "Denmark"},
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{operator: "topic", operand: "copenhagen"},
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];
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const filter = new Filter(filter_terms);
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const predicate = filter.predicate();
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// We don't need full-fledged messages to test the gist of
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// our filter. If there are details that are distracting from
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// your test, you should not feel guilty about removing them.
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assert.equal(predicate({type: "personal"}), false);
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assert.equal(
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predicate({
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type: "stream",
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stream_id: denmark_stream.stream_id,
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topic: "does not match filter",
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}),
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false,
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);
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assert.equal(
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predicate({
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type: "stream",
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stream_id: denmark_stream.stream_id,
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topic: "copenhagen",
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}),
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true,
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);
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});
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// We have a "narrow" abstraction that sits roughly on top of the
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// "filter" abstraction. If you are in a narrow, we track the
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// state with the narrow_state module.
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zrequire("narrow_state");
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run_test("narrow_state", () => {
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// As we often do, first make assertions about the starting
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// state:
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assert.equal(narrow_state.stream(), undefined);
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// Now set the state.
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const filter_terms = [
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{operator: "stream", operand: "Denmark"},
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{operator: "topic", operand: "copenhagen"},
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];
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const filter = new Filter(filter_terms);
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narrow_state.set_current_filter(filter);
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assert.equal(narrow_state.stream(), "Denmark");
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assert.equal(narrow_state.topic(), "copenhagen");
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});
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/*
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Let's step back and review what we've done so far.
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We've used fairly straightforward testing techniques
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to explore the following modules:
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filter
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message_store
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narrow_state
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people
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stream_data
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util
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We haven't gone deep on any of these objects, but if
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you are interested, all of these objects have test
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suites that have 100% line coverage on the modules
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that implement those objects. For example, you can look
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at people.js in this directory for more tests on the
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people object.
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We can quickly review some testing concepts:
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zrequire - bring in real code
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set_global - create stubs
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assert.equal - verify results
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------
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It's time to elaborate a bit on set_global.
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First, some context. When we test certain objects,
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we don't always want to test all the code they
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depend on. Often we want to completely ignore the
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interactions with certain objects; other times, we
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will want to simulate some behavior of the objects
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we depend on without bringing in all the implementation
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details.
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Also, our test runner runs many tests back to back.
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Between each test we need to essentially reset the global
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object back to its original state, so that state doesn't
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leak between tests.
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That's where set_global comes in. When you call
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set_global, it updates the global namespace with an
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object that you specify in the **test**, not real
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code. Using set_global explicitly tells your test
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reader what your testing boundaries are between "real"
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code and "simulated" code. Finally, and perhaps most
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importantly, the test runner will prevent this state
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from leaking into the next test (and "zrequire" has
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the same behavior attached to it as well).
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------
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Let's talk about our next steps.
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An app is pretty useless without an actual data source.
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One of the primary ways that a Zulip client gets data
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is through events. (We also get data at page load, and
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we can also ask the server for data, but that's not in
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the scope of this conversation yet.)
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Chat systems are dynamic. If an admin adds a user, or
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if a user sends a messages, the server immediately sends
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events to all clients so that they can reflect appropriate
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changes in their UI. We're not going to discuss the entire
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"full stack" mechanism here. Instead, we'll focus on
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the client code, starting at the boundary where we
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process events.
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Let's just get started...
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*/
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zrequire("server_events_dispatch");
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// We will use Bob in several tests.
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const bob = {
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email: "bob@example.com",
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user_id: 33,
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full_name: "Bob Roberts",
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};
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run_test("add_user_event", () => {
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const event = {
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type: "realm_user",
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op: "add",
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person: bob,
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};
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assert(!people.is_known_user_id(bob.user_id));
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server_events_dispatch.dispatch_normal_event(event);
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assert(people.is_known_user_id(bob.user_id));
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});
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/*
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It's actually a little surprising that adding a user does
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not have side effects beyond the people object. I guess
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we don't immediately update the buddy list, but that's
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because the buddy list gets updated on the next server
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fetch.
