PluralKit/PluralKit.Core/Database/Repository/ModelRepository.Switch.cs

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2020-08-29 11:46:27 +00:00
using System.Collections.Generic;
using System.Linq;
using System.Threading.Tasks;
using Dapper;
using NodaTime;
using NpgsqlTypes;
namespace PluralKit.Core
{
public partial class ModelRepository
{
public async Task AddSwitch(IPKConnection conn, SystemId system, IReadOnlyCollection<MemberId> members)
{
// Use a transaction here since we're doing multiple executed commands in one
await using var tx = await conn.BeginTransactionAsync();
// First, we insert the switch itself
var sw = await conn.QuerySingleAsync<PKSwitch>("insert into switches(system) values (@System) returning *",
new {System = system});
// Then we insert each member in the switch in the switch_members table
await using (var w = conn.BeginBinaryImport("copy switch_members (switch, member) from stdin (format binary)"))
{
foreach (var member in members)
{
await w.StartRowAsync();
await w.WriteAsync(sw.Id.Value, NpgsqlDbType.Integer);
await w.WriteAsync(member.Value, NpgsqlDbType.Integer);
}
await w.CompleteAsync();
}
// Finally we commit the tx, since the using block will otherwise rollback it
await tx.CommitAsync();
_logger.Information("Created {SwitchId} in {SystemId}: {Members}", sw.Id, system, members);
}
public async Task MoveSwitch(IPKConnection conn, SwitchId id, Instant time)
{
await conn.ExecuteAsync("update switches set timestamp = @Time where id = @Id",
new {Time = time, Id = id});
_logger.Information("Updated {SwitchId} timestamp: {SwitchTimestamp}", id, time);
}
public async Task DeleteSwitch(IPKConnection conn, SwitchId id)
{
await conn.ExecuteAsync("delete from switches where id = @Id", new {Id = id});
_logger.Information("Deleted {Switch}", id);
}
public async Task DeleteAllSwitches(IPKConnection conn, SystemId system)
{
await conn.ExecuteAsync("delete from switches where system = @Id", new {Id = system});
_logger.Information("Deleted all switches in {SystemId}", system);
}
public IAsyncEnumerable<PKSwitch> GetSwitches(IPKConnection conn, SystemId system)
{
// TODO: refactor the PKSwitch data structure to somehow include a hydrated member list
return conn.QueryStreamAsync<PKSwitch>(
"select * from switches where system = @System order by timestamp desc",
new {System = system});
}
public async Task<int> GetSwitchCount(IPKConnection conn, SystemId system)
{
return await conn.QuerySingleAsync<int>("select count(*) from switches where system = @Id", new { Id = system });
}
public async IAsyncEnumerable<SwitchMembersListEntry> GetSwitchMembersList(IPKConnection conn,
SystemId system, Instant start, Instant end)
{
// Wrap multiple commands in a single transaction for performance
await using var tx = await conn.BeginTransactionAsync();
// Find the time of the last switch outside the range as it overlaps the range
// If no prior switch exists, the lower bound of the range remains the start time
var lastSwitch = await conn.QuerySingleOrDefaultAsync<Instant>(
@"SELECT COALESCE(MAX(timestamp), @Start)
FROM switches
WHERE switches.system = @System
AND switches.timestamp < @Start",
new {System = system, Start = start});
// Then collect the time and members of all switches that overlap the range
var switchMembersEntries = conn.QueryStreamAsync<SwitchMembersListEntry>(
@"SELECT switch_members.member, switches.timestamp
FROM switches
LEFT JOIN switch_members
ON switches.id = switch_members.switch
WHERE switches.system = @System
AND (
switches.timestamp >= @Start
OR switches.timestamp = @LastSwitch
)
AND switches.timestamp < @End
ORDER BY switches.timestamp DESC",
new {System = system, Start = start, End = end, LastSwitch = lastSwitch});
// Yield each value here
await foreach (var entry in switchMembersEntries)
yield return entry;
// Don't really need to worry about the transaction here, we're not doing any *writes*
}
public IAsyncEnumerable<PKMember> GetSwitchMembers(IPKConnection conn, SwitchId sw)
