"use strict"; const {strict: assert} = require("assert"); const {zrequire} = require("../zjsunit/namespace"); const {run_test} = require("../zjsunit/test"); const pm_conversations = zrequire("pm_conversations"); pm_conversations.recent = {}; zrequire("muting"); zrequire("unread"); zrequire("stream_data"); zrequire("stream_topic_history"); zrequire("stream_sort"); const tg = zrequire("topic_generator"); function is_even(i) { return i % 2 === 0; } function is_odd(i) { return i % 2 === 1; } run_test("basics", () => { let gen = tg.list_generator([10, 20, 30]); assert.equal(gen.next(), 10); assert.equal(gen.next(), 20); assert.equal(gen.next(), 30); assert.equal(gen.next(), undefined); assert.equal(gen.next(), undefined); const gen1 = tg.list_generator([100, 200]); const gen2 = tg.list_generator([300, 400]); const outers = [gen1, gen2]; gen = tg.chain(outers); assert.equal(gen.next(), 100); assert.equal(gen.next(), 200); assert.equal(gen.next(), 300); assert.equal(gen.next(), 400); assert.equal(gen.next(), undefined); assert.equal(gen.next(), undefined); gen = tg.wrap([5, 15, 25, 35], 25); assert.equal(gen.next(), 25); assert.equal(gen.next(), 35); assert.equal(gen.next(), 5); assert.equal(gen.next(), 15); assert.equal(gen.next(), undefined); assert.equal(gen.next(), undefined); gen = tg.wrap_exclude([5, 15, 25, 35], 25); assert.equal(gen.next(), 35); assert.equal(gen.next(), 5); assert.equal(gen.next(), 15); assert.equal(gen.next(), undefined); assert.equal(gen.next(), undefined); gen = tg.wrap([5, 15, 25, 35], undefined); assert.equal(gen.next(), 5); gen = tg.wrap_exclude([5, 15, 25, 35], undefined); assert.equal(gen.next(), 5); gen = tg.wrap([5, 15, 25, 35], 17); assert.equal(gen.next(), 5); gen = tg.wrap([], 42); assert.equal(gen.next(), undefined); let ints = tg.list_generator([1, 2, 3, 4, 5]); gen = tg.filter(ints, is_even); assert.equal(gen.next(), 2); assert.equal(gen.next(), 4); assert.equal(gen.next(), undefined); assert.equal(gen.next(), undefined); ints = tg.list_generator([]); gen = tg.filter(ints, is_even); assert.equal(gen.next(), undefined); assert.equal(gen.next(), undefined); ints = tg.list_generator([10, 20, 30]); function mult10(x) { return x * 10; } gen = tg.map(ints, mult10); assert.equal(gen.next(), 100); assert.equal(gen.next(), 200); }); run_test("reverse", () => { let gen = tg.reverse_list_generator([10, 20, 30]); assert.equal(gen.next(), 30); assert.equal(gen.next(), 20); assert.equal(gen.next(), 10); assert.equal(gen.next(), undefined); assert.equal(gen.next(), undefined); // If second parameter is not in the list, we just traverse the list // in reverse. gen = tg.reverse_wrap_exclude([10, 20, 30]); assert.equal(gen.next(), 30); assert.equal(gen.next(), 20); assert.equal(gen.next(), 10); assert.equal(gen.next(), undefined); assert.equal(gen.next(), undefined); gen = tg.reverse_wrap_exclude([10, 20, 30], "whatever"); assert.equal(gen.next(), 30); assert.equal(gen.next(), 20); assert.equal(gen.next(), 10); assert.equal(gen.next(), undefined); assert.equal(gen.next(), undefined); // Witness the mostly typical cycling behavior. gen = tg.reverse_wrap_exclude([5, 10, 20, 30], 20); assert.equal(gen.next(), 10); assert.equal(gen.next(), 5); assert.equal(gen.next(), 30); assert.equal(gen.next(), undefined); assert.equal(gen.next(), undefined); gen = tg.reverse_wrap_exclude([5, 10, 20, 30], 5); assert.equal(gen.next(), 30); assert.equal(gen.next(), 20); assert.equal(gen.next(), 10); assert.equal(gen.next(), undefined); assert.equal(gen.next(), undefined); gen = tg.reverse_wrap_exclude([5, 10, 20, 30], 30); assert.equal(gen.next(), 20); assert.equal(gen.next(), 10); assert.equal(gen.next(), 5); assert.equal(gen.next(), undefined); assert.equal(gen.next(), undefined); // Test small lists. gen = tg.reverse_wrap_exclude([], 5); assert.equal(gen.next(), undefined); assert.equal(gen.next(), undefined); gen = tg.reverse_wrap_exclude([5], 5); assert.equal(gen.next(), undefined); assert.equal(gen.next(), undefined); gen = tg.reverse_wrap_exclude([5], 10); assert.equal(gen.next(), 5); assert.equal(gen.next(), undefined); assert.equal(gen.next(), undefined); }); run_test("fchain", () => { const mults = function (n) { let ret = 0; return { next() { ret += n; return ret <= 100 ? ret : undefined; }, }; }; let