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	diff --git a/src/DungeonMap.cpp b/src/DungeonMap.cpp
	index b094133..13a9c3c 100644
	--- a/src/DungeonMap.cpp
	+++ b/src/DungeonMap.cpp
	@@ -1,1518 +1,1523 @@
	#include "DungeonMap.h"
	#include "GameFloor.h"
	#include "ItemEntity.h"
	#include "ChestEntity.h"
	#include "sfml_game/ImageManager.h"
	#include <cstdlib>
	#include <stdio.h>
	#include <iostream>
	#include "WitchBlastGame.h"

	DungeonMap::DungeonMap(int width, int height) : GameMap(width, height)
	{
	}

	DungeonMap::DungeonMap(GameFloor* gameFloor, int x, int y) : GameMap(MAP_WIDTH, MAP_HEIGHT)
	{
	this->gameFloor = gameFloor;
	this->x = x;
	this->y = y;
	cleared = false;
	visited = false;
	known = false;
	randomTileElement.type = -1;
	randomTileElement.x = 0;
	randomTileElement.y = 0;
	randomTileElement.rotation = 0;
	}

	DungeonMap::~DungeonMap()
	{
	}

	bool DungeonMap::isVisited()
	{
	return visited;
	}

	void DungeonMap::setVisited(bool b)
	{
	visited = b;
	}

	bool DungeonMap::isKnown()
	{
	return known;
	}

	void DungeonMap::setKnown(bool b)
	{
	known = b;
	}

	bool DungeonMap::isCleared()
	{
	return cleared;
	}

	void DungeonMap::setCleared(bool b)
	{
	cleared = b;
	}

	roomTypeEnum DungeonMap::getRoomType()
	{
	return roomType;
	}

	void DungeonMap::setRoomType(roomTypeEnum roomType)
	{
	this->roomType = roomType;
	}

	int DungeonMap::getObjectTile(int x, int y)
	{
	return objectsMap[x][y];
	}

	logicalMapStateEnum DungeonMap::getLogicalTile(int x, int y)
	{
	return logicalMap[x][y];
	}

	void DungeonMap::setObjectTile(int x, int y, int n)
	{
	objectsMap[x][y] = n;
	}

	void DungeonMap::setLogicalTile(int x, int y, logicalMapStateEnum state)
	{
	logicalMap[x][y] = state;
	}

	int DungeonMap::getFloorOffset()
	{
	return floorOffset;
	}
	int DungeonMap::getWallOffset()
	{
	return wallOffset;
	}
	void DungeonMap::setFloorOffset(int n)
	{
	floorOffset = n;
	}
	void DungeonMap::setWallOffset(int n)
	{
	wallOffset = n;
	}

	std::list<DungeonMap::itemListElement> DungeonMap::getItemList()
	{
	return (itemList);
	}

	std::list<DungeonMap::chestListElement> DungeonMap::getChestList()
	{
	return (chestList);
	}

	std::list<DungeonMap::spriteListElement> DungeonMap::getSpriteList()
	{
	return (spriteList);
	}

	DungeonMap::RandomTileElement DungeonMap::getRandomTileElement()
	{
	return randomTileElement;
	}

	void DungeonMap::setRandomTileElement (RandomTileElement rt)
	{
	randomTileElement = rt;
	hasChanged = true;
	}

	void DungeonMap::displayToConsole()
	{
	for (int j=0; j < MAP_HEIGHT; j++)
	{
	for (int i=0; i < MAP_WIDTH; i++)
	{
	printf("%d", map[i][j]);
	}
	printf("\n");
	}
	printf("\n");
	}

	bool DungeonMap::isDownBlocking(int x, int y)
	{
	if (!inMap(x, y)) return false;
	return (logicalMap[x][y] != LogicalFloor);
	}

	bool DungeonMap::isUpBlocking(int x, int y)
	{
	if (!inMap(x, y)) return false;
	return (logicalMap[x][y] != LogicalFloor);
	}

	bool DungeonMap::isLeftBlocking(int x, int y)
	{
	if (!inMap(x, y)) return false;
	return (logicalMap[x][y] != LogicalFloor);
	}

	bool DungeonMap::isRightBlocking(int x, int y)
	{
	if (!inMap(x, y)) return false;
	return (logicalMap[x][y] != LogicalFloor);
	}

