PluralKit/PluralKit.Bot/Commands/SystemCommands.cs
2019-07-15 21:53:55 +02:00

302 lines
15 KiB
C#

using System;
using System.Linq;
using System.Runtime.Serialization;
using System.Text.RegularExpressions;
using System.Threading.Tasks;
using Dapper;
using Discord.Commands;
using NodaTime;
using NodaTime.Extensions;
using NodaTime.Text;
using NodaTime.TimeZones;
using PluralKit.Core;
namespace PluralKit.Bot.Commands
{
[Group("system")]
[Alias("s")]
public class SystemCommands : ContextParameterModuleBase<PKSystem>
{
public override string Prefix => "system";
public override string ContextNoun => "system";
public SystemStore Systems {get; set;}
public MemberStore Members {get; set;}
public SwitchStore Switches {get; set;}
public EmbedService EmbedService {get; set;}
[Command]
[Remarks("system <name>")]
public async Task Query(PKSystem system = null) {
if (system == null) system = Context.SenderSystem;
if (system == null) throw Errors.NoSystemError;
await Context.Channel.SendMessageAsync(embed: await EmbedService.CreateSystemEmbed(system));
}
[Command("new")]
[Alias("register", "create", "init", "add", "make")]
[Remarks("system new <name>")]
public async Task New([Remainder] string systemName = null)
{
if (ContextEntity != null) throw Errors.NotOwnSystemError;
if (Context.SenderSystem != null) throw Errors.ExistingSystemError;
var system = await Systems.Create(systemName);
await Systems.Link(system, Context.User.Id);
await Context.Channel.SendMessageAsync($"{Emojis.Success} Your system has been created. Type `pk;system` to view it, and type `pk;help` for more information about commands you can use now.");
}
[Command("name")]
[Alias("rename", "changename")]
[Remarks("system name <name>")]
[MustHaveSystem]
public async Task Name([Remainder] string newSystemName = null) {
if (newSystemName != null && newSystemName.Length > Limits.MaxSystemNameLength) throw Errors.SystemNameTooLongError(newSystemName.Length);
Context.SenderSystem.Name = newSystemName;
await Systems.Save(Context.SenderSystem);
await Context.Channel.SendMessageAsync($"{Emojis.Success} System name {(newSystemName != null ? "changed" : "cleared")}.");
}
[Command("description")]
[Alias("desc")]
[Remarks("system description <description>")]
[MustHaveSystem]
public async Task Description([Remainder] string newDescription = null) {
if (newDescription != null && newDescription.Length > Limits.MaxDescriptionLength) throw Errors.DescriptionTooLongError(newDescription.Length);
Context.SenderSystem.Description = newDescription;
await Systems.Save(Context.SenderSystem);
await Context.Channel.SendMessageAsync($"{Emojis.Success} System description {(newDescription != null ? "changed" : "cleared")}.");
}
[Command("tag")]
[Remarks("system tag <tag>")]
[MustHaveSystem]
public async Task Tag([Remainder] string newTag = null) {
Context.SenderSystem.Tag = newTag;
if (newTag != null)
{
if (newTag.Length > Limits.MaxSystemTagLength) throw Errors.SystemNameTooLongError(newTag.Length);
// Check unproxyable messages *after* changing the tag (so it's seen in the method) but *before* we save to DB (so we can cancel)
var unproxyableMembers = await Members.GetUnproxyableMembers(Context.SenderSystem);
if (unproxyableMembers.Count > 0)
{
var msg = await Context.Channel.SendMessageAsync(
$"{Emojis.Warn} Changing your system tag to '{newTag}' will result in the following members being unproxyable, since the tag would bring their name over 32 characters:\n**{string.Join(", ", unproxyableMembers.Select((m) => m.Name))}**\nDo you want to continue anyway?");
if (!await Context.PromptYesNo(msg)) throw new PKError("Tag change cancelled.");
}
}
await Systems.Save(Context.SenderSystem);
await Context.Channel.SendMessageAsync($"{Emojis.Success} System tag {(newTag != null ? "changed" : "cleared")}.");
}
[Command("delete")]
[Alias("remove", "destroy", "erase", "yeet")]
[Remarks("system delete")]
[MustHaveSystem]
public async Task Delete() {
var msg = await Context.Channel.SendMessageAsync($"{Emojis.Warn} Are you sure you want to delete your system? If so, reply to this message with your system's ID (`{Context.SenderSystem.Hid}`).\n**Note: this action is permanent.**");
var reply = await Context.AwaitMessage(Context.Channel, Context.User, timeout: TimeSpan.FromMinutes(1));
if (reply.Content != Context.SenderSystem.Hid) throw new PKError($"System deletion cancelled. Note that you must reply with your system ID (`{Context.SenderSystem.Hid}`) *verbatim*.");
await Systems.Delete(Context.SenderSystem);
await Context.Channel.SendMessageAsync($"{Emojis.Success} System deleted.");
