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1515a3faffe8e66d0802feaeedcc2fda04cab2f6
tbd-station-14/Content.Server/Physics/Controllers/MoverController.cs
metalgearsloth 1515a3faff Refactor thrusters (#15698)
2023-04-29 18:17:31 +10:00

507 lines
20 KiB
C#
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using Content.Server.Cargo.Components;
using Content.Server.Shuttles.Components;
using Content.Server.Shuttles.Systems;
using Content.Shared.Movement.Components;
using Content.Shared.Movement.Systems;
using Content.Shared.Shuttles.Components;
using Content.Shared.Shuttles.Systems;
using Robust.Server.GameObjects;
using Robust.Shared.Map;
using Robust.Shared.Physics.Components;
using Robust.Shared.Physics.Systems;
using Robust.Shared.Player;
namespace Content.Server.Physics.Controllers
{
public sealed class MoverController : SharedMoverController
{
[Dependency] private readonly IMapManager _mapManager = default!;
[Dependency] private readonly ThrusterSystem _thruster = default!;
private Dictionary<ShuttleComponent, List<(PilotComponent, InputMoverComponent, TransformComponent)>> _shuttlePilots = new();
public override void Initialize()
{
base.Initialize();
SubscribeLocalEvent<RelayInputMoverComponent, PlayerAttachedEvent>(OnRelayPlayerAttached);
SubscribeLocalEvent<RelayInputMoverComponent, PlayerDetachedEvent>(OnRelayPlayerDetached);
SubscribeLocalEvent<InputMoverComponent, PlayerAttachedEvent>(OnPlayerAttached);
SubscribeLocalEvent<InputMoverComponent, PlayerDetachedEvent>(OnPlayerDetached);
}
private void OnRelayPlayerAttached(EntityUid uid, RelayInputMoverComponent component, PlayerAttachedEvent args)
{
if (TryComp<InputMoverComponent>(component.RelayEntity, out var inputMover))
SetMoveInput(inputMover, MoveButtons.None);
}
private void OnRelayPlayerDetached(EntityUid uid, RelayInputMoverComponent component, PlayerDetachedEvent args)
{
if (TryComp<InputMoverComponent>(component.RelayEntity, out var inputMover))
SetMoveInput(inputMover, MoveButtons.None);
}
private void OnPlayerAttached(EntityUid uid, InputMoverComponent component, PlayerAttachedEvent args)
{
SetMoveInput(component, MoveButtons.None);
}
private void OnPlayerDetached(EntityUid uid, InputMoverComponent component, PlayerDetachedEvent args)
{
SetMoveInput(component, MoveButtons.None);
}
protected override bool CanSound()
{
return true;
}
public override void UpdateBeforeSolve(bool prediction, float frameTime)
{
base.UpdateBeforeSolve(prediction, frameTime);
var bodyQuery = GetEntityQuery<PhysicsComponent>();
var relayQuery = GetEntityQuery<RelayInputMoverComponent>();
var relayTargetQuery = GetEntityQuery<MovementRelayTargetComponent>();
var xformQuery = GetEntityQuery<TransformComponent>();
var moverQuery = GetEntityQuery<InputMoverComponent>();
foreach (var mover in EntityQuery<InputMoverComponent>(true))
{
var uid = mover.Owner;
EntityUid physicsUid = uid;
if (relayQuery.HasComponent(uid))
continue;
if (!xformQuery.TryGetComponent(uid, out var xform))
{
continue;
}
PhysicsComponent? body;
var xformMover = xform;
if (mover.ToParent && relayQuery.HasComponent(xform.ParentUid))
{
if (!bodyQuery.TryGetComponent(xform.ParentUid, out body) ||
!TryComp(xform.ParentUid, out xformMover))
{
continue;
}
physicsUid = xform.ParentUid;
}
else if (!bodyQuery.TryGetComponent(uid, out body))
{
continue;
}
HandleMobMovement(uid, mover, physicsUid, body, xformMover, frameTime, xformQuery, moverQuery, relayTargetQuery);
}
HandleShuttleMovement(frameTime);
}
public (Vector2 Strafe, float Rotation, float Brakes) GetPilotVelocityInput(PilotComponent component)
{
if (!Timing.InSimulation)
{
// Outside of simulation we'll be running client predicted movement per-frame.
