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OpenRA/OpenRA.Mods.Common/AI/States/GroundStates.cs
RoosterDragon 5bd5a384b7 Use a BitSet for representing target types. 
- Rename Bits<T> to BitSet<T>.
- Implement set based helpers for BitSet<T>.
- When representing TargetTypes of ITargetable in various traits, use a BitSet<TargetableType> instead of HashSet<string> for better performance & reduced memory usage.
- Fix FieldLoader to trim input values when generating a BitSet<T>.
- Require T in BitSet<T> and BitSetAllocator<T> to be a class since it's just a marker value. This allows the JIT to instantiate generic code for these classes once, as they don't benefit from specialized code for T. (Typically JITs will generate shared code for all reference types, and unique code for every value type encountered).
2018-03-21 12:07:44 +01:00

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#region Copyright & License Information
/*
* Copyright 2007-2018 The OpenRA Developers (see AUTHORS)
* This file is part of OpenRA, which is free software. It is made
* available to you under the terms of the GNU General Public License
* as published by the Free Software Foundation, either version 3 of
* the License, or (at your option) any later version. For more
* information, see COPYING.
*/
#endregion
using System.Linq;
using OpenRA.Traits;
namespace OpenRA.Mods.Common.AI
{
abstract class GroundStateBase : StateBase
{
protected virtual bool ShouldFlee(Squad owner)
{
return base.ShouldFlee(owner, enemies => !AttackOrFleeFuzzy.Default.CanAttack(owner.Units, enemies));
}
protected Actor FindClosestEnemy(Squad owner)
{
return owner.Bot.FindClosestEnemy(owner.Units.First().CenterPosition);
}
}
class GroundUnitsIdleState : GroundStateBase, IState
{
public void Activate(Squad owner) { }
public void Tick(Squad owner)
{
if (!owner.IsValid)
return;
if (!owner.IsTargetValid)
{
var closestEnemy = FindClosestEnemy(owner);
if (closestEnemy == null)
return;
owner.TargetActor = closestEnemy;
}
var enemyUnits = owner.World.FindActorsInCircle(owner.TargetActor.CenterPosition, WDist.FromCells(owner.Bot.Info.IdleScanRadius))
.Where(unit => owner.Bot.Player.Stances[unit.Owner] == Stance.Enemy).ToList();
if (enemyUnits.Count == 0)
return;
if (AttackOrFleeFuzzy.Default.CanAttack(owner.Units, enemyUnits))
{
foreach (var u in owner.Units)
owner.Bot.QueueOrder(new Order("AttackMove", u, Target.FromCell(owner.World, owner.TargetActor.Location), false));
// We have gathered sufficient units. Attack the nearest enemy unit.
owner.FuzzyStateMachine.ChangeState(owner, new GroundUnitsAttackMoveState(), true);
}
else
owner.FuzzyStateMachine.ChangeState(owner, new GroundUnitsFleeState(), true);
}
public void Deactivate(Squad owner) { }
}
class GroundUnitsAttackMoveState : GroundStateBase, IState
{
public void Activate(Squad owner) { }
public void Tick(Squad owner)
{
if (!owner.IsValid)
return;
if (!owner.IsTargetValid)
{
var closestEnemy = FindClosestEnemy(owner);
if (closestEnemy != null)
owner.TargetActor = closestEnemy;
else
{
owner.FuzzyStateMachine.ChangeState(owner, new GroundUnitsFleeState(), true);
return;
}
}
var leader = owner.Units.ClosestTo(owner.TargetActor.CenterPosition);
if (leader == null)
return;
var ownUnits = owner.World.FindActorsInCircle(leader.CenterPosition, WDist.FromCells(owner.Units.Count) / 3)
.Where(a => a.Owner == owner.Units.First().Owner && owner.Units.Contains(a)).ToHashSet();
if (ownUnits.Count < owner.Units.Count)
{
// Since units have different movement speeds, they get separated while approaching the target.
// Let them regroup into tighter formation.
owner.Bot.QueueOrder(new Order("Stop", leader, false));
foreach (var unit in owner.Units.Where(a => !ownUnits.Contains(a)))
owner.Bot.QueueOrder(new Order("AttackMove", unit, Target.FromCell(owner.World, leader.Location), false));
}
else
{
var enemies = owner.World.FindActorsInCircle(leader.CenterPosition, WDist.FromCells(owner.Bot.Info.AttackScanRadius))
.Where(a => !a.IsDead && leader.Owner.Stances[a.Owner] == Stance.Enemy && !a.GetEnabledTargetTypes().IsEmpty);
var target = enemies.ClosestTo(leader.CenterPosition);
if (target != null)
{
owner.TargetActor = target;
owner.FuzzyStateMachine.ChangeState(owner, new GroundUnitsAttackState(), true);
}
else
foreach (var a in owner.Units)
owner.Bot.QueueOrder(new Order("AttackMove", a, Target.FromCell(owner.World, owner.TargetActor.Location), false));
}
if (ShouldFlee(owner))
owner.FuzzyStateMachine.ChangeState(owner, new GroundUnitsFleeState(), true);
}
public void Deactivate(Squad owner) { }
}
class GroundUnitsAttackState : GroundStateBase, IState
{
public void Activate(Squad owner) { }
public void Tick(Squad owner)
{
if (!owner.IsValid)
return;
if (!owner.IsTargetValid)
{
var closestEnemy = FindClosestEnemy(owner);
if (closestEnemy != null)
owner.TargetActor = closestEnemy;
else
{
owner.FuzzyStateMachine.ChangeState(owner, new GroundUnitsFleeState(), true);
return;
}
}
foreach (var a in owner.Units)
if (!BusyAttack(a))
owner.Bot.QueueOrder(new Order("Attack", a, Target.FromActor(owner.TargetActor), false));
if (ShouldFlee(owner))
owner.FuzzyStateMachine.ChangeState(owner, new GroundUnitsFleeState(), true);
}
public void Deactivate(Squad owner) { }
}
class GroundUnitsFleeState : GroundStateBase, IState
{
public void Activate(Squad owner) { }
public void Tick(Squad owner)
{
if (!owner.IsValid)
return;
GoToRandomOwnBuilding(owner);
owner.FuzzyStateMachine.ChangeState(owner, new GroundUnitsIdleState(), true);
}
public void Deactivate(Squad owner) { owner.Units.Clear(); }
}
}
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