public IEnumerator CornerCheck() { GenData dat = new GenData(20, 15); GenRoom r1 = GenRoom.Sized(8, 8); r1.FillFloor('.'); r1.SpacePriority = 2; dat.PlaceRoom(0, 0, r1); GenRoom r2 = GenRoom.Sized(10, 7); r2.FillFloor('.'); r2.SpacePriority = 1; dat.PlaceRoom(5, 4, r2); dat.FixOverlap(); dat.EdgeWalls('#'); TestDrawer.text = dat.Print(false); yield return(new WaitForSeconds(0.5f)); for (int x = 0; x < 20; x++) { for (int y = 0; y < 15; y++) { if (dat.IsCornerG(x, y)) { GenRoom corner = GenRoom.Sized(1, 1); corner.FillFloor('X'); dat.PlaceRoom(x, y, corner); TestDrawer.text = dat.Print(false); yield return(new WaitForSeconds(0.25f)); } } } }
public static IEnumerator GetSimpleTemple() { GenData temple = new GenData(Random.Range(TempleWidth.start, TempleWidth.end), Random.Range(TempleHeight.start, TempleHeight.end)); List <GenRoom> AutoFillRoom = new List <GenRoom>(); // list of all rooms that are not allowed to be used for door placement List <GenRoom> NoAutoDoor = new List <GenRoom>(); List <GenRoom> SecretRooms = new List <GenRoom>(); GenTile Chest = GenTile.GetEmpty(); Chest.Details.Add(new GenDetail() { Char = '=', Type = GenDetail.DetailType.Entity, Entity = GenDetail.EntityType.Chest }); GenTile pillar = GenTile.GetEmpty(); //pillar.Details.Add(new GenDetail() { Char = '\u01C1', Type = GenDetail.DetailType.Decoration }); pillar.Details.Add(new GenDetail() { Char = 'O', Type = GenDetail.DetailType.Decoration }); GenTile[,] pillars = new GenTile[, ] { { GenTile.Copy(pillar), GenTile.Copy(pillar) }, { GenTile.Copy(pillar), GenTile.Copy(pillar) } }; GenTile Door = GenTile.GetEmpty(); Door.Details.Add(new GenDetail() { Char = '+', Type = GenDetail.DetailType.Door, Entity = GenDetail.EntityType.Door }); GenRoom outer = GenRoom.Sized(temple.Width, temple.Height); outer.FillFloor('+'); outer.SpacePriority = -2; temple.PlaceRoom(0, 0, outer); temple.EdgeWalls('#', outer); // ----------- Log(temple); if (Logging != null) { yield return(new WaitForSeconds(0.25f)); } // ----------- int w = Random.Range(9, 12); int h = Random.Range(10, 16); // EntryHall temple.TryGrowRect(1, outer.Outer.GetCenter().y, w, h, out GenRect EntrySize, false); GenRoom EntryHall = GenRoom.At(EntrySize.MinX, EntrySize.MinY, EntrySize.WidthT, EntrySize.HeightT); EntryHall.FillFloor('.'); temple.PlaceRoom(EntrySize.MinX, EntrySize.MinY, EntryHall); temple.EdgeWalls('#'); EntryHall.GetAtWorldspaceG( EntrySize.MinX + 1, EntrySize.GetCenter().y) .Details .Add(new GenDetail() { Char = '>', Type = GenDetail.DetailType.Entity, Entity = GenDetail.EntityType.StairsDown }); int posX = EntrySize.MinX + 2; int posy = EntrySize.MinY + 2; GenTile[,] sym = GenUtil.GetSymetry(pillars.GetCopy(), ref posX, ref posy, EntryHall, GenUtil.Axis.Horizontal | GenUtil.Axis.Vertical); EntryHall.PlaceDetailsAt(posX, posy, sym); temple.FixOverlap(); // ----------- Log(temple); if (Logging != null) { yield return(new WaitForSeconds(0.25f)); } // ----------- // hall to big thing int whall = Random.Range(10, 25); int hhall = Random.Range(5, 7); int space = Random.Range(2, 4); temple.TryGrowRect(EntrySize.MaxX + 1, EntrySize.GetCenter().y, whall, hhall, out GenRect HallSize); GenRoom PillarHall = GenRoom.Sized(HallSize.WidthT, HallSize.HeightT); PillarHall.FillFloor('.'); PillarHall.SpacePriority = 3; temple.PlaceRoom(HallSize.MinX, HallSize.MinY, PillarHall); temple.EdgeWalls('#', PillarHall); NoAutoDoor.Add(PillarHall); // place doors to the entry if (hhall == 5) { // a single door in the middle PillarHall.AddDetails(HallSize.MinX, HallSize.MinY + 2, GenTile.Copy(Door)); PillarHall.AddDetails(HallSize.MaxX, HallSize.MinY + 2, GenTile.Copy(Door)); } else { // place symetric doors PillarHall.AddDetails(HallSize.MinX, HallSize.MinY + 2, GenTile.Copy(Door)); PillarHall.AddDetails(HallSize.MinX, HallSize.MinY + 3, GenTile.Copy(Door)); PillarHall.AddDetails(HallSize.MaxX, HallSize.MinY + 2, GenTile.Copy(Door)); PillarHall.AddDetails(HallSize.MaxX, HallSize.MinY + 3, GenTile.Copy(Door)); } int currBar = HallSize.MinX + space; GenTile[,] singlePillar = new GenTile[, ] { { GenTile.Copy(pillar) } }; while (temple.IsInsideRoom(currBar, HallSize.MinY + 1, PillarHall)) { int fx = currBar; int fy = HallSize.MinY + 1; GenTile[,] feature = GenUtil.GetSymetry(singlePillar, ref fx, ref fy, PillarHall, GenUtil.Axis.Vertical); PillarHall.PlaceDetailsAt(fx, fy, feature); currBar += space; } temple.FixOverlap(); // ----------- Log(temple); if (Logging != null) { yield return(new WaitForSeconds(0.25f)); } // ----------- // holy water or something int waterHeight = Random.Range(2, 4); int waterWidth = Random.Range(2, 4); int waterPillarWidth = Random.Range(2, 3); int waterRoomHeight = waterHeight + 4 + waterPillarWidth * 2; int waterRoomWidth = waterWidth + 6 + waterPillarWidth * 2; temple.TryGrowRect(HallSize.MaxX + 1, HallSize.GetCenter().y, waterRoomWidth, waterRoomHeight, out GenRect WaterSize, false, GenUtil.Direction4.Top); GenRoom waterRoom = GenRoom.Sized(WaterSize.WidthT, WaterSize.HeightT); waterRoom.FillFloor(); waterRoom.SpacePriority = 2; temple.PlaceRoom(WaterSize.MinX, WaterSize.MinY, waterRoom); temple.EdgeWalls('#', waterRoom); int BackDoorWater = Random.Range(1, waterRoom.Height / 2); waterRoom.AddDetails(WaterSize.MaxX, WaterSize.MinY + BackDoorWater, GenTile.Copy(Door)); waterRoom.AddDetails(WaterSize.MaxX, WaterSize.MaxY - BackDoorWater, GenTile.Copy(Door)); GenTile waterSingle = GenTile.GetEmpty(); waterSingle.Details.Add(new GenDetail() { Char = '~', Type = GenDetail.DetailType.Background }); GenTile[,] water = GenUtil.Fill(waterWidth, waterHeight, waterSingle); waterRoom.PlaceDetailsAt(WaterSize.MinX + 3 + waterPillarWidth, WaterSize.MinY + 2 + waterPillarWidth, water); int waterPX = WaterSize.MinX + 3; int waterPY = WaterSize.MinY + 2; GenTile[,] waterPillarPlace = GenUtil.GetSymetry(pillars.GetCopy(), ref waterPX, ref waterPY, waterRoom, GenUtil.Axis.Horizontal | GenUtil.Axis.Vertical); waterRoom.PlaceDetailsAt(waterPX, waterPY, waterPillarPlace); temple.FixOverlap(); // ----------- Log(temple); if (Logging != null) { yield return(new WaitForSeconds(0.25f)); } // ----------- // pillar spam int spamWidth = Random.Range(10, 20); int spamHeight = WaterSize.HeightT + Random.Range(8, 15); temple.TryGrowRect(WaterSize.MaxX + 1, WaterSize.GetCenter().y, spamWidth, spamHeight, out GenRect SpamSize, true, GenUtil.Direction4.Top); GenRoom Spam = GenRoom.Sized(SpamSize.WidthT, SpamSize.HeightT); Spam.FillFloor(); Spam.SpacePriority = 1; temple.PlaceRoom(SpamSize.MinX, SpamSize.MinY, Spam); temple.EdgeWalls('#', Spam); int spamPX = SpamSize.MinX + 2; int spamPY = SpamSize.MinY + 2; for (int x = spamPX; temple.IsInsideRoom(x, spamPY, Spam); x += 2) { for (int y = spamPY; temple.IsInsideRoom(x, y, Spam); y += 2) { GenTile p = GenTile.Copy(pillar); Spam.AddDetails(x, y, p); } } Spam.AddDetail( SpamSize.MaxX - 1, SpamSize.GetCenter().y, new GenDetail() { Char = '<', Type = GenDetail.DetailType.Entity, Entity = GenDetail.EntityType.StairsUp }); temple.FixOverlap(); // ----------- Log(temple); if (Logging != null) { yield return(new WaitForSeconds(0.25f)); } // ----------- //temple.Rooms.Remove(outer); // we dont have boundries for (int x = outer.Inner.MinX; x < outer.Outer.MaxX; x++) { for (int y = outer.Inner.MinY; y < outer.Outer.MaxY; y++) { outer.RemoveTileAtG(x, y); } } //GenRoom Mark = GenRoom.Sized(0, 0); //Mark.FillFloor('X'); //Mark.SpacePriority = 100; // lets go ham with randomly sized rooms int spawnAttemptsRemaining = 1000; while (spawnAttemptsRemaining-- > 0)// lol the arrow { int rWidth = Random.Range(RandomWidth.start, RandomWidth.end); int rHeight = Random.Range(RandomHeight.start, RandomHeight.end); int rX = Random.Range(2, temple.Width - 2); int rY = Random.Range(2, temple.Height - 2); GenRect rHopeSize = new GenRect(rX, rX + rWidth + 1, rY, rY + rWidth - 1); if (temple.IsInsideRoom(rX, rY) || temple.GetTile(rX, rY) != null) { continue; } temple.TryGrowRect(rX, rY, rWidth, rHeight, out GenRect rSize, true); GenRoom add = GenRoom.Sized(rSize.WidthT, rSize.HeightT); add.FillFloor(); add.SpacePriority = 01; temple.PlaceRoom(rSize.MinX, rSize.MinY, add); AutoFillRoom.Add(add); temple.EdgeWalls('#', add); temple.FixOverlap(); /* * if (rWidth * 2 < rHeight || rHeight * 2 < rWidth) * { * if (Random.Range(0,10)>4) * { * // we are making a hallway * * //TODO: hallway * * temple.PlaceRoom(rX, rY, Mark); * Log(temple); * if (Logging!=null) * { * yield return new WaitForSeconds(0.25f); * } * temple.Rooms.Remove(Mark); * continue; * } * } */ /* * int randomChance = Random.Range(0, 4); * switch (randomChance) * { * case 0: * // random pillars in the room * * for (int i = 0; i < 7 + (rSize.WidthT + rSize.HeightT)/5; i++) * { * int px = Random.Range(rSize.MinX + 1, rSize.MaxX); * int py = Random.Range(rSize.MinY + 1, rSize.MaxY); * add.AddDetails(px, py, pillar); * } * * break; * case 1: * // random water * for (int i = 0; i < 15 + (rSize.WidthT + rSize.HeightT)/3; i++) * { * int px = Random.Range(rSize.MinX + 1, rSize.MaxX); * int py = Random.Range(rSize.MinY + 1, rSize.MaxY); * GenDetail littleWater= new GenDetail() { Char = '~', Type = GenDetail.DetailType.Background}; * add.AddDetail(px, py, littleWater); * } * break; * case 2: * // random room inside if possible else empty * if (rSize.WidthT>=7&& rSize.HeightT >= 7) * { * int insideX = rSize.GetCenter().x; * int insideY = rSize.GetCenter().y; * * temple.TryGrowRect(insideX, insideY, 100, 100, out GenRect insideSize, false); * GenRoom inside = GenRoom.Sized(insideSize.WidthT, insideSize.HeightT); * inside.FillFloor(); * inside.SpacePriority = 2; * temple.PlaceRoom(insideSize.MinX, insideSize.MinY, inside); * temple.EdgeWalls('#',inside); * temple.FixOverlap(); * * } * else * { * for (int i = 0; i < 7; i++) * { * int px = Random.Range(rSize.MinX + 1, rSize.MaxX); * int py = Random.Range(rSize.MinY + 1, rSize.MaxY); * add.AddDetails(px, py, pillar); * } * } * break; * default: * break; * } * * Log(temple); * if (Logging!=null) * { * yield return new WaitForSeconds(0.25f); * } */ } // ----------- Log(temple); if (Logging != null) { yield return(new WaitForSeconds(0.25f)); } // ----------- // now fill the rooms with things var adjList = temple.GetAdjacentRoomMap(); // remove any Room that is too small and have no connections List <GenRoom> tooSmall = new List <GenRoom>(); foreach (var room in temple.Rooms) { if (room.Width >= 5 && room.Height == 3) { tooSmall.Add(room); continue; } if (room.Height >= 5 && room.Width == 3) { tooSmall.Add(room); continue; } if (room.Height <= 3 && room.Width <= 3) { tooSmall.Add(room); continue; } if (adjList[room].Count == 0) { tooSmall.Add(room); continue; } } foreach (var room in tooSmall) { temple.Rooms.Remove(room); } // ----------- Log(temple); if (Logging != null) { yield return(new WaitForSeconds(0.25f)); } // ----------- List <GenRoom> PotentialSecret = new List <GenRoom>(); foreach (var room in temple.Rooms) { if (room.Width + room.Height <= 12) { PotentialSecret.Add(room); } } Debug.Log("potential " + PotentialSecret.Count + "Secret rooms"); // 1 room --> 0,1,2,3 // 2 room --> 4,5 int SecretCount = Mathf.Min(Mathf.FloorToInt(Mathf.Sqrt(Random.Range(1, 6))), PotentialSecret.Count); // this goes to 5 Debug.Log(SecretCount + " Secret rooms chosen"); foreach (var secret in PotentialSecret.GetRandom(SecretCount)) { // we get random door // add a chest // remove it from door spawn GenPositionTile entry = temple.GetDoorableTiles(secret.GetAllTiles()).GetRandom(); secret.AddDetail(entry.PositionG.x, entry.PositionG.y, new GenDetail() { Char = '*', Entity = GenDetail.EntityType.Door, Type = GenDetail.DetailType.Door }); GenPositionTile myChest = secret .GetAllTiles() .Where(t => temple.IsInsideRoom(t.PositionG.x, t.PositionG.y, secret) && temple.IsCornerGR(t.PositionG.x, t.PositionG.y, secret)) .ToList() .GetRandom(); secret.AddDetails(myChest.PositionG.x, myChest.PositionG.y, GenTile.Copy(Chest)); AutoFillRoom.Remove(secret); SecretRooms.Add(secret); NoAutoDoor.Add(secret); } // ----------- Log(temple); if (Logging != null) { yield return(new WaitForSeconds(0.25f)); } // ----------- // go through all other rooms and determin what they are foreach (GenRoom room in AutoFillRoom) { // ----------- Log(temple); if (Logging != null) { yield return(new WaitForSeconds(0.25f)); } // ----------- // pillar hallway if (room.Height <= 7 && room.Height >= 5 && room.Width > 6) { // potential horizontal hallway if (Random.value < 0.4f) { // hallway confirmed // left to right GenTile[,] p = new GenTile[, ] { { GenTile.Copy(pillar) } }; int spacing = Random.Range(2, 5); int tmpX = room.Outer.MinX + spacing; int tmpY = room.Outer.MinY + 1; p = GenUtil.GetSymetry(p, ref tmpX, ref tmpY, room, GenUtil.Axis.Vertical); while (temple.IsInsideRoom(tmpX, tmpY, room)) { room.PlaceDetailsAt(tmpX, tmpY, p); tmpX = tmpX + spacing; } int enemyCount = Random.Range(0, 4); for (int i = 0; i < enemyCount; i++) { SpawnEnemy(temple, room); } int itemCount = Random.Range(-1, 3); for (int i = 0; i < itemCount; i++) { SpawnItem(temple, room, true); } int chestCount = Random.Range(-2, 2); for (int i = 0; i < chestCount; i++) { SpawnChest(temple, room, true); } continue; } } if (room.Width <= 7 && room.Width >= 5 && room.Height > 6) { // potential horizontal hallway if (Random.value < 0.4f) { // hallway confirmed // left to right GenTile[,] p = new GenTile[, ] { { GenTile.Copy(pillar) } }; int spacing = Random.Range(2, 5); int tmpX = room.Outer.MinX + 1; int tmpY = room.Outer.MinY + spacing; p = GenUtil.GetSymetry(p, ref tmpX, ref tmpY, room, GenUtil.Axis.Horizontal); while (temple.IsInsideRoom(tmpX, tmpY, room)) { room.PlaceDetailsAt(tmpX, tmpY, p); tmpY = tmpY + spacing; } int enemyCount = Random.Range(0, 4); for (int i = 0; i < enemyCount; i++) { SpawnEnemy(temple, room); } int itemCount = Random.Range(-1, 3); for (int i = 0; i < itemCount; i++) { SpawnItem(temple, room, true); } int chestCount = Random.Range(-2, 2); for (int i = 0; i < chestCount; i++) { SpawnChest(temple, room, true); } continue; } } if (room.Height >= 8 && room.Width >= 8) { // can either be pillar spam or room in room if (Random.value < 0.6f) { if (Random.value < 0.7f && room.Width % 2 == 1 && room.Height % 2 == 1) { // pillar spam for (int x = 2; x < room.Width - 2; x += 2) { for (int y = 2; y < room.Height - 2; y += 2) { room.AddDetails(room.PosX + x, room.PosY + y, GenTile.Copy(pillar)); } } int enemyCount = Random.Range(0, 5); for (int i = 0; i < enemyCount; i++) { SpawnEnemy(temple, room); } int itemCount = Random.Range(-1, 3); for (int i = 0; i < itemCount; i++) { SpawnItem(temple, room, true); } int chestCount = Random.Range(-3, 3); for (int i = 0; i < chestCount; i++) { SpawnChest(temple, room, true); } } else { // room in room // find where to put the inner room temple.TryGrowRect(room.Inner.GetCenter().x, room.Inner.GetCenter().y, 100, 100, out GenRect InnerSize); if (InnerSize.WidthT >= 4 && InnerSize.HeightT >= 4) { if (InnerSize.WidthT >= 10 || InnerSize.HeightT >= 10) { if (Mathf.Abs(InnerSize.WidthT - InnerSize.HeightT) > 3) { // we want to divide if (InnerSize.WidthT > InnerSize.HeightT) { // divide left and right int singleWidth = InnerSize.WidthT / 2 - 2; // left GenRect LeftRoom = new GenRect(InnerSize.MinX, InnerSize.MinX + singleWidth, InnerSize.MinY, InnerSize.MaxY); // right GenRect RightRoom = new GenRect(InnerSize.MaxX - singleWidth, InnerSize.MaxX, InnerSize.MinY, InnerSize.MaxY); GenRoom left = GenRoom.Sized(LeftRoom.WidthT, LeftRoom.HeightT); left.FillFloor(); left.SpacePriority = 4; GenRoom right = GenRoom.Sized(RightRoom.WidthT, RightRoom.HeightT); right.FillFloor(); right.SpacePriority = 4; temple.PlaceRoom(LeftRoom.MinX, LeftRoom.MinY, left); temple.PlaceRoom(RightRoom.MinX, RightRoom.MinY, right); NoAutoDoor.Add(left); NoAutoDoor.Add(right); temple.EdgeWalls('#', left); temple.EdgeWalls('#', right); temple.FixOverlap(); // ----------- Log(temple); if (Logging != null) { yield return(new WaitForSeconds(0.25f)); } // ----------- var leftDoor = temple.GetDoorableTiles(left.GetAllTiles()).GetRandom(1); var rightDoor = temple.GetDoorableTiles(right.GetAllTiles()).GetRandom(1); for (int i = 0; i < leftDoor.Count; i++) { left.AddDetails(leftDoor[i].PositionG.x, leftDoor[i].PositionG.y, GenTile.Copy(Door)); } for (int i = 0; i < rightDoor.Count; i++) { right.AddDetails(rightDoor[i].PositionG.x, rightDoor[i].PositionG.y, GenTile.Copy(Door)); } SpawnItem(temple, left); SpawnItem(temple, right); if (Random.value < 0.4f) { SpawnItem(temple, right); } if (Random.value < 0.4f) { SpawnItem(temple, left); } if (Random.value < 0.2f) { SpawnChest(temple, left, true); } if (Random.value < 0.2f) { SpawnChest(temple, left, true); } } else { // divide top bot Debug.Log("currently not implemented, sorry"); } } } else { // one single room if (InnerSize.WidthT > 5) { InnerSize = InnerSize.Transform(-1, 0, -1, 0); } if (InnerSize.HeightT > 5) { InnerSize = InnerSize.Transform(0, -1, 0, -1); } Debug.Log("HERE"); GenRoom single = GenRoom.Sized(InnerSize.WidthT, InnerSize.HeightT); single.SpacePriority = 4; single.FillFloor(); NoAutoDoor.Add(single); temple.PlaceRoom(InnerSize.MinX, InnerSize.MinY, single); temple.EdgeWalls('#', single); temple.FixOverlap(); // ----------- Log(temple); if (Logging != null) { yield return(new WaitForSeconds(0.25f)); } // ----------- // double doors var doorables = single.GetAllTiles();// single.GetEdge().ToList(); var theDoors = temple.GetDoorableTiles(doorables).GetRandom(2); for (int i = 0; i < theDoors.Count; i++) { single.AddDetails(theDoors[i].PositionG.x, theDoors[i].PositionG.y, GenTile.Copy(Door)); } SpawnItem(temple, single); if (Random.value < 0.2f) { SpawnChest(temple, single, true); } if (Random.value < 0.2f) { SpawnChest(temple, single, true); } } } SpawnEnemy(temple, room); if (Random.value < 0.5f) { SpawnEnemy(temple, room); } if (Random.value < 