Implement the Cell class

author: Pacien TRAN-GIRARD 2016-02-22 14:45:17 +0100
committer: Pacien TRAN-GIRARD 2016-02-22 14:45:17 +0100
commit: 9809f6e226d593c1e717b8d6ab576d986da9cbe3 (patch)
tree: afbbd45f7a1674747a7971e59b2018ab883827c6 /src/ch
parent: d343ce4619f25610957573ab1e9d3618b3f606a3 (diff)
download: xblast-9809f6e226d593c1e717b8d6ab576d986da9cbe3.tar.gz
1 files changed, 196 insertions, 0 deletions
diff --git a/src/ch/epfl/xblast/Cell.java b/src/ch/epfl/xblast/Cell.java
new file mode 100644
index 0000000..d5b15e7
--- /dev/null
+++ b/src/ch/epfl/xblast/Cell.java
@@ -0,0 +1,196 @@
+package ch.epfl.xblast;
+import java.util.ArrayList;
+import java.util.Collections;
+import java.util.List;
+/**
+ * A Cell.
+ *
+ * @author Pacien TRAN-GIRARD (261948)
+ */
+public final class Cell {
+    /**
+     * The width of the board (number of columns).
+     */
+    public static final int COLUMNS = 15;
+    /**
+     * The height of the board (number of rows).
+     */
+    public static final int ROWS = 13;
+    /**
+     * The total number of Cell-s of the board.
+     */
+    public static final int COUNT = COLUMNS * ROWS;
+    /**
+     * The list of the board's Cell's, major-ordered.
+     */
+    public static final List<Cell> ROW_MAJOR_ORDER = Collections.unmodifiableList(rowMajorOrder());
+    /**
+     * The list of the board's Cell-s, spiral-ordered.
+     */
+    public static final List<Cell> SPIRAL_ORDER = Collections.unmodifiableList(spiralOrder());
+    /**
+     * Builds a major-ordered list of Cell-s.
+     *
+     * @return the list of Cell-s
+     */
+    private static ArrayList<Cell> rowMajorOrder() {
+        ArrayList<Cell> list = new ArrayList<>(COUNT);
+        for (int row = 0; row < ROWS; ++row)
+            for (int col = 0; col < COLUMNS; ++col)
+                list.add(new Cell(col, row));
+        return list;
+    }
+    /**
+     * Builds a spiral-ordered list of Cell-s.
+     *
+     * @return the list of Cell-s
+     */
+    private static ArrayList<Cell> spiralOrder() {
+        ArrayList<Cell> list = new ArrayList<>(COUNT);
+        ArrayList<Integer> ix = range(0, COLUMNS, 1);
+        ArrayList<Integer> iy = range(0, ROWS, 1);
+        boolean horizontal = true;
+        while (!ix.isEmpty() && !iy.isEmpty()) {
+            ArrayList<Integer> i1 = horizontal ? ix : iy;
+            ArrayList<Integer> i2 = horizontal ? iy : ix;
+            int c2 = i2.remove(0);
+            for (int c1 : i1)
+                list.add(horizontal ? new Cell(c1, c2) : new Cell(c2, c1));
+            Collections.reverse(i1);
+            horizontal = !horizontal;
+        }
+        return list;
+    }
+    /**
+     * Creates a list containing an arithmetic progression.
+     *
+     * @param from the starting value
+     * @param to   the boundary value
+     * @param step the arithmetic step
+     * @return the arithmetic progression
+     */
+    private static ArrayList<Integer> range(int from, int to, int step) {
+        int n = (to - from) / step;
+        ArrayList<Integer> list = new ArrayList<>(n);
+        for (int i = 0; i < n; ++i)
+            list.add(from + (i * step));
+        return list;
+    }
+    /**
+     * Normalizes the given number (using the integer floor modulus).
+     *
+     * @param max the maximum (the divisor)
+     * @param n   the number to normalize (the dividend)
+     * @return the normalized value
+     */
+    private static int normalize(int max, int n) {
+        return Math.floorMod(n, max);
+    }
+    /**
+     * The coordinates of the Cell.
+     */
+    private final int x, y;
+    /**
+     * Instantiates a new Cell with the given coordinates.
+     *
+     * @param x the x-coordinate
+     * @param y the y-coordinate
+     */
+    public Cell(int x, int y) {
+        this.x = normalize(COLUMNS, x);
+        this.y = normalize(ROWS, y);
+    }
+    /**
+     * Returns the normalized x-coordinate of the Cell.
