Project-M/Assets/_Project/Scripts/Server/Economy/ResourceHarvestSystem.cs

using ProjectM.Simulation;
using Unity.Burst;
using Unity.Collections;
using Unity.Entities;
using Unity.Mathematics;
using Unity.NetCode;
using Unity.Transforms;

namespace ProjectM.Server
{
    /// <summary>
    /// Server-only resource harvest: sweeps each surviving projectile's this-tick travel segment against
    /// resource-node ghosts and deposits <see cref="ResourceNode.HarvestPerHit"/> of the node's
    /// <see cref="ResourceNode.ResourceId"/> into the GLOBAL resource ledger (the CycleDirector's
    /// <see cref="StorageEntry"/> buffer, resolved via <see cref="ResourceLedger"/> — NEVER
    /// GetSingleton&lt;StorageEntry&gt;, which would collide with the base storage container). Runs in the plain
    /// server SimulationSystemGroup <c>[UpdateAfter(PredictedSimulationSystemGroup)]</c> — after
    /// ProjectileDamageSystem has already consumed Health-target hits and range-expired projectiles, so this
    /// only sees true survivors. The swept segment is reconstructed from <see cref="Projectile.LastStep"/>
    /// (written by ProjectileMoveSystem in the fixed-step group), so it is tunnelling-safe WITHOUT depending on
    /// this plain group's variable-frame DeltaTime. A node hit by two projectiles in one tick deposits twice
    /// but is destroyed exactly once. Relies on the asserted ~1000-unit base/expedition coordinate gap so a
    /// base projectile can never geometrically reach an expedition node.
    /// </summary>
    [BurstCompile]
    [WorldSystemFilter(WorldSystemFilterFlags.ServerSimulation)]
    [UpdateInGroup(typeof(SimulationSystemGroup))]
    [UpdateAfter(typeof(PredictedSimulationSystemGroup))]
    public partial struct ResourceHarvestSystem : ISystem
    {
        const float k_ProjectileRadius = Tuning.HarvestProjectileRadius;

        [BurstCompile]
        public void OnCreate(ref SystemState state)
        {
            state.RequireForUpdate<Projectile>();
            state.RequireForUpdate<ResourceNode>();
            state.RequireForUpdate<ResourceLedger>();
        }

        [BurstCompile]
        public void OnUpdate(ref SystemState state)
        {
            var ledgerEntity = SystemAPI.GetSingletonEntity<ResourceLedger>();
            var ledger = SystemAPI.GetBuffer<StorageEntry>(ledgerEntity);

            // Snapshot all nodes once this tick.
            var nodeEntities = new NativeList<Entity>(Allocator.Temp);
            var nodePos = new NativeList<float2>(Allocator.Temp);
            var nodeRadius = new NativeList<float>(Allocator.Temp);
            var nodeRemaining = new NativeList<int>(Allocator.Temp);
            var nodeResource = new NativeList<byte>(Allocator.Temp);
            var nodePerHit = new NativeList<float>(Allocator.Temp);

            foreach (var (xform, hr, node, e) in
                     SystemAPI.Query<RefRO<LocalTransform>, RefRO<HitRadius>, RefRO<ResourceNode>>().WithEntityAccess())
            {
                nodeEntities.Add(e);
                nodePos.Add(xform.ValueRO.Position.xz);
                nodeRadius.Add(hr.ValueRO.Value);
                nodeRemaining.Add(node.ValueRO.Remaining);
                nodeResource.Add(node.ValueRO.ResourceId);
                nodePerHit.Add(node.ValueRO.HarvestPerHit);
            }

            var destroyed = new NativeArray<bool>(nodeEntities.Length, Allocator.Temp);
            var ecb = new EntityCommandBuffer(Allocator.Temp);

            foreach (var (xform, proj, projEntity) in
                     SystemAPI.Query<RefRO<LocalTransform>, RefRO<Projectile>>().WithEntityAccess())
            {
                float3 cur = xform.ValueRO.Position;
                float2 segEnd = cur.xz;
                float2 segStart = segEnd - proj.ValueRO.Direction * proj.ValueRO.LastStep;
                float2 seg = segEnd - segStart;
                float segLenSq = math.lengthsq(seg);

                int bestIdx = -1;
                float bestT = float.MaxValue;
                for (int i = 0; i < nodeEntities.Length; i++)
                {
                    if (destroyed[i]) continue;
                    float2 tp = nodePos[i];
                    float t = segLenSq > 1e-8f ? math.saturate(math.dot(tp - segStart, seg) / segLenSq) : 0f;
                    float2 closest = segStart + t * seg;
                    float hitDist = nodeRadius[i] + k_ProjectileRadius;
                    if (math.distancesq(tp, closest) <= hitDist * hitDist && t < bestT)
                    {
                        bestT = t;
                        bestIdx = i;
                    }
                }

                if (bestIdx < 0)
                    continue;

                int amount = (int)nodePerHit[bestIdx];
                StorageMath.Deposit(ledger, nodeResource[bestIdx], amount);
                int rem = nodeRemaining[bestIdx] - amount;
                nodeRemaining[bestIdx] = rem;
                ecb.DestroyEntity(projEntity);

                if (rem <= 0)
                {
                    if (!destroyed[bestIdx])
                    {
                        destroyed[bestIdx] = true;
                        ecb.DestroyEntity(nodeEntities[bestIdx]);
                    }
                }
                else
                {
                    // Persist the decremented Remaining (replicated GhostField) so depletion carries across ticks.
                    SystemAPI.SetComponent(nodeEntities[bestIdx], new ResourceNode
                    {
                        ResourceId = nodeResource[bestIdx],
                        Remaining = rem,
                        HarvestPerHit = nodePerHit[bestIdx],
                    });
                }
            }

            ecb.Playback(state.EntityManager);
            ecb.Dispose();
            destroyed.Dispose();
            nodeEntities.Dispose();
            nodePos.Dispose();
            nodeRadius.Dispose();
            nodeRemaining.Dispose();
            nodeResource.Dispose();
            nodePerHit.Dispose();
        }
    }
}