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Let's try an update next. To make this work, we will want
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to put some stub objects into the global namespace (as
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opposed to using the "real" code).
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*/
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set_global("activity", {});
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set_global("message_live_update", {});
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set_global("pm_list", {});
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set_global("settings_users", {});
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zrequire("user_events");
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run_test("update_user_event", (override) => {
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const new_bob = {
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email: "bob@example.com",
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user_id: bob.user_id,
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full_name: "The Artist Formerly Known as Bob",
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};
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const event = {
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type: "realm_user",
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op: "update",
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person: new_bob,
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};
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// We have to stub a few things:
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override("activity.redraw", noop);
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override("message_live_update.update_user_full_name", noop);
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override("pm_list.update_private_messages", noop);
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override("settings_users.update_user_data", noop);
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// Dispatch the realm_user/update event, which will update
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// data structures and have other side effects that are
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// stubbed out above.
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server_events_dispatch.dispatch_normal_event(event);
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const user = people.get_by_user_id(bob.user_id);
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// Verify that the code actually did its main job:
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assert.equal(user.full_name, "The Artist Formerly Known as Bob");
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});
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/*
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Our test verifies that the update events leads to a name change
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inside the people object, but it obviously kind of glosses over
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the other interactions.
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We can go a step further and verify the sequence of of operations
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that happen during an event. This concept is called "mocking",
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and you can find libraries to help do mocking. Here we will
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just build our own lightweight mocking system, which is almost
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trivially easy to do in a language like Javascript.
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*/
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function test_helper() {
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const events = [];
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return {
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redirect: (module_name, func_name) => {
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const full_name = module_name + "." + func_name;
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global[module_name][func_name] = () => {
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events.push(full_name);
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};
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},
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events,
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};
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}
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/*
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Our test_helper will allow us to redirect methods to an
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events array, and we can then later verify that the sequence
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of side effect is as predicted.
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(Note that for now we don't simulate return values nor do we
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inspect the arguments to these functions. We could easily
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extend our helper to do more.)
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The forthcoming example is a pretty extreme example, where we
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are calling a pretty high level method that dispatches
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a lot of its work out to other objects.
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*/
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set_global("home_msg_list", {});
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set_global("message_list", {});
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set_global("message_util", {});
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set_global("notifications", {});
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set_global("resize", {});
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set_global("stream_list", {});
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set_global("unread_ops", {});
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set_global("unread_ui", {});
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zrequire("message_events");
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run_test("insert_message", (override) => {
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override("pm_list.update_private_messages", noop);
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const helper = test_helper();
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const new_message = {
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sender_id: isaac.user_id,
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id: 1001,
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content: "example content",
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};
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assert.equal(message_store.get(new_message.id), undefined);
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helper.redirect("huddle_data", "process_loaded_messages");
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helper.redirect("message_util", "add_new_messages");
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helper.redirect("notifications", "received_messages");
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helper.redirect("resize", "resize_page_components");
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helper.redirect("stream_list", "update_streams_sidebar");
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helper.redirect("unread_ops", "process_visible");
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helper.redirect("unread_ui", "update_unread_counts");
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narrow_state.reset_current_filter();
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message_events.insert_new_messages([new_message]);
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// Even though we have stubbed a *lot* of code, our
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// tests can still verify the main "narrative" of how
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// the code invokes various objects when a new message
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// comes in:
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assert.deepEqual(helper.events, [
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"huddle_data.process_loaded_messages",
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"message_util.add_new_messages",
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"message_util.add_new_messages",
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"unread_ui.update_unread_counts",
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"resize.resize_page_components",
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"unread_ops.process_visible",
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"notifications.received_messages",
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"stream_list.update_streams_sidebar",
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]);
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// Despite all of our stubbing/mocking, the call to
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// insert_new_messages will have created a very important
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// side effect that we can verify:
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const inserted_message = message_store.get(new_message.id);
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assert.equal(inserted_message.id, new_message.id);
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assert.equal(inserted_message.content, "example content");
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});
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/*
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The previous example starts to get us out of the data layer of
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the app and into more interesting interactions.