}
[Group("list")]
[Alias("l", "members")]
public class SystemListCommands: ModuleBase<PKCommandContext> {
public MemberStore Members { get; set; }
[Command]
[Remarks("system [system] list")]
public async Task MemberShortList() {
var system = Context.GetContextEntity<PKSystem>() ?? Context.SenderSystem;
if (system == null) throw Errors.NoSystemError;
var members = await Members.GetBySystem(system);
var embedTitle = system.Name != null ? $"Members of {system.Name} (`{system.Hid}`)" : $"Members of `{system.Hid}`";
await Context.Paginate<PKMember>(
members.OrderBy(m => m.Name).ToList(),
25,
embedTitle,
(eb, ms) => eb.Description = string.Join("\n", ms.Select((m) => {
if (m.HasProxyTags) return $"[`{m.Hid}`] **{m.Name}** *({m.ProxyString})*";
return $"[`{m.Hid}`] **{m.Name}**";
}))
);
}
[Command("full")]
[Alias("big", "details", "long")]
[Remarks("system [system] list full")]
public async Task MemberLongList() {
var system = Context.GetContextEntity<PKSystem>() ?? Context.SenderSystem;
if (system == null) throw Errors.NoSystemError;
var members = await Members.GetBySystem(system);
var embedTitle = system.Name != null ? $"Members of {system.Name} (`{system.Hid}`)" : $"Members of `{system.Hid}`";
await Context.Paginate<PKMember>(
members.OrderBy(m => m.Name).ToList(),
10,
embedTitle,
(eb, ms) => {
foreach (var m in ms) {
var profile = $"**ID**: {m.Hid}";
if (m.Pronouns != null) profile += $"\n**Pronouns**: {m.Pronouns}";
if (m.Birthday != null) profile += $"\n**Birthdate**: {m.BirthdayString}";
if (m.Prefix != null || m.Suffix != null) profile += $"\n**Proxy tags**: {m.ProxyString}";
if (m.Description != null) profile += $"\n\n{m.Description}";
eb.AddField(m.Name, profile);
}
}
);
}
}
[Command("fronter")]
[Alias("f", "front", "fronters")]
[Remarks("system [system] fronter")]
public async Task SystemFronter()
{
var system = ContextEntity ?? Context.SenderSystem;
if (system == null) throw Errors.NoSystemError;
var sw = await Switches.GetLatestSwitch(system);
if (sw == null) throw Errors.NoRegisteredSwitches;
await Context.Channel.SendMessageAsync(embed: await EmbedService.CreateFronterEmbed(sw, system.Zone));
}
[Command("fronthistory")]
[Alias("fh", "history", "switches")]
[Remarks("system [system] fronthistory")]
public async Task SystemFrontHistory()
{
var system = ContextEntity ?? Context.SenderSystem;
if (system == null) throw Errors.NoSystemError;
var sws = (await Switches.GetSwitches(system, 10)).ToList();
if (sws.Count == 0) throw Errors.NoRegisteredSwitches;
await Context.Channel.SendMessageAsync(embed: await EmbedService.CreateFrontHistoryEmbed(sws, system.Zone));
}
[Command("frontpercent")]
[Alias("frontbreakdown", "frontpercent", "front%", "fp")]
[Remarks("system [system] frontpercent [duration]")]
public async Task SystemFrontPercent([Remainder] string durationStr = "30d")
{
var system = ContextEntity ?? Context.SenderSystem;
if (system == null) throw Errors.NoSystemError;
var duration = PluralKit.Utils.ParsePeriod(durationStr);
if (duration == null) throw Errors.InvalidDateTime(durationStr);
var rangeEnd = SystemClock.Instance.GetCurrentInstant();
var rangeStart = rangeEnd - duration.Value;
var frontpercent = await Switches.GetPerMemberSwitchDuration(system, rangeEnd - duration.Value, rangeEnd);
await Context.Channel.SendMessageAsync(embed: await EmbedService.CreateFrontPercentEmbed(frontpercent, rangeStart.InZone(system.Zone)));
}
[Command("timezone")]
[Alias("tz")]
[Remarks("system timezone [timezone]")]
[MustHaveSystem]
public async Task SystemTimezone([Remainder] string zoneStr = null)
{
if (zoneStr == null)
{
Context.SenderSystem.UiTz = "UTC";
await Systems.Save(Context.SenderSystem);
await Context.Channel.SendMessageAsync($"{Emojis.Success} System time zone cleared.");
return;
}
var zone = await FindTimeZone(zoneStr);
if (zone == null) throw Errors.InvalidTimeZone(zoneStr);
var currentTime = SystemClock.Instance.GetCurrentInstant().InZone(zone);
var msg = await Context.Channel.SendMessageAsync(
$"This will change the system time zone to {zone.Id}. The current time is {Formats.ZonedDateTimeFormat.Format(currentTime)}. Is this correct?");
if (!await Context.PromptYesNo(msg)) throw Errors.TimezoneChangeCancelled;
Context.SenderSystem.UiTz = zone.Id;
await Systems.Save(Context.SenderSystem);
await Context.Channel.SendMessageAsync($"System time zone changed to {zone.Id}.");
}
public async Task<DateTimeZone> FindTimeZone(string zoneStr) {
// First, if we're given a flag emoji, we extract the flag emoji code from it.