	bool DungeonMap::isWalkable(int x, int y)
	{
	if (!inMap(x, y)) return true;
	if (roomType == roomTypeKey && !cleared)
	{
	int x0 = MAP_WIDTH / 2;
	int y0 = MAP_HEIGHT / 2;
	if (x >= x0 - 1 && x <= x0 +1 && y >= y0 - 1 && y <= y0 + 1)
	return false;
	}
	return (logicalMap[x][y] == LogicalFloor);
	}

	bool DungeonMap::isFlyable(int x, int y)
	{
	if (x < 0) return true;
	if (x > MAP_WIDTH - 1) return true;
	if (y < 0) return true;
	if (y > MAP_HEIGHT - 1) return true;

	return (logicalMap[x][y] != LogicalWall);
	}

	bool DungeonMap::isShootable(int x, int y)
	{
	if (!inMap(x, y)) return true;
	return (logicalMap[x][y] != LogicalWall && logicalMap[x][y] != LogicalObstacle);
	}

	bool DungeonMap::containsHealth()
	{
	ItemList::iterator it;
	for (it = itemList.begin (); it != itemList.end ();)
	{
	itemListElement ilm = *it;
	it++;

	if (ilm.type >= ItemHealthVerySmall && ilm.type <= ItemHealthVerySmallPoison)
	return true;
	}

	return false;
	}

	void DungeonMap::randomize(int n)
	{
	int i, j;
	int x0 = MAP_WIDTH / 2;
	int y0 = MAP_HEIGHT / 2;

	initRoom();

	// bonus
	if (n == 5)
	{
	roomType = roomTypeBonus;
	}
	// others
	else if (n > 0)
	{
	int r = rand() % 4;

	if (r == 0) // corner blocks
	{
	map[1][1] = 4;
	map[1][MAP_HEIGHT -2] = 4;
	map[MAP_WIDTH - 2][1] = 4;
	map[MAP_WIDTH - 2][MAP_HEIGHT -2] = 4;
	}

	else if (r == 1) // bloc in the middle
	{
	for (i = x0-1; i <= x0+1; i++)
	for (j = y0-1; j <= y0+1; j++)
	map[i][j] = 4;
	}

	else if (r == 2) // checker
	{
	for (i = 2; i < MAP_WIDTH - 2; i = i + 2)
	for (j = 2; j < MAP_HEIGHT - 2; j = j + 2)
	map[i][j] = 4;
	}

	cleared = false;
	roomType = (roomTypeEnum)(rand() % 3);
	}
	else
	{
	cleared = true;
	}
	}

	int DungeonMap::hasNeighbourLeft()
	{
	if (x > 0 && gameFloor->getRoom(x-1, y) > 0)
	{
	if (gameFloor->getRoom(x-1, y) == roomTypeBoss) return 2;
	else return 1;
	}
	return 0;
	}
	int DungeonMap::hasNeighbourRight()
	{
	if (x < MAP_WIDTH -1 && gameFloor->getRoom(x+1, y) > 0)
	{
	if (gameFloor->getRoom(x+1, y) == roomTypeBoss) return 2;
	else return 1;
	}
	return 0;
	}
	int DungeonMap::hasNeighbourUp()
	{
	if (y > 0 && gameFloor->getRoom(x, y-1) > 0)
	{
	if (gameFloor->getRoom(x, y-1) == roomTypeBoss) return 2;
	else return 1;
	}
	return 0;
	}
	int DungeonMap::hasNeighbourDown()
	{
	if (y < MAP_HEIGHT -1 && gameFloor->getRoom(x, y+1) > 0)
	{
	if (gameFloor->getRoom(x, y+1) == roomTypeBoss) return 2;
	else return 1;
	}
	return 0;
	}

	roomTypeEnum DungeonMap::getNeighbourLeft()
	{
	if (x > 0) return gameFloor->getRoom(x - 1, y);
	else return roomTypeNULL;
	}
	roomTypeEnum DungeonMap::getNeighbourRight()
	{
	if (x < MAP_WIDTH - 1) return gameFloor->getRoom(x + 1, y);
	else return roomTypeNULL;
	}
	roomTypeEnum DungeonMap::getNeighbourUp()
	{
	if (y > 0) return gameFloor->getRoom(x, y - 1);
	else return roomTypeNULL;
	}
	roomTypeEnum DungeonMap::getNeighbourDown()
	{
	if (y < MAP_HEIGHT - 1) return gameFloor->getRoom(x, y + 1);
	else return roomTypeNULL;
	}