+     *
+     * @return the x-coordinate
+     */
+    public int x() {
+        return this.x;
+    }
+    /**
+     * Returns the normalized y-coordinate of the Cell.
+     *
+     * @return the y-coordinate
+     */
+    public int y() {
+        return this.y;
+    }
+    /**
+     * Returns the index of the Cell (major ordered).
+     *
+     * @return the index of the Cell
+     */
+    public int rowMajorIndex() {
+        return this.x * ROWS + this.y;
+    }
+    /**
+     * Returns the neighboring Cell at the given Direction.
+     *
+     * @param dir the Direction
+     * @return the neighboring Cell
+     */
+    public Cell neighbor(Direction dir) {
+        switch (dir) {
+            case N:
+                return new Cell(this.x, this.y - 1);
+            case S:
+                return new Cell(this.x, this.y + 1);
+            case E:
+                return new Cell(this.x - 1, this.y);
+            case W:
+                return new Cell(this.x + 1, this.y);
+            default:
+                return null;
+        }
+    }
+    /**
+     * Returns T(the given Object is equal to this Cell (have the same coordinates)).
+     *
+     * @param that the Object to compare against
+     * @return T(the given Object is equal to this Cell)
+     */
+    @Override
+    public boolean equals(Object that) {
+        if (!super.equals(that)) return false;
+        if (!(that instanceof Cell)) return false;
+        return (((Cell) that).x == this.x && ((Cell) that).y == this.y);
+    }
+    /**
+     * Returns a String representation of the coordinates of the Cell.
+     *
+     * @return a String representation of the coordinates of the Cell.
+     */
+    @Override
+    public String toString() {
+        return String.format("(%d,%d)", this.x, this.y);
+    }
+}
author	Pacien TRAN-GIRARD	2016-02-22 14:45:17 +0100
committer	Pacien TRAN-GIRARD	2016-02-22 14:45:17 +0100
commit	9809f6e226d593c1e717b8d6ab576d986da9cbe3 (patch)
tree	afbbd45f7a1674747a7971e59b2018ab883827c6 /src/ch
parent	d343ce4619f25610957573ab1e9d3618b3f606a3 (diff)
download	xblast-9809f6e226d593c1e717b8d6ab576d986da9cbe3.tar.gz

diff --git a/src/ch/epfl/xblast/Cell.java b/src/ch/epfl/xblast/Cell.java new file mode 100644 index 0000000..d5b15e7 --- /dev/null +++ b/src/ch/epfl/xblast/Cell.java
@@ -0,0 +1,196 @@
	1	package ch.epfl.xblast;
	2
	3	import java.util.ArrayList;
	4	import java.util.Collections;
	5	import java.util.List;
	6
	7	/**
	8	* A Cell.
	9	*
	10	* @author Pacien TRAN-GIRARD (261948)
	11	*/
	12	public final class Cell {
	13
	14	/**
	15	* The width of the board (number of columns).
	16	*/
	17	public static final int COLUMNS = 15;
	18
	19	/**
	20	* The height of the board (number of rows).
	21	*/
	22	public static final int ROWS = 13;
	23
	24	/**
	25	* The total number of Cell-s of the board.
	26	*/
	27	public static final int COUNT = COLUMNS * ROWS;
	28
	29	/**
	30	* The list of the board's Cell's, major-ordered.
	31	*/
	32	public static final List<Cell> ROW_MAJOR_ORDER = Collections.unmodifiableList(rowMajorOrder());
	33
	34	/**
	35	* The list of the board's Cell-s, spiral-ordered.
	36	*/
	37	public static final List<Cell> SPIRAL_ORDER = Collections.unmodifiableList(spiralOrder());
	38
	39	/**
	40	* Builds a major-ordered list of Cell-s.
	41	*
	42	* @return the list of Cell-s
	43	*/
	44	private static ArrayList<Cell> rowMajorOrder() {
	45	ArrayList<Cell> list = new ArrayList<>(COUNT);
	46
	47	for (int row = 0; row < ROWS; ++row)
	48	for (int col = 0; col < COLUMNS; ++col)
	49	list.add(new Cell(col, row));
	50
	51	return list;
	52	}
	53
	54	/**
	55	* Builds a spiral-ordered list of Cell-s.
