forked from mirror/DotRecast
refactor: support .netstandard2.1 vector3
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2e7a75624c
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5176ee036a
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@ -49,15 +49,6 @@ namespace DotRecast.Core.Numerics
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Z = f;
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}
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// [MethodImpl(MethodImplOptions.AggressiveInlining)]
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// public RcVec3f(ReadOnlySpan<float> values)
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// {
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// X = values[0];
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// Y = values[1];
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// Z = values[2];
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// }
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public float this[int index]
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{
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get => GetElement(index);
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@ -217,9 +217,9 @@ namespace DotRecast.Recast.Toolset.Tools
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RcVec3f a = new RcVec3f(1f - 2 * (float)random.NextDouble(), 0.01f + (float)random.NextDouble(), 1f - 2 * (float)random.NextDouble());
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a = RcVec3f.Normalize(a);
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float len = 2f + (float)random.NextDouble() * 20f;
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a[0] *= len;
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a[1] *= len;
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a[2] *= len;
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a.X *= len;
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a.Y *= len;
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a.Z *= len;
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RcVec3f start = new RcVec3f(p.X, p.Y, p.Z);
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RcVec3f end = new RcVec3f(p.X + a.X, p.Y + a.Y, p.Z + a.Z);
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var collider = new DtCylinderCollider(start, end, radius, SampleAreaModifications.SAMPLE_POLYAREA_TYPE_WATER, walkableClimb);
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@ -126,8 +126,8 @@ namespace DotRecast.Recast.Toolset.Tools
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RcVec3f bmin = geom.GetMeshBoundsMin();
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RcVec3f bmax = geom.GetMeshBoundsMax();
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int tx = (int)((pos.X - bmin[0]) / ts);
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int ty = (int)((pos.Z - bmin[2]) / ts);
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int tx = (int)((pos.X - bmin.X) / ts);
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int ty = (int)((pos.Z - bmin.Z) / ts);
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return BuildTile(geom, settings, navMesh, tx, ty, out tileBuildTicks, out tileTriCount, out tileMemUsage);
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}
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@ -141,8 +141,8 @@ namespace DotRecast.Recast.Toolset.Tools
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var bmin = geom.GetMeshBoundsMin();
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int tx = (int)((pos.X - bmin[0]) / ts);
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int ty = (int)((pos.Z - bmin[2]) / ts);
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int tx = (int)((pos.X - bmin.X) / ts);
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int ty = (int)((pos.Z - bmin.Z) / ts);
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var tileRef = navMesh.GetTileRefAt(tx, ty, 0);
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navMesh.RemoveTile(tileRef);
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@ -647,8 +647,8 @@ namespace DotRecast.Recast
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RcCompactCell cell = compactHeightfield.cells[x + z * zStride];
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int maxSpanIndex = cell.index + cell.count;
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float cellX = compactHeightfield.bmin[0] + ((float)x + 0.5f) * compactHeightfield.cs;
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float cellZ = compactHeightfield.bmin[2] + ((float)z + 0.5f) * compactHeightfield.cs;
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float cellX = compactHeightfield.bmin.X + ((float)x + 0.5f) * compactHeightfield.cs;
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float cellZ = compactHeightfield.bmin.Z + ((float)z + 0.5f) * compactHeightfield.cs;
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float deltaX = cellX - position[0];
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float deltaZ = cellZ - position[2];
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@ -17,7 +17,6 @@ freely, subject to the following restrictions:
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*/
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using DotRecast.Core.Numerics;
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using NUnit.Framework;
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namespace DotRecast.Detour.Test;
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@ -27,11 +26,13 @@ public class FindNearestPolyTest : AbstractDetourTest
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{
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private static readonly long[] POLY_REFS = { 281474976710696L, 281474976710773L, 281474976710680L, 281474976710753L, 281474976710733L };
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private static readonly float[][] POLY_POS =
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private static readonly RcVec3f[] POLY_POS =
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{
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new[] { 22.606520f, 10.197294f, -45.918674f }, new[] { 22.331268f, 10.197294f, -1.040187f },
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new[] { 18.694363f, 15.803535f, -73.090416f }, new[] { 0.745335f, 10.197294f, -5.940050f },
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new[] { -20.651257f, 5.904126f, -13.712508f }
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new RcVec3f(22.606520f, 10.197294f, -45.918674f),
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new RcVec3f(22.331268f, 10.197294f, -1.040187f),
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new RcVec3f(18.694363f, 15.803535f, -73.090416f),
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new RcVec3f(0.745335f, 10.197294f, -5.940050f),
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new RcVec3f(-20.651257f, 5.904126f, -13.712508f)
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};
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[Test]
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@ -45,10 +46,9 @@ public class FindNearestPolyTest : AbstractDetourTest
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var status = query.FindNearestPoly(startPos, extents, filter, out var nearestRef, out var nearestPt, out var _);
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Assert.That(status.Succeeded(), Is.True);
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Assert.That(nearestRef, Is.EqualTo(POLY_REFS[i]));