	int DungeonMap::getDivinity(int x, int y)
	{
	if (x <= 0 \|\| (x >= MAP_WIDTH - 1) \|\| y <= 0 \|\| (y >= MAP_HEIGHT - 1)) return -1;

	if (map[x][y] >= MAP_TEMPLE && map[x][y] < MAP_TEMPLE + NB_DIVINITY)
	return (map[x][y] - MAP_TEMPLE);
	else
	return -1;
	}

	void DungeonMap::initRoom()
	{
	int x0 = MAP_WIDTH / 2;
	int y0 = MAP_HEIGHT / 2;
	int i, j;

	// style
	floorOffset = ((game().getLevel() - 1) % 8) * 24 ;
	wallOffset = 0; //((game().getLevel() - 1) % 3) * 48;

	// outer walls
	map[0][0] = wallOffset + MAP_WALL_7;
	for ( i = 1 ; i < width -1 ; i++)
	{
	if (i == width / 2)
	{
	map[i][0] = wallOffset + MAP_WALL_8;
	map[i][height - 1] = wallOffset + MAP_WALL_8;
	}
	else if (i < width / 2)
	{
	map[i][0] = wallOffset + MAP_WALL_87;
	map[i][height - 1] = wallOffset + MAP_WALL_87;
	}
	else
	{
	map[i][0] = wallOffset + MAP_WALL_87;
	map[i][height - 1] = wallOffset + MAP_WALL_87;
	}
	}
	map[width - 1][0] = wallOffset + MAP_WALL_7;
	for ( int i = 1 ; i < height -1 ; i++)
	{
	if (i == height / 2)
	{
	map[0][i] = wallOffset + MAP_WALL_8;
	map[width - 1][i] = wallOffset + MAP_WALL_8;
	}
	else if (i < height / 2)
	{
	map[0][i] = wallOffset + MAP_WALL_87;
	map[width - 1][i] = wallOffset + MAP_WALL_87;
	}
	else
	{
	map[0][i] = wallOffset + MAP_WALL_87;
	map[width - 1][i] = wallOffset + MAP_WALL_87;
	}
	}
	map[0][height - 1] = wallOffset + MAP_WALL_7;
	map[width - 1][height - 1] = wallOffset + MAP_WALL_7;

	// floor
	for ( j = 1 ; j < height - 1 ; j++)
	{
	for ( i = 1 ; i < width - 1 ; i++)
	{
	map[i][j] = floorOffset + rand()%(MAP_NORMAL_FLOOR);
	while (map[i][j] == map[i - 1][j] \|\| map[i][j] == map[i][j - 1] \|\| map[i][j] == map[i - 1][j - 1] \|\| map[i][j] == map[i + 1][j - 1])
	map[i][j] = floorOffset + rand()%(MAP_NORMAL_FLOOR);
	}
	}

	// objects
	for ( j = 0 ; j < height; j++)
	{
	for ( i = 0 ; i < width; i++)
	{
	objectsMap[i][j] = 0;
	if (i == 0 \|\| j == 0 \|\| i == width - 1 \|\| j == height - 1)
	logicalMap[i][j] = LogicalWall;
	else
	logicalMap[i][j] = LogicalFloor;
	}
	}

	// alternative floor
	for (i = 0; i < 8; i++)
	{
	if (rand() % 2 > 0)
	{
	map[1 + rand() % (MAP_WIDTH - 2)][1 + rand() % (MAP_HEIGHT - 2)] = floorOffset + 16 + i;
	}
	}