// So return a full-length vector as if it's a full tick.
// Physics system will have the correct time step anyways.
ResetSubtick(component);
ApplyTick(component, 1f);
return (component.CurTickStrafeMovement, component.CurTickRotationMovement, component.CurTickBraking);
}
float remainingFraction;
if (Timing.CurTick > component.LastInputTick)
{
component.CurTickStrafeMovement = Vector2.Zero;
component.CurTickRotationMovement = 0f;
component.CurTickBraking = 0f;
remainingFraction = 1;
}
else
{
remainingFraction = (ushort.MaxValue - component.LastInputSubTick) / (float) ushort.MaxValue;
}
ApplyTick(component, remainingFraction);
// Logger.Info($"{curDir}{walk}{sprint}");
return (component.CurTickStrafeMovement, component.CurTickRotationMovement, component.CurTickBraking);
}
private void ResetSubtick(PilotComponent component)
{
if (Timing.CurTick <= component.LastInputTick) return;
component.CurTickStrafeMovement = Vector2.Zero;
component.CurTickRotationMovement = 0f;
component.CurTickBraking = 0f;
component.LastInputTick = Timing.CurTick;
component.LastInputSubTick = 0;
}
protected override void HandleShuttleInput(EntityUid uid, ShuttleButtons button, ushort subTick, bool state)
{
if (!TryComp<PilotComponent>(uid, out var pilot) || pilot.Console == null) return;
ResetSubtick(pilot);
if (subTick >= pilot.LastInputSubTick)
{
var fraction = (subTick - pilot.LastInputSubTick) / (float) ushort.MaxValue;
ApplyTick(pilot, fraction);
pilot.LastInputSubTick = subTick;
}
var buttons = pilot.HeldButtons;
if (state)
{
buttons |= button;
}
else
{
buttons &= ~button;
}
pilot.HeldButtons = buttons;
}
private void ApplyTick(PilotComponent component, float fraction)
{
var x = 0;
var y = 0;
var rot = 0;
int brake;
if ((component.HeldButtons & ShuttleButtons.StrafeLeft) != 0x0)
{
x -= 1;
}
if ((component.HeldButtons & ShuttleButtons.StrafeRight) != 0x0)
{
x += 1;
}
component.CurTickStrafeMovement.X += x * fraction;
if ((component.HeldButtons & ShuttleButtons.StrafeUp) != 0x0)
{
y += 1;
}
if ((component.HeldButtons & ShuttleButtons.StrafeDown) != 0x0)
{
y -= 1;
}
component.CurTickStrafeMovement.Y += y * fraction;
if ((component.HeldButtons & ShuttleButtons.RotateLeft) != 0x0)
{
rot -= 1;
}
if ((component.HeldButtons & ShuttleButtons.RotateRight) != 0x0)
{
rot += 1;
}
component.CurTickRotationMovement += rot * fraction;
if ((component.HeldButtons & ShuttleButtons.Brake) != 0x0)
{
brake = 1;
}
else
{
brake = 0;
}
component.CurTickBraking += brake * fraction;
}
private void HandleShuttleMovement(float frameTime)
{
var newPilots = new Dictionary<ShuttleComponent, List<(PilotComponent Pilot, InputMoverComponent Mover, TransformComponent ConsoleXform)>>();
// We just mark off their movement and the shuttle itself does its own movement
foreach (var (pilot, mover) in EntityManager.EntityQuery<PilotComponent, InputMoverComponent>())
{
var consoleEnt = pilot.Console?.Owner;
// TODO: This is terrible. Just make a new mover and also make it remote piloting + device networks
if (TryComp<CargoPilotConsoleComponent>(consoleEnt, out var cargoConsole))
{
consoleEnt = cargoConsole.Entity;
}
if (!TryComp<TransformComponent>(consoleEnt, out var xform)) continue;
var gridId = xform.GridUid;
// This tries to see if the grid is a shuttle and if the console should work.