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for (int v = 0; v < POLY_POS[i].Length; v++)
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{
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Assert.That(nearestPt[v], Is.EqualTo(POLY_POS[i][v]).Within(0.001f));
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}
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Assert.That(nearestPt.X, Is.EqualTo(POLY_POS[i].X).Within(0.001f));
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Assert.That(nearestPt.Y, Is.EqualTo(POLY_POS[i].Y).Within(0.001f));
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Assert.That(nearestPt.Z, Is.EqualTo(POLY_POS[i].Z).Within(0.001f));
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}
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}
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@ -63,10 +63,9 @@ public class FindNearestPolyTest : AbstractDetourTest
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var status = query.FindNearestPoly(startPos, extents, DtQueryEmptyFilter.Shared, out var nearestRef, out var nearestPt, out var _);
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Assert.That(status.Succeeded(), Is.True);
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Assert.That(nearestRef, Is.EqualTo(0L));
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for (int v = 0; v < POLY_POS[i].Length; v++)
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{
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Assert.That(nearestPt[v], Is.EqualTo(startPos[v]).Within(0.001f));
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}
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Assert.That(nearestPt.X, Is.EqualTo(startPos.X).Within(0.001f));
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Assert.That(nearestPt.Y, Is.EqualTo(startPos.Y).Within(0.001f));
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Assert.That(nearestPt.Z, Is.EqualTo(startPos.Z).Within(0.001f));
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}
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}
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}
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@ -18,7 +18,6 @@ freely, subject to the following restrictions:
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using System.Collections.Generic;
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using DotRecast.Core.Numerics;
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using NUnit.Framework;
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namespace DotRecast.Detour.Test;
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@ -199,11 +198,9 @@ public class FindPathTest : AbstractDetourTest
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for (int j = 0; j < STRAIGHT_PATHS[i].Length; j++)
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{
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Assert.That(straightPath[j].refs, Is.EqualTo(STRAIGHT_PATHS[i][j].refs));
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for (int v = 0; v < 3; v++)
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{
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Assert.That(straightPath[j].pos[v], Is.EqualTo(STRAIGHT_PATHS[i][j].pos[v]).Within(0.01f));
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}
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Assert.That(straightPath[j].pos.X, Is.EqualTo(STRAIGHT_PATHS[i][j].pos.X).Within(0.01f));
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Assert.That(straightPath[j].pos.Y, Is.EqualTo(STRAIGHT_PATHS[i][j].pos.Y).Within(0.01f));
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Assert.That(straightPath[j].pos.Z, Is.EqualTo(STRAIGHT_PATHS[i][j].pos.Z).Within(0.01f));
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Assert.That(straightPath[j].flags, Is.EqualTo(STRAIGHT_PATHS[i][j].flags));
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}
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}
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@ -18,7 +18,6 @@ freely, subject to the following restrictions:
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using System.Collections.Generic;
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using DotRecast.Core.Numerics;
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using NUnit.Framework;
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namespace DotRecast.Detour.Test;
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@ -57,13 +56,13 @@ public class MoveAlongSurfaceTest : AbstractDetourTest
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}
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};
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private static readonly float[][] POSITION =
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private static readonly RcVec3f[] POSITION =
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{
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new[] { 6.457663f, 10.197294f, -18.334061f },
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new[] { -1.433933f, 10.197294f, -1.359993f },
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new[] { 12.184784f, 9.997294f, -18.941269f },
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new[] { 0.863553f, 10.197294f, -10.310320f },
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new[] { 18.784092f, 10.197294f, 3.054368f }
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new RcVec3f(6.457663f, 10.197294f, -18.334061f),
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new RcVec3f(-1.433933f, 10.197294f, -1.359993f),
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new RcVec3f(12.184784f, 9.997294f, -18.941269f),
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new RcVec3f(0.863553f, 10.197294f, -10.310320f),
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new RcVec3f(18.784092f, 10.197294f, 3.054368f),
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};
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[Test]
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@ -78,14 +77,13 @@ public class MoveAlongSurfaceTest : AbstractDetourTest
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RcVec3f endPos = endPoss[i];
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var status = query.MoveAlongSurface(startRef, startPos, endPos, filter, out var result, ref visited);
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Assert.That(status.Succeeded(), Is.True);
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for (int v = 0; v < 3; v++)
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{
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Assert.That(result[v], Is.EqualTo(POSITION[i][v]).Within(0.01f));
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}
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Assert.That(result.X, Is.EqualTo(POSITION[i].X).Within(0.01f));
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Assert.That(result.Y, Is.EqualTo(POSITION[i].Y).Within(0.01f));
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Assert.That(result.Z, Is.EqualTo(POSITION[i].Z).Within(0.01f));
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Assert.That(visited.Count, Is.EqualTo(VISITED[i].Length));
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for (int j = 0; j < POSITION[i].Length; j++)
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for (int j = 0; j < 3; j++)
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{
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Assert.That(visited[j], Is.EqualTo(VISITED[i][j]));
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}
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