	// alternative walls
	for (i = 0; i < 9; i++)
	{
	if (rand() % 2 > 0)
	{
	int xTile = 0;
	int yTile = 0;
	int horizontal = rand() % 2;
	if (horizontal == 0)
	{
	yTile = rand() % 2 == 0 ? 0 : MAP_HEIGHT - 1;
	xTile = 1 + rand() % 12;
	if (xTile > 6) xTile++;
	}
	else
	{
	xTile = rand() % 2 == 0 ? 0 : MAP_WIDTH - 1;
	yTile = 1 + rand() % 6;
	if (yTile > 3) yTile++;
	}
	map[xTile][yTile] = i + wallOffset + MAP_WALL_ALTERN;
	}
	}
	if (hasNeighbourUp() && rand() % 3 == 0)
	{
	map[x0 - 2][0] = 9 + wallOffset + MAP_WALL_ALTERN;
	map[x0 + 2][0] = 9 + wallOffset + MAP_WALL_ALTERN;
	}
	if (hasNeighbourDown() && rand() % 3 == 0)
	{
	map[x0 - 2][MAP_HEIGHT - 1] = 9 + wallOffset + MAP_WALL_ALTERN;
	map[x0 + 2][MAP_HEIGHT - 1] = 9 + wallOffset + MAP_WALL_ALTERN;
	}
	if (hasNeighbourLeft() && rand() % 3 == 0)
	{
	map[0][y0 - 2] = 9 + wallOffset + MAP_WALL_ALTERN;
	map[0][y0 + 2] = 9 + wallOffset + MAP_WALL_ALTERN;
	}
	if (hasNeighbourRight() && rand() % 3 == 0)
	{
	map[MAP_WIDTH - 1][y0 - 2] = 9 + wallOffset + MAP_WALL_ALTERN;
	map[MAP_WIDTH - 1][y0 + 2] = 9 + wallOffset + MAP_WALL_ALTERN;
	}

	// doors ?
	if (gameFloor != NULL)
	{
	if (x > 0 && gameFloor->getRoom(x - 1, y) > 0)
	{
	map[0][MAP_HEIGHT / 2] = wallOffset + MAP_WALL_DOOR_8;
	map[0][MAP_HEIGHT / 2 - 1] = wallOffset + MAP_WALL_DOOR_7;
	map[0][MAP_HEIGHT / 2 + 1] = wallOffset + MAP_WALL_DOOR_7;
	openDoor(0, y0);
	}

	if (x < MAP_WIDTH - 1 && gameFloor->getRoom(x + 1, y) > 0)
	{
	map[MAP_WIDTH - 1][MAP_HEIGHT / 2] = wallOffset + MAP_WALL_DOOR_8;
	map[MAP_WIDTH - 1][MAP_HEIGHT / 2 - 1] = wallOffset + MAP_WALL_DOOR_7;
	map[MAP_WIDTH - 1][MAP_HEIGHT / 2 + 1] = wallOffset + MAP_WALL_DOOR_7;
	openDoor(MAP_WIDTH - 1, y0);
	}

	if (y > 0 && gameFloor->getRoom(x, y-1) > 0)
	{
	map[MAP_WIDTH / 2][0] = wallOffset + MAP_WALL_DOOR_8;
	map[MAP_WIDTH / 2 - 1][0] = wallOffset + MAP_WALL_DOOR_7;
	map[MAP_WIDTH / 2 + 1][0] = wallOffset + MAP_WALL_DOOR_7;
	openDoor(x0, 0);
	}

	if (y < MAP_HEIGHT -1 && gameFloor->getRoom(x, y+1) > 0)
	{
	map[MAP_WIDTH / 2][MAP_HEIGHT - 1] = wallOffset + MAP_WALL_DOOR_8;
	map[MAP_WIDTH / 2 - 1][MAP_HEIGHT - 1] = wallOffset + MAP_WALL_DOOR_7;
	map[MAP_WIDTH / 2 + 1][MAP_HEIGHT - 1] = wallOffset + MAP_WALL_DOOR_7;
	openDoor(x0, MAP_HEIGHT -1);
	}
	}
	}

	void DungeonMap::openDoor(int x, int y)
	{
	objectsMap[x][y] = MAPOBJ_DOOR_OPEN;
	logicalMap[x][y] = LogicalFloor;
	}

	void DungeonMap::closeDoor(int x, int y)
	{
	objectsMap[x][y] = MAPOBJ_DOOR_CLOSED;
	logicalMap[x][y] = LogicalWall;
	}

