package ch.asynk.tankontank.engine; import java.util.List; import java.util.Iterator; import java.util.ArrayList; import java.util.LinkedList; import com.badlogic.gdx.math.Vector2; import com.badlogic.gdx.math.Vector3; public class PossiblePaths implements Iterable { private final Board board; public Pawn pawn; public Tile from; public Tile to; public Orientation orientation; private List stack; private List ctrlTiles; private List> paths; private List> filteredPaths; private Board.TileCollection tiles; public PossiblePaths(Board board, int tSize, int stSize, int ftSize, int vectSize) { this.board = board; this.tiles = new TileSet(board, tSize); this.stack = new ArrayList(stSize); this.ctrlTiles = new ArrayList(ftSize); this.paths = new LinkedList>(); this.filteredPaths = new LinkedList>(); this.to = null; this.pawn = null; this.orientation = Orientation.KEEP; } public void init(Pawn pawn, Tile from) { this.pawn = pawn; this.from = from; } public void init(Pawn pawn) { init(pawn, pawn.getTile()); } public void clear() { for (List tiles : this.paths) tiles.clear(); for (List tiles : this.filteredPaths) tiles.clear(); this.stack.clear(); this.paths.clear(); this.ctrlTiles.clear(); this.filteredPaths.clear(); this.tiles.clear(); this.to = null; this.orientation = Orientation.KEEP; } public int size() { if (ctrlTiles.size() == 0) return paths.size(); return filteredPaths.size(); } public boolean contains(Tile tile) { return tiles.contains(tile); } public void enable(int i, boolean enable) { for (Tile tile : tiles) board.enableOverlayOn(tile, i, enable); } public int build(Tile to) { clear(); this.to = to; // from and to are not part of the path if (board.distance(from, to) == 1) { ArrayList temp = new ArrayList(0); // temp.add(from); // temp.add(to); paths.add(temp); for (Tile tile : temp) tiles.add(tile); } else { // stack.add(from); findAllPaths(from, pawn.getMovementPoints(), true); } // printToErr("paths", paths); stack.clear(); return paths.size(); } private void findAllPaths(Tile from, int mvtLeft, boolean roadMarch) { Tile moves[] = new Tile[6]; board.setAdjacentTiles(from, moves); for(int i = 0; i < 6; i++) { Tile next = moves[i]; if ((next == null) || next.isOffMap()) continue; int cost = next.costFrom(pawn, board.getSide(i)); int r = (mvtLeft - cost); boolean road = roadMarch & next.road(board.getSide(i)); if (road) r += pawn.getRoadMarchBonus(); if ((board.distance(next, to) <= r)) { if (next == to) { ArrayList temp = new ArrayList(stack.size() + 1); for (Tile t: stack) temp.add(t); // temp.add(next); paths.add(temp); for (Tile tile : temp) tiles.add(tile); } else { stack.add(next); findAllPaths(next, (mvtLeft - cost), road); stack.remove(stack.size() - 1); } } } } public int toggleCtrlTile(Tile tile) { if (ctrlTiles.contains(tile)) ctrlTiles.remove(tile); else ctrlTiles.add(tile); return filterPaths(); } private int filterPaths() { int s = ctrlTiles.size(); tiles.clear(); filteredPaths.clear(); for (ArrayList path : paths) { int ok = 0; for (Tile filter : ctrlTiles) { if (path.contains(filter)) ok += 1; } if (ok == s) { if (path.size() == (s + 0)) { // from and to are not part of the path filteredPaths.clear(); filteredPaths.add(path); tiles.clear(); for (Tile tile : path) tiles.add(tile); break; } else { filteredPaths.add(path); for (Tile tile : path) tiles.add(tile); } } } // printToErr("filteredPaths", filteredPaths); return filteredPaths.size(); } public void applyToPawn(int i) { pawn.movement.from = from; pawn.movement.to = to; pawn.movement.orientation = orientation; pathCost(i); } public int pathCost(int i) { int cost = 0; boolean roadMarch = true; Tile prev = from; for (Tile next : paths.get(i)) { Orientation o = Orientation.fromMove(next.col, next.row, prev.col, prev.row); cost += next.costFrom(pawn, o); roadMarch &= next.road(o); prev = next; } Orientation o = Orientation.fromMove(to.col, to.row, prev.col, prev.row); cost += to.costFrom(pawn, o); if (roadMarch) cost -= pawn.getRoadMarchBonus(); if (cost < 1) cost = 1; pawn.movement.cost = cost; pawn.movement.roadMarch = roadMarch; pawn.movement.distance = (1 + paths.get(i).size()); return cost; } private List getPath(int i) { if (ctrlTiles.size() == 0) return paths.get(0); return filteredPaths.get(0); } public int pathSteps(int idx) { int steps = 0; Tile tile = from; Orientation o = pawn.getOrientation(); for (Tile next : getPath(idx)) { Orientation nextO = Orientation.fromMove(tile.col, tile.row, next.col, next.row); if (nextO != o) { steps += 2; o = nextO; } else steps += 1; tile = next; } if (orientation != Orientation.fromMove(tile.col, tile.row, to.col, to.row)) steps += 2; else steps +=1; return steps; } @Override public Iterator iterator() { return new Vector3Iterator(pawn, from, to, orientation, getPath(0)); } private void printToErr(String what, List> paths) { System.err.println(what + " ("+paths.size()+")"); for (ArrayList path : paths) { System.err.println(" - path"); for(Tile tile : path) System.err.println(" " + tile); } System.err.println(); } } class Vector3Iterator implements Iterator { private Pawn pawn; private Tile to; private Orientation o; private Orientation orientation; private Tile tile; private Vector2 pos = new Vector2(); private Vector3 v = new Vector3(); private int i; private List path; public Vector3Iterator(Pawn pawn, Tile from, Tile to, Orientation orientation, List path) { this.pawn = pawn; this.to = to; this.tile = from; this.orientation = orientation; this.path = path; this.o = pawn.getOrientation(); this.v.set(pawn.getPosition().x, pawn.getPosition().y, o.r()); this.i = 0; } @Override public boolean hasNext() { if ((tile == to) && (o == orientation)) return false; return true; } @Override public Vector3 next() { if (tile == to) { v.z = orientation.r(); o = orientation; return v; } Tile nextTile; if (i < path.size()) nextTile = path.get(i); else nextTile = to; Orientation nextO = Orientation.fromMove(tile.col, tile.row, nextTile.col, nextTile.row); if (nextO != o) { v.z = nextO.r(); o = nextO; return v; } pawn.getPosAt(nextTile, pos); v.x = pos.x; v.y = pos.y; tile = nextTile; i += 1; return v; } @Override public void remove() { throw new UnsupportedOperationException(); } }