ints = tg.list_generator([29, 43]); let gen = tg.fchain(ints, mults); assert.equal(gen.next(), 29); assert.equal(gen.next(), 58); assert.equal(gen.next(), 87); assert.equal(gen.next(), 43); assert.equal(gen.next(), 86); assert.equal(gen.next(), undefined); assert.equal(gen.next(), undefined); ints = tg.wrap([33, 34, 37], 37); ints = tg.filter(ints, is_odd); gen = tg.fchain(ints, mults); assert.equal(gen.next(), 37); assert.equal(gen.next(), 74); assert.equal(gen.next(), 33); assert.equal(gen.next(), 66); assert.equal(gen.next(), 99); assert.equal(gen.next(), undefined); assert.equal(gen.next(), undefined); const undef = function () { return; }; blueslip.expect("error", "Invalid generator returned."); ints = tg.list_generator([29, 43]); gen = tg.fchain(ints, undef); gen.next(); }); run_test("streams", () => { function assert_next_stream(curr_stream, expected) { const actual = tg.get_next_stream(curr_stream); assert.equal(actual, expected); } stream_sort.get_streams = function () { return ["announce", "muted", "devel", "test here"]; }; assert_next_stream(undefined, "announce"); assert_next_stream("NOT THERE", "announce"); assert_next_stream("announce", "muted"); assert_next_stream("test here", "announce"); function assert_prev_stream(curr_stream, expected) { const actual = tg.get_prev_stream(curr_stream); assert.equal(actual, expected); } assert_prev_stream(undefined, "test here"); assert_prev_stream("test here", "devel"); assert_prev_stream("announce", "test here"); }); run_test("topics", () => { const streams = [1, 2, 3, 4]; const topics = new Map([ [1, ["read", "read", "1a", "1b", "read", "1c"]], [2, []], [3, ["3a", "read", "read", "3b", "read"]], [4, ["4a"]], ]); function has_unread_messages(stream, topic) { return topic !== "read"; } function get_topics(stream) { return topics.get(stream); } function next_topic(curr_stream, curr_topic) { return tg.next_topic(streams, get_topics, has_unread_messages, curr_stream, curr_topic); } assert.deepEqual(next_topic(1, "1a"), {stream: 1, topic: "1b"}); assert.deepEqual(next_topic(1, undefined), {stream: 1, topic: "1a"}); assert.deepEqual(next_topic(2, "bogus"), {stream: 3, topic: "3a"}); assert.deepEqual(next_topic(3, "3b"), {stream: 3, topic: "3a"}); assert.deepEqual(next_topic(4, "4a"), {stream: 1, topic: "1a"}); assert.deepEqual(next_topic(undefined, undefined), {stream: 1, topic: "1a"}); // Now test the deeper function that is wired up to // real functions stream_data/stream_sort/unread. stream_sort.get_streams = function () { return ["announce", "muted", "devel", "test here"]; }; const muted_stream_id = 400; const devel_stream_id = 401; const stream_id_dct = { muted: muted_stream_id, devel: devel_stream_id, }; stream_topic_history.get_recent_topic_names = function (stream_id) { switch (stream_id) { case muted_stream_id: return ["ms-topic1", "ms-topic2"]; case devel_stream_id: return ["muted", "python"]; } return []; }; stream_data.get_stream_id = function (stream_name) { return stream_id_dct[stream_name]; }; stream_data.is_stream_muted_by_name = function (stream_name) { return stream_name === "muted"; }; unread.topic_has_any_unread = function (stream_id) { return [devel_stream_id, muted_stream_id].includes(stream_id); }; muting.is_topic_muted = function (stream_name, topic) { return topic === "muted"; }; let next_item = tg.get_next_topic("announce", "whatever"); assert.deepEqual(next_item, { stream: "devel", topic: "python", }); next_item = tg.get_next_topic("muted", undefined); assert.deepEqual(next_item, { stream: "muted", topic: "ms-topic1", }); }); run_test("get_next_unread_pm_string", () => { pm_conversations.recent.get_strings = function () { return ["1", "read", "2,3", "4", "unk"]; }; unread.num_unread_for_person = function (user_ids_string) { if (user_ids_string === "unk") { return undefined; } if (user_ids_string === "read") { return 0; } return 5; // random non-zero value }; assert.equal(tg.get_next_unread_pm_string(), "1"); assert.equal(tg.get_next_unread_pm_string("4"), "1"); assert.equal(tg.get_next_unread_pm_string("unk"), "1"); assert.equal(tg.get_next_unread_pm_string("4"), "1"); assert.equal(tg.get_next_unread_pm_string("1"), "2,3"); assert.equal(tg.get_next_unread_pm_string("read"), "2,3"); assert.equal(tg.get_next_unread_pm_string("2,3"), "4"); });