{
return conn.QueryStreamAsync<PKMember>(
"select * from switch_members, members where switch_members.member = members.id and switch_members.switch = @Switch order by switch_members.id",
new {Switch = sw});
}
public async Task<PKSwitch> GetLatestSwitch(IPKConnection conn, SystemId system) =>
// TODO: should query directly for perf
await GetSwitches(conn, system).FirstOrDefaultAsync();
public async Task<IEnumerable<SwitchListEntry>> GetPeriodFronters(IPKConnection conn,
SystemId system, Instant periodStart,
Instant periodEnd)
{
// TODO: IAsyncEnumerable-ify this one
// TODO: this doesn't belong in the repo
// Returns the timestamps and member IDs of switches overlapping the range, in chronological (newest first) order
var switchMembers = await GetSwitchMembersList(conn, system, periodStart, periodEnd).ToListAsync();
// query DB for all members involved in any of the switches above and collect into a dictionary for future use
// this makes sure the return list has the same instances of PKMember throughout, which is important for the dictionary
// key used in GetPerMemberSwitchDuration below
var membersList = await conn.QueryAsync<PKMember>(
"select * from members where id = any(@Switches)", // lol postgres specific `= any()` syntax
new {Switches = switchMembers.Select(m => m.Member.Value).Distinct().ToList()});
var memberObjects = membersList.ToDictionary(m => m.Id);
// Initialize entries - still need to loop to determine the TimespanEnd below
var entries =
from item in switchMembers
group item by item.Timestamp
into g
select new SwitchListEntry
{
TimespanStart = g.Key,
Members = g.Where(x => x.Member != default(MemberId)).Select(x => memberObjects[x.Member])
.ToList()
};
// Loop through every switch that overlaps the range and add it to the output list
// end time is the *FOLLOWING* switch's timestamp - we cheat by working backwards from the range end, so no dates need to be compared
var endTime = periodEnd;
var outList = new List<SwitchListEntry>();
foreach (var e in entries)
{
// Override the start time of the switch if it's outside the range (only true for the "out of range" switch we included above)
var switchStartClamped = e.TimespanStart < periodStart
? periodStart
: e.TimespanStart;
outList.Add(new SwitchListEntry
{
Members = e.Members, TimespanStart = switchStartClamped, TimespanEnd = endTime
});
// next switch's end is this switch's start (we're working backward in time)
endTime = e.TimespanStart;
}
return outList;
}
public async Task<FrontBreakdown> GetFrontBreakdown(IPKConnection conn, SystemId system, Instant periodStart,
Instant periodEnd)
{
// TODO: this doesn't belong in the repo
var dict = new Dictionary<PKMember, Duration>();
var noFronterDuration = Duration.Zero;
// Sum up all switch durations for each member
// switches with multiple members will result in the duration to add up to more than the actual period range
var actualStart = periodEnd; // will be "pulled" down
var actualEnd = periodStart; // will be "pulled" up
foreach (var sw in await GetPeriodFronters(conn, system, periodStart, periodEnd))
{
var span = sw.TimespanEnd - sw.TimespanStart;
foreach (var member in sw.Members)
{
if (!dict.ContainsKey(member)) dict.Add(member, span);
else dict[member] += span;
}
if (sw.Members.Count == 0) noFronterDuration += span;
if (sw.TimespanStart < actualStart) actualStart = sw.TimespanStart;
if (sw.TimespanEnd > actualEnd) actualEnd = sw.TimespanEnd;
}
return new FrontBreakdown
{
MemberSwitchDurations = dict,
NoFronterDuration = noFronterDuration,
RangeStart = actualStart,
RangeEnd = actualEnd
};
}
}
public struct SwitchListEntry
{
public ICollection<PKMember> Members;
public Instant TimespanStart;
public Instant TimespanEnd;
}
public struct FrontBreakdown
{
public Dictionary<PKMember, Duration> MemberSwitchDurations;
public Duration NoFronterDuration;
public Instant RangeStart;
public Instant RangeEnd;
}
public struct SwitchMembersListEntry
{
public MemberId Member;
public Instant Timestamp;
}
}