zoneStr = PluralKit.Utils.ExtractCountryFlag(zoneStr) ?? zoneStr;
// Then, we find all *locations* matching either the given country code or the country name.
var locations = TzdbDateTimeZoneSource.Default.Zone1970Locations;
var matchingLocations = locations.Where(l => l.Countries.Any(c =>
string.Equals(c.Code, zoneStr, StringComparison.InvariantCultureIgnoreCase) ||
string.Equals(c.Name, zoneStr, StringComparison.InvariantCultureIgnoreCase)));
// Then, we find all (unique) time zone IDs that match.
var matchingZones = matchingLocations.Select(l => DateTimeZoneProviders.Tzdb.GetZoneOrNull(l.ZoneId))
.Distinct().ToList();
// If the set of matching zones is empty (ie. we didn't find anything), we try a few other things.
if (matchingZones.Count == 0)
{
// First, we try to just find the time zone given directly and return that.
var givenZone = DateTimeZoneProviders.Tzdb.GetZoneOrNull(zoneStr);
if (givenZone != null) return givenZone;
// If we didn't find anything there either, we try parsing the string as an offset, then
// find all possible zones that match that offset. For an offset like UTC+2, this doesn't *quite*
// work, since there are 57(!) matching zones (as of 2019-06-13) - but for less populated time zones
// this could work nicely.
var inputWithoutUtc = zoneStr.Replace("UTC", "").Replace("GMT", "");
var res = OffsetPattern.CreateWithInvariantCulture("+H").Parse(inputWithoutUtc);
if (!res.Success) res = OffsetPattern.CreateWithInvariantCulture("+H:mm").Parse(inputWithoutUtc);
// If *this* didn't parse correctly, fuck it, bail.
if (!res.Success) return null;
var offset = res.Value;
// To try to reduce the count, we go by locations from the 1970+ database instead of just the full database
// This elides regions that have been identical since 1970, omitting small distinctions due to Ancient History(tm).
var allZones = TzdbDateTimeZoneSource.Default.Zone1970Locations.Select(l => l.ZoneId).Distinct();
matchingZones = allZones.Select(z => DateTimeZoneProviders.Tzdb.GetZoneOrNull(z))
.Where(z => z.GetUtcOffset(SystemClock.Instance.GetCurrentInstant()) == offset).ToList();
}
// If we have a list of viable time zones, we ask the user which is correct.
// If we only have one, return that one.
if (matchingZones.Count == 1)
return matchingZones.First();
// Otherwise, prompt and return!
return await Context.Choose("There were multiple matches for your time zone query. Please select the region that matches you the closest:", matchingZones,
z =>
{
if (TzdbDateTimeZoneSource.Default.Aliases.Contains(z.Id))
return $"**{z.Id}**, {string.Join(", ", TzdbDateTimeZoneSource.Default.Aliases[z.Id])}";
return $"**{z.Id}**";
});
}
public override async Task<PKSystem> ReadContextParameterAsync(string value)
{
var res = await new PKSystemTypeReader().ReadAsync(Context, value, _services);
return res.IsSuccess ? res.BestMatch as PKSystem : null;
}
}
}