func getNextLocations(piece byte, allMoves *matrix.DenseMatrix, ellipse *matrix.DenseMatrix, baseNode *node.Node) []*node.Node { result := make([]*node.Node, 0, 20) x := baseNode.GetX() y := baseNode.GetY() next := baseNode.GetStep() + 1 // Start with the single move board var singleMove *matrix.DenseMatrix switch piece { case Pawn: singleMove = singlePawnMove case Rook: singleMove = singleRookMove case Knight: singleMove = singleKnightMove case Bishop: singleMove = singleBishopMove case Queen: singleMove = singleQueenMove case King: singleMove = singleKingMove case Puppy: singleMove = singlePuppyMove } singleMove = shiftMatrix(singleMove, x-8, y-8) singleMove = singleMove.GetMatrix(7, 0, 8, 8) // fmt.Println("(", x, ", ", y, ")") // fmt.Println("Single Move: \n", singleMove) // fmt.Println("\nAll Moves: \n", allMoves) // fmt.Println("\nEllipse: ", ellipse) for i := 0; i < 8; i++ { for j := 0; j < 8; j++ { // fmt.Println("(", i+1, ", ", 8-j, ") : single: ", singleMove.Get(j, i), "ellipse: ", ellipse.Get(j, i), "all: ", allMoves.Get(j, i)) if singleMove.Get(j, i) != 0 && ellipse.Get(j, i) != 0 && allMoves.Get(j, i) == float64(next) { // fmt.Println("New Child Node: (", i+1, ", ", 8-j, ")") var newNode *node.Node newNode = new(node.Node) newNode.SetX(i + 1) newNode.SetY(8 - j) newNode.SetStep(next) baseNode.AddChild(newNode) result = append(result, newNode) } } } return result }
func GetEllipse(piece byte, startX int, startY int, goalX int, goalY int, maxLength int) { start := GenerateMoveBoard(piece, startX, startY) result := matrix.Sum(start, GenerateMoveBoard(piece, goalX, goalY)) theGoalX = goalX theGoalY = goalY // Get lowest # min := float64(maxLength) // min := float64(100) // for i := 0; i < 8; i++ { // for j := 0; j < 8; j++ { // if result.Get(i, j) < min { // min = result.Get(i, j) // } // } // } // Remove unnecessary #s for i := 0; i < 8; i++ { for j := 0; j < 8; j++ { if result.Get(i, j) > min { result.Set(i, j, 0) } } } var root *node.Node root = new(node.Node) root.SetX(startX) root.SetY(startY) root.SetStep(0) // fmt.Println("Ellipse: \n", result) nodes := make([][]*node.Node, maxLength+1, maxLength+1) nodes[0] = make([]*node.Node, 0, 20) nodes[0] = append(nodes[0], root) for i := 1; i <= maxLength; i++ { // fmt.Println("i: ", i) nodes[i] = make([]*node.Node, 0, 20) for _, baseNode := range nodes[i-1] { // TODO: Improve append to check for duplicate nodes nodes[i] = append(nodes[i], getNextLocations(piece, start, result, baseNode)...) } } // fmt.Println(root) myPlot, _ = plot.New() // Create the board createBoard(myPlot) createSubPlots(root, nil, maxLength) myPlot.X.Min = .5 myPlot.X.Max = 8.5 myPlot.Y.Min = .5 myPlot.Y.Max = 8.5 // Add the start and end points pts := make(plotter.XYs, 2) pts[0].X = float64(startX) pts[0].Y = float64(startY) pts[1].X = float64(goalX) pts[1].Y = float64(goalY) s, _ := plotter.NewScatter(pts) s.GlyphStyle.Color = color.RGBA{R: 0, B: 0, A: 255} myPlot.Add(s) myPlot.Title.Text = "Total: " + strconv.Itoa(total) myPlot.Save(8*vg.Inch, 8*vg.Inch, "results.png") }