	bool DungeonMap::isDoor(int x, int y)
	{
	return objectsMap[x][y] == MAPOBJ_DOOR_OPEN \|\| objectsMap[x][y] == MAPOBJ_DOOR_CLOSED;
	}

	void DungeonMap::makePatternTile(int x, int y)
	{
	if (map[x][y] < 24 * 8 && (map[x][y] % 24) < 8) map[x][y] += 8;
	else map[x][y] = (game().getLevel() - 1) * 24 + 8;
	}

	void DungeonMap::initPattern(patternEnum n)
	{
	int i, j;

	if (n == PatternSmallChecker)
	{
	for ( i = 2 ; i < width - 2 ; i++)
	for ( j = 2 ; j < height - 2 ; j++)
	{
	if ((i + j) % 2 == 1) makePatternTile(i, j);
	}
	}
	if (n == PatternBigChecker)
	{
	for ( i = 1 ; i < width - 1 ; i++)
	for ( j = 1 ; j < height - 1 ; j++)
	{
	if ((i + j) % 2 == 1) makePatternTile(i, j);
	}
	}
	if (n == PatternBorder)
	{
	for ( i = 1 ; i < width - 1 ; i++)
	for ( j = 1 ; j < height - 1 ; j++)
	{
	if (i == 1 \|\| j == 1 \|\| i == width - 2 \|\| j == height - 2)
	makePatternTile(i, j);
	}
	}
	if (n == PatternBigCircle)
	{
	for ( i = 2 ; i < width - 2 ; i++)
	for ( j = 2 ; j < height - 2 ; j++)
	{
	if (i == 2 \|\| j == 2 \|\| i == width - 3 \|\| j == height - 3)
	makePatternTile(i, j);
	}
	}
	if (n == PatternSmallCircle \|\| n == PatternSmallStar)
	{
	for ( i = 5 ; i < 10 ; i++)
	for ( j = 2 ; j < height - 2 ; j++)
	{
	if (i == 5 \|\| i == 9 \|\| j == 2 \|\| j == height - 3)
	makePatternTile(i, j);
	}
	}
	if (n == PatternSmallStar)
	{
	makePatternTile(7, 1);
	makePatternTile(7, height - 2);
	makePatternTile(4, 4);
	makePatternTile(10, 4);
	}
	if (n == PatternSmallDisc)
	{
	for ( i = 5 ; i < 10 ; i++)
	for ( j = 2 ; j < height - 2 ; j++)
	{
	makePatternTile(i, j);
	}
	}
	}

	void DungeonMap::generateInselRoom()
	{
	for (int i = 1; i < MAP_WIDTH - 1; i++)
	for (int j = 1; j < MAP_HEIGHT - 1; j++)
	{
	if (i != MAP_WIDTH / 2 && j != MAP_HEIGHT / 2
	&& !(i == MAP_WIDTH / 2 - 1 && j == MAP_HEIGHT / 2 - 1)
	&& !(i == MAP_WIDTH / 2 - 1 && j == MAP_HEIGHT / 2 + 1)
	&& !(i == MAP_WIDTH / 2 + 1 && j == MAP_HEIGHT / 2 - 1)
	&& !(i == MAP_WIDTH / 2 + 1 && j == MAP_HEIGHT / 2 + 1)
	)
	addHole(i, j);
	}
	objectsMap[MAP_WIDTH / 2 - 2][MAP_HEIGHT / 2 - 1] = MAPOBJ_WALL_SPECIAL;
	objectsMap[MAP_WIDTH / 2 - 1][MAP_HEIGHT / 2 - 2] = MAPOBJ_WALL_SPECIAL;
	logicalMap[MAP_WIDTH / 2 - 2][MAP_HEIGHT / 2 - 1] = LogicalObstacle;
	logicalMap[MAP_WIDTH / 2 - 1][MAP_HEIGHT / 2 - 2] = LogicalObstacle;

	objectsMap[MAP_WIDTH / 2 + 2][MAP_HEIGHT / 2 - 1] = MAPOBJ_WALL_SPECIAL + 1;
	objectsMap[MAP_WIDTH / 2 + 1][MAP_HEIGHT / 2 - 2] = MAPOBJ_WALL_SPECIAL + 1;
	logicalMap[MAP_WIDTH / 2 + 2][MAP_HEIGHT / 2 - 1] = LogicalObstacle;
	logicalMap[MAP_WIDTH / 2 + 1][MAP_HEIGHT / 2 - 2] = LogicalObstacle;

