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tbd-station-14/Content.Client/Shuttles/UI/DockingControl.cs
metalgearsloth c9a2ab1cee Remove transform methods from mapgrid (#12233)
2022-11-01 11:27:18 +11:00

258 lines
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using Content.Shared.Shuttles.BUIStates;
using Robust.Client.Graphics;
using Robust.Client.UserInterface;
using Robust.Shared.Map;
using Robust.Shared.Physics;
using Robust.Shared.Physics.Collision.Shapes;
namespace Content.Client.Shuttles.UI;
/// <summary>
/// Displays the docking view from a specific docking port
/// </summary>
[Virtual]
public class DockingControl : Control
{
private readonly IEntityManager _entManager;
private readonly IMapManager _mapManager;
private const int MinimapMargin = 4;
private float _range = 8f;
private float _rangeSquared = 0f;
private const float GridLinesDistance = 32f;
private int MidPoint => SizeFull / 2;
private int SizeFull => (int) ((RadarControl.MinimapRadius + MinimapMargin) * 2 * UIScale);
private int ScaledMinimapRadius => (int) (RadarControl.MinimapRadius * UIScale);
private float MinimapScale => _range != 0 ? ScaledMinimapRadius / _range : 0f;
public EntityUid? ViewedDock;
public EntityUid? GridEntity;
public EntityCoordinates? Coordinates;
public Angle? Angle;
/// <summary>
/// Stored by GridID then by docks
/// </summary>
public Dictionary<EntityUid, List<DockingInterfaceState>> Docks = new();
public DockingControl()
{
_entManager = IoCManager.Resolve<IEntityManager>();
_mapManager = IoCManager.Resolve<IMapManager>();
_rangeSquared = _range * _range;
MinSize = (SizeFull, SizeFull);
}
protected override void Draw(DrawingHandleScreen handle)
{
base.Draw(handle);
var fakeAA = new Color(0.08f, 0.08f, 0.08f);
handle.DrawCircle((MidPoint, MidPoint), ScaledMinimapRadius + 1, fakeAA);
handle.DrawCircle((MidPoint, MidPoint), ScaledMinimapRadius, Color.Black);
var gridLines = new Color(0.08f, 0.08f, 0.08f);
var gridLinesRadial = 8;
var gridLinesEquatorial = (int) Math.Floor(_range / GridLinesDistance);
for (var i = 1; i < gridLinesEquatorial + 1; i++)
{
handle.DrawCircle((MidPoint, MidPoint), GridLinesDistance * MinimapScale * i, gridLines, false);
}
for (var i = 0; i < gridLinesRadial; i++)
{
Angle angle = (Math.PI / gridLinesRadial) * i;
var aExtent = angle.ToVec() * ScaledMinimapRadius;
handle.DrawLine((MidPoint, MidPoint) - aExtent, (MidPoint, MidPoint) + aExtent, gridLines);
}
if (Coordinates == null ||
Angle == null ||
!_entManager.TryGetComponent<TransformComponent>(GridEntity, out var gridXform)) return;
var rotation = Matrix3.CreateRotation(-Angle.Value + Math.PI);
var matrix = Matrix3.CreateTranslation(-Coordinates.Value.Position);
// Draw the fixtures around the dock before drawing it
if (_entManager.TryGetComponent<FixturesComponent>(GridEntity, out var fixtures))
{
foreach (var (_, fixture) in fixtures.Fixtures)
{
var poly = (PolygonShape) fixture.Shape;
for (var i = 0; i < poly.VertexCount; i++)
{
var start = matrix.Transform(poly.Vertices[i]);
var end = matrix.Transform(poly.Vertices[(i + 1) % poly.VertexCount]);
var startOut = start.LengthSquared > _rangeSquared;
var endOut = end.LengthSquared > _rangeSquared;
// We need to draw to the radar border so we'll cap the range,
// but if none of the verts are in range then just leave it.
if (startOut && endOut)
continue;
start.Y = -start.Y;
end.Y = -end.Y;
// If start is outside we draw capped from end to start
if (startOut)
{
// It's called Jobseeker now.
