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Merge pull request 'Shape_Piece_Map' (#15) from Shape_Piece_Map into master
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Reviewed-on: #15
Reviewed-by: BrokenBrad <eddyjiofak@gmail.com>
Reviewed-by: Mat_02 <diletomatteo@gmail.com>
This commit is contained in:
Debucquoy Anthony 2023-03-28 00:31:41 +02:00
commit eeae13b339
7 changed files with 311 additions and 0 deletions
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46
app/src/main/java/school_project/Map.java Normal file
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package school_project;
import java.util.ArrayList;
import java.util.Arrays;
/**
* Represent the map with its pieces.
* Every piece has a position element that represent its position on the map
*/
public class Map extends Shape{
private final ArrayList<Piece> pieces = new ArrayList<>();
public Map(boolean[][] matrix) {
super(matrix);
}
public void addPiece(Piece piece){
piece.setLinked_map(this);
pieces.add(piece);
}
/**
* Return a matrix with all used space on the map to see if a piece can fit in a space
*
* @return matrix of boolean with false being the not used space
*/
public boolean[][] getUsedSpace(){
// Copy of the map to avoid side effect
boolean[][] used = new boolean[height][width];
for (int i = 0; i < height; i++) {
used[i] = Arrays.copyOf(matrix[i], width);
}
for (Piece p : pieces) {
for(int x = 0; x < p.height; x++){
for(int y = 0; y < p.width; y++){
if (p.getShape()[x][y]){
used[p.getPosition().x + x][p.getPosition().y + y] = false;
}
}
}
}
return used;
}
}

59
app/src/main/java/school_project/Piece.java Normal file
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package school_project;
/**
* Represent a Piece in the game.
* Every Piece should be contained in a Map Object.
* A piece has a position witch is the position of its top-leftest position in its matrix.
* If the piece is not placed in the Map (in a floating state) the position should be null;
*/
public class Piece extends Shape{
private Vec2 Position;
private Map linked_map;
public Piece() {
super();
}
public Piece(boolean[][] matrix) {
super(matrix);
}
public Vec2 getPosition() {
return Position;
}
public void setPosition(Vec2 position){
if (linked_map == null) {
return;
}
this.Position = position;
}
/**
* set the map the piece is into the the map argument
* @param map map where to place the piece
*/
public void setLinked_map(Map map){
this.linked_map = map;
}
/**
* Rotate the matrix of the piece. Used when the player right click
*
* @param times Set the amount of time the rotation should be executed. Should be set between 1 and 3.
*/
public void RotateRight(int times){
while(times > 0) {
boolean[][] temp_matrix = new boolean[width][height];
for (int i = 0; i < width; i++) {
for (int j = 0; j < height; j++) {
temp_matrix[i][j] = matrix[-j+height-1][i];
}
}
times--;
matrix = temp_matrix;
}
}
}

44
app/src/main/java/school_project/Shape.java Normal file
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package school_project;
/**
* Base class for everything that is a shape kind, like map and pieces
* it contain a matrix of boolean where the shape is defined by the true's
*/
public class Shape {
protected boolean[][] matrix;
protected int height, width;
public Shape() {
matrix = new boolean[0][0];
}
public Shape(boolean[][] matrix){
this.setShape(matrix);
}
public void setShape(boolean[][] matrix) throws IllegalArgumentException{
height = matrix.length;
width = matrix[0].length;
for (boolean[] row: matrix){
if(row.length != width){
throw new IllegalArgumentException("The argument should be a square matrix");
}
}
this.matrix = matrix;
}
public int getHeight() {
return height;
}
public int getWidth() {
return width;
}
public boolean[][] getShape() {
return matrix;
}
}

19
app/src/main/java/school_project/Vec2.java Normal file
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package school_project;
/**
* This is used to represent a position/vector/... any ensemble of 2 elements that have to work together in
* a plan. This way we can use some basic operations over them.
*/
public class Vec2 {
public int x, y;
public Vec2() {
x = 0;
y = 0;
}
public Vec2(int x, int y ){
this.x = x;
this.y = y;
}
}

35
app/src/test/java/school_project/MapTest.java Normal file
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package school_project;
import org.junit.jupiter.api.Test;
import static org.junit.jupiter.api.Assertions.*;
class MapTest {
@Test
void getUsedSpace() {
boolean[][] map_matrix = {
{false, true, true, false},
{false, true, true, true},
{true, true, true, false},
{false, true, true, true}
};
Map testMap = new Map(map_matrix);
boolean[][] piece1_matrix = {
{true, true},
{true, true},
};
Piece piece1 = new Piece(piece1_matrix);
testMap.addPiece(piece1);
piece1.setPosition(new Vec2(0,1));
boolean[][] result_matrix = {
{false, false, false, false},
{false, false, false, true},
{true, true, true, false},
{false, true, true, true}
};
assertArrayEquals(result_matrix, testMap.getUsedSpace());
}
}

60
app/src/test/java/school_project/PieceTest.java Normal file
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package school_project;
import org.junit.jupiter.api.Test;
import static org.junit.jupiter.api.Assertions.*;
class PieceTest {
@Test
void rotateRight() {
boolean[][] piece1_matrix = {
{true, false, false},
{false, true, false},
{true, true, false},
};
boolean[][] piece1_matrix_result = {
{true, false, true},
{true, true, false},
{false, false, false},
};
boolean[][] piece2_matrix = {
{true},
{false},
{true},
};
boolean[][] piece2_matrix_result = {
{true, false, true},
};
boolean[][] piece3_matrix_result = {
{false, false, false},
{false, true, true},
{true, false, true},
};
Piece piece1 = new Piece();
piece1.setShape(piece1_matrix);
Piece piece2 = new Piece(piece2_matrix);
Piece piece3 = new Piece(piece1_matrix);
Piece piece4 = new Piece(piece1_matrix);
piece1.RotateRight(1);
assertArrayEquals(piece1_matrix_result, piece1.getShape());
piece2.RotateRight(1);
assertArrayEquals(piece2_matrix_result, piece2.getShape());
piece3.RotateRight(3);
assertArrayEquals(piece3_matrix_result, piece3.getShape());
piece4.RotateRight(3);
assertNotEquals(piece1_matrix_result, piece4.getShape());
}
}

48
app/src/test/java/school_project/ShapeTest.java Normal file
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package school_project;
import org.junit.jupiter.api.Test;
import static org.junit.jupiter.api.Assertions.*;
class ShapeTest {
@Test
void setShape() {
boolean[][] matrix_shape1 = {
{true, false},
{true, true},
{true, false}
};
boolean[][] matrix_shape2 = {
{true, false, true},
{true, true, true},
{true, false, true},
};
boolean[][] matrix_shape3 = {
{true, false, true},
{true, true}
};
boolean[][] matrix_shape4 = {
{true},
{false},
{true}
};
Shape shape1 = new Shape();
shape1.setShape(matrix_shape1);
assertEquals(3, shape1.getHeight());
assertEquals(2, shape1.getWidth());
Shape shape2 = new Shape(matrix_shape2);
assertEquals(3, shape2.getHeight());
assertEquals(3, shape2.getWidth());
assertThrows(IllegalArgumentException.class, () -> new Shape(matrix_shape3));
Shape shape4 = new Shape(matrix_shape4);
assertEquals(3, shape4.getHeight());
assertEquals(1, shape4.getWidth());
}
}