	objectsMap[MAP_WIDTH / 2 - 2][MAP_HEIGHT / 2 + 1] = MAPOBJ_WALL_SPECIAL + 2;
	objectsMap[MAP_WIDTH / 2 - 1][MAP_HEIGHT / 2 + 2] = MAPOBJ_WALL_SPECIAL + 2;
	logicalMap[MAP_WIDTH / 2 - 2][MAP_HEIGHT / 2 + 1] = LogicalObstacle;
	logicalMap[MAP_WIDTH / 2 - 1][MAP_HEIGHT / 2 + 2] = LogicalObstacle;

	objectsMap[MAP_WIDTH / 2 + 2][MAP_HEIGHT / 2 + 1] = MAPOBJ_WALL_SPECIAL + 3;
	objectsMap[MAP_WIDTH / 2 + 1][MAP_HEIGHT / 2 + 2] = MAPOBJ_WALL_SPECIAL + 3;
	logicalMap[MAP_WIDTH / 2 + 2][MAP_HEIGHT / 2 + 1] = LogicalObstacle;
	logicalMap[MAP_WIDTH / 2 + 1][MAP_HEIGHT / 2 + 2] = LogicalObstacle;

	if (!hasNeighbourUp())
	addHole(MAP_WIDTH / 2, 1);
	if (!hasNeighbourDown())
	addHole(MAP_WIDTH / 2, MAP_HEIGHT - 2);
	if (!hasNeighbourLeft())
	for (int i = 0; i < 4; i++)
	{
	addHole(1 + i, MAP_HEIGHT / 2);
	addHole(1 + i, MAP_HEIGHT / 2 + 1);
	}
	if (!hasNeighbourRight())
	for (int i = 0; i < 4; i++)
	{
	addHole(MAP_WIDTH - 2 - i, MAP_HEIGHT / 2);
	addHole(MAP_WIDTH - 2 - i, MAP_HEIGHT / 2 + 1);
	}

	addHole(MAP_WIDTH / 2 - 1 , MAP_HEIGHT - 2);
	addHole(MAP_WIDTH / 2 + 1 , MAP_HEIGHT - 2);
	addHole(MAP_WIDTH / 2 - 2 , MAP_HEIGHT - 3);
	addHole(MAP_WIDTH / 2 + 2 , MAP_HEIGHT - 3);

	if (rand() % 2 == 0) makePatternTile(MAP_WIDTH / 2, MAP_HEIGHT / 2);
	}

	Vector2D DungeonMap::generateBonusRoom()
	{
	initRoom();
	int x0 = MAP_WIDTH / 2;
	int y0 = MAP_HEIGHT / 2;

	if (game().getLevel() == 1 \|\| rand() % 3 > 0)
	{
	if (rand() % 3 == 0)
	{
	if (rand() % 2 == 0) initPattern(PatternSmallDisc);
	else initPattern(PatternSmallStar);
	}

	objectsMap[x0 - 1][y0 - 1] = MAPOBJ_WALL_SPECIAL;
	objectsMap[x0 - 1][y0 + 1] = MAPOBJ_WALL_SPECIAL + 2;
	objectsMap[x0 + 1][y0 - 1] = MAPOBJ_WALL_SPECIAL + 1;
	objectsMap[x0 + 1][y0 + 1] = MAPOBJ_WALL_SPECIAL + 3;

	logicalMap[x0 - 1][y0 - 1] = LogicalObstacle;
	logicalMap[x0 - 1][y0 + 1] = LogicalObstacle;
	logicalMap[x0 + 1][y0 - 1] = LogicalObstacle;
	logicalMap[x0 + 1][y0 + 1] = LogicalObstacle;
	}
	else
	{
	generateInselRoom();
	}

	generateRandomTile();

	return (Vector2D(x0 * TILE_WIDTH + TILE_WIDTH / 2, y0 * TILE_HEIGHT + TILE_HEIGHT / 2));
	}