if (!MathHelper.TryGetIntersecting(start, end, _range, out var newStart)) continue;
start = newStart.Value;
}
// otherwise vice versa
else if (endOut)
{
if (!MathHelper.TryGetIntersecting(end, start, _range, out var newEnd)) continue;
end = newEnd.Value;
}
handle.DrawLine(ScalePosition(start), ScalePosition(end), Color.Goldenrod);
}
}
}
// Draw the dock's collision
handle.DrawRect(new UIBox2(
ScalePosition(rotation.Transform(new Vector2(-0.2f, -0.7f))),
ScalePosition(rotation.Transform(new Vector2(0.2f, -0.5f)))), Color.Aquamarine);
// Draw the dock itself
handle.DrawRect(new UIBox2(
ScalePosition(rotation.Transform(new Vector2(-0.5f, 0.5f))),
ScalePosition(rotation.Transform(new Vector2(0.5f, -0.5f)))), Color.Green);
// Draw nearby grids
var worldPos = gridXform.WorldMatrix.Transform(Coordinates.Value.Position);
var gridInvMatrix = gridXform.InvWorldMatrix;
Matrix3.Multiply(in gridInvMatrix, in matrix, out var invMatrix);
// TODO: Getting some overdraw so need to fix that.
var xformQuery = _entManager.GetEntityQuery<TransformComponent>();
foreach (var grid in _mapManager.FindGridsIntersecting(gridXform.MapID,
new Box2(worldPos - _range, worldPos + _range)))
{
if (grid.GridEntityId == GridEntity)
continue;
// Draw the fixtures before drawing any docks in range.
if (!_entManager.TryGetComponent<FixturesComponent>(grid.GridEntityId, out var gridFixtures))
continue;
var gridMatrix = xformQuery.GetComponent(grid.GridEntityId).WorldMatrix;
Matrix3.Multiply(in gridMatrix, in invMatrix, out var matty);
foreach (var (_, fixture) in gridFixtures.Fixtures)
{
var poly = (PolygonShape) fixture.Shape;
for (var i = 0; i < poly.VertexCount; i++)
{
// This is because the same line might be on different fixtures so we don't want to draw it twice.
var startPos = poly.Vertices[i];
var endPos = poly.Vertices[(i + 1) % poly.VertexCount];
var start = matty.Transform(startPos);
var end = matty.Transform(endPos);
var startOut = start.LengthSquared > _rangeSquared;
var endOut = end.LengthSquared > _rangeSquared;
// We need to draw to the radar border so we'll cap the range,
// but if none of the verts are in range then just leave it.
if (startOut && endOut)
continue;
start.Y = -start.Y;
end.Y = -end.Y;
// If start is outside we draw capped from end to start
if (startOut)
{
// It's called Jobseeker now.
if (!MathHelper.TryGetIntersecting(start, end, _range, out var newStart)) continue;
start = newStart.Value;
}
// otherwise vice versa
else if (endOut)
{
if (!MathHelper.TryGetIntersecting(end, start, _range, out var newEnd)) continue;
end = newEnd.Value;
}
handle.DrawLine(ScalePosition(start), ScalePosition(end), Color.Aquamarine);
}
}
// Draw any docks on that grid
if (Docks.TryGetValue(grid.GridEntityId, out var gridDocks))
{
foreach (var dock in gridDocks)
{
var position = matty.Transform(dock.Coordinates.Position);
if (position.Length > _range - 0.8f) continue;
var otherDockRotation = Matrix3.CreateRotation(dock.Angle);
// Draw the dock's collision
var verts = new[]
{
matty.Transform(dock.Coordinates.Position +
otherDockRotation.Transform(new Vector2(-0.2f, -0.7f))),
matty.Transform(dock.Coordinates.Position +
otherDockRotation.Transform(new Vector2(0.2f, -0.7f))),
matty.Transform(dock.Coordinates.Position +
otherDockRotation.Transform(new Vector2(0.2f, -0.5f))),
matty.Transform(dock.Coordinates.Position +
otherDockRotation.Transform(new Vector2(-0.2f, -0.5f))),
};
for (var i = 0; i < verts.Length; i++)
{
var vert = verts[i];
vert.Y = -vert.Y;
verts[i] = ScalePosition(vert);
}
handle.DrawPrimitives(DrawPrimitiveTopology.TriangleFan, verts, Color.Turquoise);
// Draw the dock itself
verts = new[]
{
matty.Transform(dock.Coordinates.Position + new Vector2(-0.5f, -0.5f)),
matty.Transform(dock.Coordinates.Position + new Vector2(0.5f, -0.5f)),
matty.Transform(dock.Coordinates.Position + new Vector2(0.5f, 0.5f)),
matty.Transform(dock.Coordinates.Position + new Vector2(-0.5f, 0.5f)),
};
for (var i = 0; i < verts.Length; i++)
{
var vert = verts[i];
vert.Y = -vert.Y;
verts[i] = ScalePosition(vert);
}
handle.DrawPrimitives(DrawPrimitiveTopology.TriangleFan, verts, Color.Green);
}
}
}
}
private Vector2 ScalePosition(Vector2 value)
{
return value * MinimapScale + MidPoint;
}
}
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