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When a new message comes in, we update the three major
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panes of the app:
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* left sidebar - stream list
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* middle pane - message view
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* right sidebar - buddy list (aka "activity" list)
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These are reflected by the following calls:
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stream_list.update_streams_sidebar
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message_util.add_new_messages
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activity.process_loaded_messages
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For now, though, let's focus on another side effect
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of processing incoming messages:
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unread_ops.process_visible
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When new messages come in, they are often immediately
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visible to users, so the app will communicate this
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back to the server by calling unread_ops.process_visible.
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In order to unit test this, we don't want to require
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an actual server to be running. Instead, this example
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will stub many of the "boundaries" to focus on the
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core behavior.
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*/
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set_global("channel", {});
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set_global("home_msg_list", {});
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set_global("message_list", {});
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set_global("message_viewport", {});
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zrequire("message_flags");
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zrequire("unread_ops");
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run_test("unread_ops", () => {
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(function set_up() {
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const test_messages = [
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{
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id: 50,
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type: "stream",
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stream_id: denmark_stream.stream_id,
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topic: "copenhagen",
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unread: true,
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},
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];
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// Make our test message appear to be unread, so that
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// we then need to subsequently process them as read.
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unread.process_loaded_messages(test_messages);
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// Make our window appear visible.
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notifications.window_has_focus = () => true;
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// Make our "test" message appear visible.
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message_viewport.bottom_message_visible = () => true;
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// Make us not be in a narrow (somewhat hackily).
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message_list.narrowed = undefined;
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// Set current_message_list containing messages that
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// can be marked read
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set_global("current_msg_list", {
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all_messages: () => test_messages,
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can_mark_messages_read: () => true,
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});
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// Ignore these interactions for now:
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home_msg_list.show_message_as_read = noop;
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message_list.all = {};
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message_list.all.show_message_as_read = noop;
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notifications.close_notification = noop;
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})();
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// Set up a way to capture the options passed in to channel.post.
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let channel_post_opts;
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channel.post = (opts) => {
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channel_post_opts = opts;
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};
|
|
|
|
// First, test for a message list that cannot read messages
|
|
current_msg_list.can_mark_messages_read = () => false;
|
|
unread_ops.process_visible();
|
|
assert.deepEqual(channel_post_opts, undefined);
|
|
|
|
current_msg_list.can_mark_messages_read = () => true;
|
|
// Do the main thing we're testing!
|
|
unread_ops.process_visible();
|
|
|
|
// The most important side effect of the above call is that
|
|
// we post info to the server. We can verify that the correct
|
|
// url and parameters are specified:
|
|
assert.deepEqual(channel_post_opts, {
|
|
url: "/json/messages/flags",
|
|
idempotent: true,
|
|
data: {messages: "[50]", op: "add", flag: "read"},
|
|
success: channel_post_opts.success,
|
|
});
|
|
});
|
|
|
|
/*
|
|
|
|
Next we will explore this function:
|
|
|
|
stream_list.update_streams_sidebar
|
|
|
|
To make this test work, we will create a somewhat elaborate
|
|
function that fills in for jQuery (https://jquery.com/), so that
|
|
one boundary of our tests is how stream_list.js calls into
|
|
stream_list to manipulate DOM.
|
|
|
|
*/
|
|
|
|
set_global("topic_list", {});
|
|
|
|
zrequire("stream_sort");
|
|
zrequire("stream_list");
|
|
|
|
const social_stream = {
|
|
color: "red",
|
|
name: "Social",
|
|
stream_id: 102,
|
|
subscribed: true,
|
|
};
|
|
|
|
run_test("set_up_filter", () => {
|
|
stream_data.add_sub(social_stream);
|
|
|
|
const filter_terms = [
|
|
{operator: "stream", operand: "Social"},
|
|
{operator: "topic", operand: "lunch"},
|
|
];
|
|
|
|
const filter = new Filter(filter_terms);
|
|
|
|
narrow_state.filter = () => filter;
|
|
narrow_state.active = () => true;
|
|
});
|
|
|
|
function jquery_elem() {
|
|
// We create basic stubs for jQuery elements, so they
|
|
// just work. We can extend these in cases where we want
|
|
// more detailed testing.
