public Vector2 Next() { index++; return(new Vector2( Range * HaltonSequence.Base2(index), Range * HaltonSequence.Base3(index))); }
private async Task <List <Element> > GenerateElements(Terrain terrain, Rect rect, MassiveGrassProfile profile, int haltonOffset) { var context = SynchronizationContext.Current; var terrainPos = terrain.transform.position; var terrainSize = terrain.terrainData.size.x; var terrainXZPos = new Vector2(terrainPos.x, terrainPos.z); var localRect = new Rect(rect.min - terrainXZPos, rect.size); var localNormalizedRect = new Rect(localRect.position / terrainSize, localRect.size / terrainSize); var haltons = new Vector2[profile.AmountPerBlock]; var normalizedPositions = new Vector2[profile.AmountPerBlock]; var heights = new float[profile.AmountPerBlock]; var normals = new Vector3[profile.AmountPerBlock]; var list = new List <Element>(); var done = false; var range = Enumerable.Range(0, profile.AmountPerBlock).ToArray(); list.AddRange(range.Select(_ => default(Element))); await Task.Run(() => { for (var i = 0; i < profile.AmountPerBlock; i++) { haltons[i] = new Vector2( HaltonSequence.Base2(i + haltonOffset + profile.Seed), HaltonSequence.Base3(i + haltonOffset + profile.Seed)); normalizedPositions[i] = localNormalizedRect.min + haltons[i] * localNormalizedRect.size; } }); await Task.Run(async() => { context.Post(_ => { for (var i = 0; i < profile.AmountPerBlock; i++) { if (terrain == null) { break; } var normalizedPosition = normalizedPositions[i]; heights[i] = terrain.terrainData.GetInterpolatedHeight(normalizedPosition.x, normalizedPosition.y); normals[i] = terrain.terrainData.GetInterpolatedNormal(normalizedPosition.x, normalizedPosition.y); } done = true; }, null); }); while (!done) { await Task.Delay(1); } await Task.Run(() => { for (var i = 0; i < profile.AmountPerBlock; i++) { var haltonPos = haltons[i]; var position = haltonPos *rect.size + rect.min; var normalizedPosition = localNormalizedRect.min + haltons[i] * localNormalizedRect.size; list[i] = new Element( i, new Vector3(position.x, heights[i], position.y), normalizedPosition, normals[i]); } }); return(list); }
private async Task <List <Element> > GenerateElements(Terrain terrain, Rect rect, MassiveGrassProfile profile, int haltonOffset) { var list = new List <Element>(); var terrainPos = terrain.transform.position; var terrainSize = terrain.terrainData.size.x; var terrainXZPos = new Vector2(terrainPos.x, terrainPos.z); var localRect = new Rect(rect.min - terrainXZPos, rect.size); var localNormalizedRect = new Rect(localRect.position / terrainSize, localRect.size / terrainSize); for (var i = 0; i < profile.AmountPerBlock; i++) { var haltonPos = new Vector2(HaltonSequence.Base2(i + haltonOffset), HaltonSequence.Base3(i + haltonOffset)); var normalizedPosition = localNormalizedRect.min + haltonPos * localNormalizedRect.size; var height = terrain.terrainData.GetInterpolatedHeight(normalizedPosition.x, normalizedPosition.y); var normal = terrain.terrainData.GetInterpolatedNormal(normalizedPosition.x, normalizedPosition.y); var position = haltonPos * rect.size + rect.min; list.Add( new Element( i, new Vector3(position.x, height, position.y), normalizedPosition, normal)); } return(list); }