if (!_mapManager.TryGetGrid(gridId, out var grid) ||
!EntityManager.TryGetComponent(grid.Owner, out ShuttleComponent? shuttleComponent) ||
!shuttleComponent.Enabled) continue;
if (!newPilots.TryGetValue(shuttleComponent, out var pilots))
{
pilots = new List<(PilotComponent, InputMoverComponent, TransformComponent)>();
newPilots[shuttleComponent] = pilots;
}
pilots.Add((pilot, mover, xform));
}
// Reset inputs for non-piloted shuttles.
foreach (var (shuttle, _) in _shuttlePilots)
{
if (newPilots.ContainsKey(shuttle) || CanPilot(shuttle)) continue;
_thruster.DisableLinearThrusters(shuttle);
}
_shuttlePilots = newPilots;
// Collate all of the linear / angular velocites for a shuttle
// then do the movement input once for it.
foreach (var (shuttle, pilots) in _shuttlePilots)
{
if (Paused(shuttle.Owner) || CanPilot(shuttle) || !TryComp(shuttle.Owner, out PhysicsComponent? body)) continue;
var shuttleNorthAngle = Transform(body.Owner).WorldRotation;
// Collate movement linear and angular inputs together
var linearInput = Vector2.Zero;
var brakeInput = 0f;
var angularInput = 0f;
foreach (var (pilot, _, consoleXform) in pilots)
{
var pilotInput = GetPilotVelocityInput(pilot);
if (pilotInput.Brakes > 0f)
{
brakeInput += pilotInput.Brakes;
}
if (pilotInput.Strafe.Length > 0f)
{
var offsetRotation = consoleXform.LocalRotation;
linearInput += offsetRotation.RotateVec(pilotInput.Strafe);
}
if (pilotInput.Rotation != 0f)
{
angularInput += pilotInput.Rotation;
}
}
var count = pilots.Count;
linearInput /= count;
angularInput /= count;
brakeInput /= count;
// Handle shuttle movement
if (brakeInput > 0f)
{
if (body.LinearVelocity.Length > 0f)
{
// Minimum brake velocity for a direction to show its thrust appearance.
var appearanceThreshold = 0.1f;
// Get velocity relative to the shuttle so we know which thrusters to fire
var shuttleVelocity = (-shuttleNorthAngle).RotateVec(body.LinearVelocity);
var force = Vector2.Zero;
if (shuttleVelocity.X < 0f)
{
_thruster.DisableLinearThrustDirection(shuttle, DirectionFlag.West);
if (shuttleVelocity.X < -appearanceThreshold)
_thruster.EnableLinearThrustDirection(shuttle, DirectionFlag.East);
var index = (int) Math.Log2((int) DirectionFlag.East);
force.X += shuttle.LinearThrust[index];
}
else if (shuttleVelocity.X > 0f)
{
_thruster.DisableLinearThrustDirection(shuttle, DirectionFlag.East);
if (shuttleVelocity.X > appearanceThreshold)
_thruster.EnableLinearThrustDirection(shuttle, DirectionFlag.West);
var index = (int) Math.Log2((int) DirectionFlag.West);
force.X -= shuttle.LinearThrust[index];
}
if (shuttleVelocity.Y < 0f)
{
_thruster.DisableLinearThrustDirection(shuttle, DirectionFlag.South);
if (shuttleVelocity.Y < -appearanceThreshold)
_thruster.EnableLinearThrustDirection(shuttle, DirectionFlag.North);
var index = (int) Math.Log2((int) DirectionFlag.North);
force.Y += shuttle.LinearThrust[index];
}
else if (shuttleVelocity.Y > 0f)
{
_thruster.DisableLinearThrustDirection(shuttle, DirectionFlag.North);
if (shuttleVelocity.Y > appearanceThreshold)
_thruster.EnableLinearThrustDirection(shuttle, DirectionFlag.South);
var index = (int) Math.Log2((int) DirectionFlag.South);
force.Y -= shuttle.LinearThrust[index];
}
var impulse = force * brakeInput * ShuttleComponent.BrakeCoefficient;