0.2f) { SpawnEnemy(temple, room); } } continue; } } // something random //room.FillFloor('~'); SpawnEnemy(temple, room); SpawnEnemy(temple, room); if (Random.value < 0.5f) { SpawnEnemy(temple, room); } if (Random.value < 0.2f) { SpawnEnemy(temple, room); } SpawnItem(temple, room); if (Random.value < 0.3f) { SpawnItem(temple, room); } if (Random.value < 0.3f) { SpawnItem(temple, room); } if (Random.value < 0.4f) { SpawnChest(temple, room); } if (Random.value < 0.1f) { SpawnChest(temple, room); } } List <GenRoom> RequireDoor = new List <GenRoom>(temple.Rooms); foreach (var doo in NoAutoDoor) { RequireDoor.Remove(doo); } List <GenRoom> DoorIteration = new List <GenRoom>(RequireDoor); GenRoom start = EntryHall; Dictionary <GenRoom, List <GenRoom> > adj = temple.GetAdjacentRoomMap(); void RandomDoorTo(GenRoom a, GenRoom b) { var tiles = temple.GetDoorableTiles(temple.GetConnectingTiles(a, b)); var location = tiles.GetRandom(); a.AddDetails(location.PositionG.x, location.PositionG.y, GenTile.Copy(Door)); } while (RequireDoor.Count > 0) { DoorIteration.Clear(); DoorIteration.AddRange(RequireDoor); foreach (var room in DoorIteration) { if (temple.IsReachable(start, room)) { // reachable so we dont have to do a thing RequireDoor.Remove(room); } else { // place random door var available = adj[room]; RandomDoorTo(room, available.GetRandom()); } // ----------- Log(temple); if (Logging != null) { yield return(new WaitForSeconds(0.1f)); } // ----------- } } foreach (var room in adj[Spam].GetRandom(2)) { RandomDoorTo(Spam, room); } Log(temple); Debug.Log("Done"); LastOutput = GenUtil.Print(temple, false); Done?.Invoke(); }
public IEnumerator GrowTest() { TestDrawer.text = "Grow Test"; GenUtil.PrintCount = 0; GenData growArea = new GenData(40, 25); GenRoom left = GenRoom.Sized(10, 15); left.FillFloor('.'); growArea.PlaceRoom(0, 0, left); GenRoom right = GenRoom.Sized(10, 15); right.FillFloor('.'); growArea.PlaceRoom(11, 0, right); growArea.EdgeWalls('#'); TestDrawer.text = growArea.Print(false); yield return(new WaitForSeconds(1f)); for (int x = 0; x < 8; x++) { for (int y = 0; y < 13; y++) { { TestDrawer.text = growArea.Print(false); //yield return new WaitForSeconds(0.05f); bool sucL = growArea.TryGrowRect(1 + x, 1 + y, 5, 6, out GenRect oL, true); GenRoom resultL = GenRoom.Sized(oL.WidthT, oL.HeightT); resultL.FillFloor('O'); growArea.PlaceRoom(oL.MinX, oL.MinY, resultL); growArea.EdgeWalls('#'); bool sucR = growArea.TryGrowRect(12 + x, 1 + y, 5, 6, out GenRect oR, false); GenRoom resultR = GenRoom.Sized(oR.WidthT, oR.HeightT); resultR.FillFloor('O'); growArea.PlaceRoom(oR.MinX, oR.MinY, resultR); growArea.EdgeWalls('#'); GenRoom dotL = GenRoom.Sized(1, 1); dotL.FillFloor('+'); growArea.PlaceRoom(1 + x, 1 + y, dotL); GenRoom dotR = GenRoom.Sized(1, 1); dotR.FillFloor('X'); growArea.PlaceRoom(12 + x, 1 + y, dotR); TestDrawer.text = growArea.Print(false); yield return(new