|
|
const elem = {};
|
|
|
|
elem.expectOne = () => elem;
|
|
elem.removeClass = () => elem;
|
|
elem.empty = () => elem;
|
|
|
|
return elem;
|
|
}
|
|
|
|
function make_jquery_helper() {
|
|
const stream_list_filter = jquery_elem();
|
|
stream_list_filter.val = () => "";
|
|
|
|
const stream_filters = jquery_elem();
|
|
|
|
let appended_data;
|
|
stream_filters.append = function (data) {
|
|
appended_data = data;
|
|
};
|
|
|
|
function fake_jquery(selector) {
|
|
switch (selector) {
|
|
case ".stream-list-filter":
|
|
return stream_list_filter;
|
|
case "ul#stream_filters li":
|
|
return jquery_elem();
|
|
case "#stream_filters":
|
|
return stream_filters;
|
|
default:
|
|
throw Error("unknown selector: " + selector);
|
|
}
|
|
}
|
|
|
|
set_global("$", fake_jquery);
|
|
|
|
return {
|
|
verify_actions: () => {
|
|
const expected_data_to_append = [["stream stub"]];
|
|
|
|
assert.deepEqual(appended_data, expected_data_to_append);
|
|
},
|
|
};
|
|
}
|
|
|
|
function make_topic_list_helper() {
|
|
// We want to make sure that updating a stream_list
|
|
// closes the topic list and then rebuilds it. We don't
|
|
// care about the implementation details of topic_list for
|
|
// now, just that it is invoked properly.
|
|
topic_list.active_stream_id = () => undefined;
|
|
topic_list.get_stream_li = () => undefined;
|
|
|
|
let topic_list_cleared;
|
|
topic_list.clear = () => {
|
|
topic_list_cleared = true;
|
|
};
|
|
|
|
let topic_list_closed;
|
|
topic_list.close = () => {
|
|
topic_list_closed = true;
|
|
};
|
|
|
|
let topic_list_rebuilt;
|
|
topic_list.rebuild = () => {
|
|
topic_list_rebuilt = true;
|
|
};
|
|
|
|
return {
|
|
verify_actions: () => {
|
|
assert(topic_list_cleared);
|
|
assert(topic_list_closed);
|
|
assert(topic_list_rebuilt);
|
|
},
|
|
};
|
|
}
|
|
|
|
function make_sidebar_helper() {
|
|
let updated_whether_active;
|
|
|
|
function row_widget() {
|
|
return {
|
|
update_whether_active: () => {
|
|
updated_whether_active = true;
|
|
},
|
|
get_li: () => ["stream stub"],
|
|
};
|
|
}
|
|
|
|
stream_list.stream_sidebar.set_row(social_stream.stream_id, row_widget());
|
|
stream_list.stream_cursor = {
|
|
redraw: noop,
|
|
};
|
|
|
|
return {
|
|
verify_actions: () => {
|
|
assert(updated_whether_active);
|
|
},
|
|
};
|
|
}
|
|
|
|
zrequire("topic_zoom");
|
|
|
|
run_test("stream_list", () => {
|
|
const jquery_helper = make_jquery_helper();
|
|
const sidebar_helper = make_sidebar_helper();
|
|
const topic_list_helper = make_topic_list_helper();
|
|
|
|
// This is what we are testing!
|
|
stream_list.update_streams_sidebar();
|
|
|
|
jquery_helper.verify_actions();
|
|
sidebar_helper.verify_actions();
|
|
topic_list_helper.verify_actions();
|
|
});
|