var maxImpulse = shuttleVelocity * body.Mass;
if ((impulse * frameTime).LengthSquared > maxImpulse.LengthSquared)
{
impulse = -maxImpulse;
}
PhysicsSystem.ApplyForce(shuttle.Owner, shuttleNorthAngle.RotateVec(impulse), body: body);
}
else
{
_thruster.DisableLinearThrusters(shuttle);
}
if (body.AngularVelocity != 0f)
{
var impulse = shuttle.AngularThrust * brakeInput * (body.AngularVelocity > 0f ? -1f : 1f) * ShuttleComponent.BrakeCoefficient;
var maxImpulse = body.AngularVelocity * body.Inertia;
if (Math.Abs(impulse * frameTime) > Math.Abs(maxImpulse))
{
impulse = -maxImpulse;
}
PhysicsSystem.ApplyTorque(shuttle.Owner, impulse, body: body);
_thruster.SetAngularThrust(shuttle, true);
}
else
{
_thruster.SetAngularThrust(shuttle, false);
}
}
if (linearInput.Length.Equals(0f))
{
PhysicsSystem.SetSleepingAllowed(shuttle.Owner, body, true);
if (brakeInput.Equals(0f))
_thruster.DisableLinearThrusters(shuttle);
}
else
{
PhysicsSystem.SetSleepingAllowed(shuttle.Owner, body, false);
var angle = linearInput.ToWorldAngle();
var linearDir = angle.GetDir();
var dockFlag = linearDir.AsFlag();
var totalForce = Vector2.Zero;
// Won't just do cardinal directions.
foreach (DirectionFlag dir in Enum.GetValues(typeof(DirectionFlag)))
{
// Brain no worky but I just want cardinals
switch (dir)
{
case DirectionFlag.South:
case DirectionFlag.East:
case DirectionFlag.North:
case DirectionFlag.West:
break;
default:
continue;
}
if ((dir & dockFlag) == 0x0)
{
_thruster.DisableLinearThrustDirection(shuttle, dir);
continue;
}
var force = Vector2.Zero;
var index = (int) Math.Log2((int) dir);
var thrust = shuttle.LinearThrust[index];
switch (dir)
{
case DirectionFlag.North:
force.Y += thrust;
break;
case DirectionFlag.South:
force.Y -= thrust;
break;
case DirectionFlag.East:
force.X += thrust;
break;
case DirectionFlag.West:
force.X -= thrust;
break;
default:
throw new ArgumentOutOfRangeException();
}
_thruster.EnableLinearThrustDirection(shuttle, dir);
var impulse = force * linearInput.Length;
totalForce += impulse;
}
totalForce = shuttleNorthAngle.RotateVec(totalForce);
if ((body.LinearVelocity + totalForce / body.Mass * frameTime).Length <= ShuttleComponent.MaxLinearVelocity)
{
PhysicsSystem.ApplyForce(shuttle.Owner, totalForce, body: body);
}
}
if (MathHelper.CloseTo(angularInput, 0f))
{
PhysicsSystem.SetSleepingAllowed(shuttle.Owner, body, true);
if (brakeInput <= 0f)
_thruster.SetAngularThrust(shuttle, false);
}
else
{
PhysicsSystem.SetSleepingAllowed(shuttle.Owner, body, false);
var impulse = shuttle.AngularThrust * -angularInput;
var tickChange = impulse * frameTime * body.InvI;
// If the rotation brings it above speedcap then noop.
if (Math.Sign(body.AngularVelocity) != Math.Sign(tickChange) ||
Math.Abs(body.AngularVelocity + tickChange) <= ShuttleComponent.MaxAngularVelocity)
{
PhysicsSystem.ApplyTorque(shuttle.Owner, impulse, body: body);
}
_thruster.SetAngularThrust(shuttle, true);
}
}
}
private bool CanPilot(ShuttleComponent shuttle)
{
return TryComp<FTLComponent>(shuttle.Owner, out var ftl) &&
(ftl.State & (FTLState.Starting | FTLState.Travelling | FTLState.Arriving)) != 0x0 ||
HasComp<PreventPilotComponent>(shuttle.Owner);
}
}
}
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