WaitForSeconds(0.50f)); growArea.Rooms.Remove(dotR); growArea.Rooms.Remove(dotL); growArea.Rooms.Remove(resultL); growArea.Rooms.Remove(resultR); } } } /* * for (int x = 0; x < 8; x++) * { * for (int y = 0; y < 13; y++) * { * * { * TestDrawer.text = growArea.Print(false); * //yield return new WaitForSeconds(0.05f); * * bool suc = growArea.TryGrowRect(3 + x, 3 + y, 5, 6, out GenRect o, false); * * GenRoom result = GenRoom.Sized(o.WidthT, o.HeightT); * result.FillFloor('O'); * growArea.PlaceRoom(o.MinX, o.MinY, result); * growArea.EdgeWalls('#'); * * GenRoom dot = GenRoom.Sized(1, 1); * dot.FillFloor('X'); * growArea.PlaceRoom(3 + x, 3 + y, dot); * * TestDrawer.text = growArea.Print(false); * yield return new WaitForSeconds(0.50f); * * growArea.Rooms.Remove(dot); * growArea.Rooms.Remove(result); * } * } * } * */ }
public IEnumerator RunGenerationTest() { GenUtil.PrintCount = 0; GenData sym = new GenData(20, 15); GenRoom Hallway = GenRoom.Sized(15, 5); Hallway.FillFloor('.'); Hallway.SpacePriority = 2; sym.PlaceRoom(1, 1, Hallway); TestDrawer.text = sym.Print(false); yield return(new WaitForSeconds(1f)); GenRoom OtherRooom = GenRoom.Sized(8, 10); OtherRooom.FillFloor('.'); OtherRooom.SpacePriority = 3; sym.PlaceRoom(11, 3, OtherRooom); TestDrawer.text = sym.Print(false); yield return(new WaitForSeconds(1f)); sym.EdgeWalls('#'); TestDrawer.text = sym.Print(false); yield return(new WaitForSeconds(1f)); OtherRooom.SpacePriority = 1; sym.FixOverlap(); TestDrawer.text = sym.Print(false); yield return(new WaitForSeconds(1f)); int wantX = 3; int wantY = 2; bool done = false; while (!done) { var got = Hallway.GetAtWorldspaceG(wantX, wantY); if (!sym.IsInsideRoom(wantX, wantY)) { done = true; } else { GenTile tile = GenTile.GetEmpty(); tile.Details.Add(new GenDetail() { Type = GenDetail.DetailType.Decoration, Char = 'O' }); GenTile[,] feature = new GenTile[, ] { { tile } }; int fposX = wantX; int fposY = wantY; GenTile[,] final = GenUtil.GetSymetry(feature, ref fposX, ref fposY, Hallway, GenUtil.Axis.Vertical); Hallway.SetTilesAtG(fposX, fposY, final); TestDrawer.text = sym.Print(false); yield return(new WaitForSeconds(0.5f)); wantX += 2; } } for (int x = 0; x < 20; x++) { for (int y = 0; y < 15; y++) { if (sym.IsCornerG(x, y, GenDetail.DetailType.Wall, GenDetail.DetailType.Decoration)) { GenRoom corner = GenRoom.Sized(1, 1); corner.FillFloor('X'); sym.PlaceRoom(x, y, corner); TestDrawer.text = sym.Print(false); yield return(new WaitForSeconds(0.25f)); } } } /* * GenData data = new GenData(40, 20); * * GenRoom startRoom = GenRoom.Sized(5,8,true); * startRoom.SpacePriority = 0; * * GenRoom room2 = GenRoom.Sized(8, 8, true); * room2.FillFloor('a'); * * GenRoom room3 = GenRoom.Sized(5, 5, true); * room3.FillFloor('b'); * room3.SpacePriority = 2; * * GenRoom room4 = GenRoom.Sized(10, 10, true); * room4.FillFloor('c'); * * data.PlaceRoom(1, 0, startRoom); * data.PlaceRoom(4, 1, room2); * data.PlaceRoom(25, 11, room3); * data.PlaceRoom(23, 3, room4); * * data.FixOverlap(); * data.EdgeWalls('#'); * * data.Print(false); */ }