	56	*
	57	* @return the list of Cell-s
	58	*/
	59	private static ArrayList<Cell> spiralOrder() {
	60	ArrayList<Cell> list = new ArrayList<>(COUNT);
	61	ArrayList<Integer> ix = range(0, COLUMNS, 1);
	62	ArrayList<Integer> iy = range(0, ROWS, 1);
	63	boolean horizontal = true;
	64
	65	while (!ix.isEmpty() && !iy.isEmpty()) {
	66	ArrayList<Integer> i1 = horizontal ? ix : iy;
	67	ArrayList<Integer> i2 = horizontal ? iy : ix;
	68	int c2 = i2.remove(0);
	69	for (int c1 : i1)
	70	list.add(horizontal ? new Cell(c1, c2) : new Cell(c2, c1));
	71
	72	Collections.reverse(i1);
	73	horizontal = !horizontal;
	74	}
	75
	76	return list;
	77	}
	78
	79	/**
	80	* Creates a list containing an arithmetic progression.
	81	*
	82	* @param from the starting value
	83	* @param to the boundary value
	84	* @param step the arithmetic step
	85	* @return the arithmetic progression
	86	*/
	87	private static ArrayList<Integer> range(int from, int to, int step) {
	88	int n = (to - from) / step;
	89	ArrayList<Integer> list = new ArrayList<>(n);
	90
	91	for (int i = 0; i < n; ++i)
	92	list.add(from + (i * step));
	93
	94	return list;
	95
	96	}
	97
	98	/**
	99	* Normalizes the given number (using the integer floor modulus).
	100	*
	101	* @param max the maximum (the divisor)
	102	* @param n the number to normalize (the dividend)
	103	* @return the normalized value
	104	*/
	105	private static int normalize(int max, int n) {
	106	return Math.floorMod(n, max);
	107	}
	108
	109	/**
	110	* The coordinates of the Cell.
	111	*/
	112	private final int x, y;
	113
	114	/**
	115	* Instantiates a new Cell with the given coordinates.
	116	*
	117	* @param x the x-coordinate
	118	* @param y the y-coordinate
	119	*/
	120	public Cell(int x, int y) {
	121	this.x = normalize(COLUMNS, x);
	122	this.y = normalize(ROWS, y);
	123	}
	124
	125	/**
	126	* Returns the normalized x-coordinate of the Cell.
	127	*
	128	* @return the x-coordinate
	129	*/
	130	public int x() {
	131	return this.x;
	132	}
	133
	134	/**
	135	* Returns the normalized y-coordinate of the Cell.
	136	*
	137	* @return the y-coordinate
	138	*/
	139	public int y() {
	140	return this.y;
	141	}
	142
	143	/**
	144	* Returns the index of the Cell (major ordered).
	145	*
	146	* @return the index of the Cell
	147	*/
	148	public int rowMajorIndex() {
	149	return this.x * ROWS + this.y;
	150	}
	151
	152	/**
	153	* Returns the neighboring Cell at the given Direction.
	154	*
	155	* @param dir the Direction
	156	* @return the neighboring Cell
	157	*/
	158	public Cell neighbor(Direction dir) {
	159	switch (dir) {
	160	case N:
	161	return new Cell(this.x, this.y - 1);
	162	case S:
	163	return new Cell(this.x, this.y + 1);
	164	case E:
	165	return new Cell(this.x - 1, this.y);
	166	case W:
	167	return new Cell(this.x + 1, this.y);
	168	default:
	169	return null;
	170	}
	171	}
	172
	173	/**
	174	* Returns T(the given Object is equal to this Cell (have the same coordinates)).
	175	*
	176	* @param that the Object to compare against
	177	* @return T(the given Object is equal to this Cell)
	178	*/
	179	@Override
	180	public boolean equals(Object that) {
	181	if (!super.equals(that)) return false;
	182	if (!(that instanceof Cell)) return false;
	183	return (((Cell) that).x == this.x && ((Cell) that).y == this.y);
	184	}
	185
	186	/**
	187	* Returns a String representation of the coordinates of the Cell.
	188	*
	189	* @return a String representation of the coordinates of the Cell.
	190	*/
	191	@Override
	192	public String toString() {
	193	return String.format("(%d,%d)", this.x, this.y);
	194	}
	195
	196	}