151 lines
7.9 KiB
C#
151 lines
7.9 KiB
C#
using Content.Client.Atmos.EntitySystems;
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using Content.Shared.Atmos;
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using Content.Shared.Atmos.EntitySystems;
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using Robust.Client.Graphics;
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using Robust.Shared.Enums;
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using Robust.Shared.GameObjects;
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using Robust.Shared.IoC;
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using Robust.Shared.Map;
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using Robust.Shared.Maths;
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namespace Content.Client.Atmos.Overlays
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{
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public class AtmosDebugOverlay : Overlay
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{
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private readonly AtmosDebugOverlaySystem _atmosDebugOverlaySystem;
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[Dependency] private readonly IMapManager _mapManager = default!;
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[Dependency] private readonly IEyeManager _eyeManager = default!;
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public override OverlaySpace Space => OverlaySpace.WorldSpace;
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public AtmosDebugOverlay()
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{
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IoCManager.InjectDependencies(this);
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_atmosDebugOverlaySystem = EntitySystem.Get<AtmosDebugOverlaySystem>();
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}
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protected override void Draw(in OverlayDrawArgs args)
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{
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var drawHandle = args.WorldHandle;
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var mapId = _eyeManager.CurrentMap;
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var worldBounds = _eyeManager.GetWorldViewbounds();
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// IF YOU ARE ABOUT TO INTRODUCE CHUNKING OR SOME OTHER OPTIMIZATION INTO THIS CODE:
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// -- THINK! --
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// 1. "Is this going to make a critical atmos debugging tool harder to debug itself?"
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// 2. "Is this going to do anything that could cause the atmos debugging tool to use resources, server-side or client-side, when nobody's using it?"
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// 3. "Is this going to make it harder for atmos programmers to add data that may not be chunk-friendly into the atmos debugger?"
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// Nanotrasen needs YOU! to avoid premature optimization in critical debugging tools - 20kdc
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foreach (var mapGrid in _mapManager.FindGridsIntersecting(mapId, worldBounds))
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{
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if (!_atmosDebugOverlaySystem.HasData(mapGrid.Index))
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continue;
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drawHandle.SetTransform(mapGrid.WorldMatrix);
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for (var pass = 0; pass < 2; pass++)
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{
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foreach (var tile in mapGrid.GetTilesIntersecting(worldBounds))
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{
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var dataMaybeNull = _atmosDebugOverlaySystem.GetData(mapGrid.Index, tile.GridIndices);
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if (dataMaybeNull != null)
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{
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var data = (SharedAtmosDebugOverlaySystem.AtmosDebugOverlayData) dataMaybeNull!;
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if (pass == 0)
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{
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// -- Mole Count --
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float total = 0;
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switch (_atmosDebugOverlaySystem.CfgMode) {
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case AtmosDebugOverlayMode.TotalMoles:
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foreach (float f in data.Moles)
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{
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total += f;
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}
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break;
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case AtmosDebugOverlayMode.GasMoles:
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total = data.Moles[_atmosDebugOverlaySystem.CfgSpecificGas];
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break;
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case AtmosDebugOverlayMode.Temperature:
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total = data.Temperature;
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break;
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}
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var interp = ((total - _atmosDebugOverlaySystem.CfgBase) / _atmosDebugOverlaySystem.CfgScale);
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Color res;
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if (_atmosDebugOverlaySystem.CfgCBM)
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{
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// Greyscale interpolation
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res = Color.InterpolateBetween(Color.Black, Color.White, interp);
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}
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else
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{
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// Red-Green-Blue interpolation
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if (interp < 0.5f)
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{
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res = Color.InterpolateBetween(Color.Red, Color.LimeGreen, interp * 2);
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}
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else
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{
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res = Color.InterpolateBetween(Color.LimeGreen, Color.Blue, (interp - 0.5f) * 2);
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}
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}
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res = res.WithAlpha(0.75f);
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drawHandle.DrawRect(Box2.FromDimensions(new Vector2(tile.X, tile.Y), new Vector2(1, 1)), res);
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}
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else if (pass == 1)
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{
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// -- Blocked Directions --
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void CheckAndShowBlockDir(AtmosDirection dir)
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{
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if (data.BlockDirection.HasFlag(dir))
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{
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// Account for South being 0.
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var atmosAngle = dir.ToAngle() - Angle.FromDegrees(90);
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var atmosAngleOfs = atmosAngle.ToVec() * 0.45f;
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var atmosAngleOfsR90 = new Vector2(atmosAngleOfs.Y, -atmosAngleOfs.X);
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var tileCentre = new Vector2(tile.X + 0.5f, tile.Y + 0.5f);
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var basisA = tileCentre + atmosAngleOfs - atmosAngleOfsR90;
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var basisB = tileCentre + atmosAngleOfs + atmosAngleOfsR90;
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drawHandle.DrawLine(basisA, basisB, Color.Azure);
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}
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}
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CheckAndShowBlockDir(AtmosDirection.North);
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CheckAndShowBlockDir(AtmosDirection.South);
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CheckAndShowBlockDir(AtmosDirection.East);
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CheckAndShowBlockDir(AtmosDirection.West);
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// -- Pressure Direction --
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if (data.PressureDirection != AtmosDirection.Invalid)
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{
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// Account for South being 0.
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var atmosAngle = data.PressureDirection.ToAngle() - Angle.FromDegrees(90);
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var atmosAngleOfs = atmosAngle.ToVec() * 0.4f;
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var tileCentre = new Vector2(tile.X + 0.5f, tile.Y + 0.5f);
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var basisA = tileCentre;
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var basisB = tileCentre + atmosAngleOfs;
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drawHandle.DrawLine(basisA, basisB, Color.Blue);
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}
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// -- Excited Groups --
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if (data.InExcitedGroup)
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{
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var tilePos = new Vector2(tile.X, tile.Y);
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var basisA = tilePos;
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var basisB = tilePos + new Vector2(1.0f, 1.0f);
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var basisC = tilePos + new Vector2(0.0f, 1.0f);
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var basisD = tilePos + new Vector2(1.0f, 0.0f);
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drawHandle.DrawLine(basisA, basisB, Color.Cyan);
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drawHandle.DrawLine(basisC, basisD, Color.Cyan);
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}
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}
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}
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}
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}
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}
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drawHandle.SetTransform(Matrix3.Identity);
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}
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}
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}
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