	void DungeonMap::generateTemple(int x, int y, enumDivinityType type)
	{
	map[x][y] = MAP_TEMPLE + (int)type;
	addHole(x - 1, y - 2);
	addHole(x - 1, y - 1);
	addHole(x - 1, y);
	addHole(x + 1, y - 2);
	addHole(x + 1, y - 1);
	addHole(x + 1, y );

	objectsMap[x][y - 2] = MAPOBJ_TEMPLE_WALL + (int)type;
	objectsMap[x][y - 1] = MAPOBJ_TEMPLE_WALL + 10 + (int)type;
	logicalMap[x][y - 2] = LogicalObstacle;
	logicalMap[x][y - 1] = LogicalObstacle;
	}

	void DungeonMap::generateTempleRoom()
	{
	initRoom();
	int x0 = MAP_WIDTH / 2;
	int y0 = 1 + MAP_HEIGHT / 2;

	if (rand() % 3 == 0)
	{
	if (rand() % 2 == 0) initPattern(PatternSmallDisc);
	else initPattern(PatternSmallStar);
	}

	int d0, d1, d2;
	d0 = rand() % NB_DIVINITY;
	d1 = d0;
	while (d0 == d1) d1 = rand() % NB_DIVINITY;

	if (rand() % 2 == 0)
	{
	// three temple
	d2 = d0;
	while (d0 == d2 \|\| d1 == d2) d2 = rand() % NB_DIVINITY;
	generateTemple(x0 - 2, y0, (enumDivinityType)d0);
	generateTemple(x0 + 2, y0, (enumDivinityType)d1);
	generateTemple(x0, y0, (enumDivinityType)d2);
	}
	else
	{
	// two temples
	generateTemple(x0 - 1, y0, (enumDivinityType)d0);
	generateTemple(x0 + 1, y0, (enumDivinityType)d1);
	}

	generateRandomTile();
	}

	void DungeonMap::generateCarpet(int x0, int y0, int w, int h, int n)
	{
	int xf = x0 + w - 1;
	int yf = y0 + h - 1;

	map[x0][y0] = n;
	map[x0][yf] = n + 6;
	map[xf][y0] = n + 2;
	map[xf][yf] = n + 8;

	int i, j;
	for (i = x0 + 1; i <= xf - 1; i++)
	{
	map[i][y0] = n + 1;
	map[i][yf] = n + 7;
	for (j = y0 + 1; j <= yf - 1; j++)
	map[i][j] = n + 4;
	}

	for (j = y0 + 1; j <= yf - 1; j++)
	{
	map[x0][j] = n + 3;
	map[xf][j] = n + 5;
	}
	}

	void DungeonMap::generateTable(int x0, int y0, int w, int h, int n)
	{
	int xf = x0 + w - 1;
	int yf = y0 + h - 1;

	objectsMap[x0][y0] = n;
	objectsMap[x0][yf] = n + 6;
	objectsMap[xf][y0] = n + 2;
	objectsMap[xf][yf] = n + 8;

	int i, j;
	for (i = x0 + 1; i <= xf - 1; i++)
	{
	objectsMap[i][y0] = n + 1;
	objectsMap[i][yf] = n + 7;
	for (j = y0 + 1; j <= yf - 1; j++)
	objectsMap[i][j] = n + 4;
	}

	for (j = y0 + 1; j <= yf - 1; j++)
	{
	objectsMap[x0][j] = n + 3;
	objectsMap[xf][j] = n + 5;
	}

	for (i = x0; i <= xf; i++)
	for (j = y0; j <= yf; j++)
	logicalMap[i][j] = LogicalObstacle;
	}

	void DungeonMap::generateLongObject(int x0, int y0, int w, int n)
	{
	int xf = x0 + w - 1;
	objectsMap[x0][y0] = n;
	logicalMap[x0][y0] = LogicalObstacle;
	for (int i = x0 + 1; i <= xf - 1; i++)
	{
	objectsMap[i][y0] = n + 1;
	logicalMap[i][y0] = LogicalObstacle;
	}
	objectsMap[xf][y0] = n + 2;
	logicalMap[xf][y0] = LogicalObstacle;
	}

	Vector2D DungeonMap::generateMerchantRoom()
	{
	initRoom();

	int x0 = MAP_WIDTH / 2;
	int y0 = MAP_HEIGHT / 2;

	for (int i = x0 - 3; i <= x0 + 3; i++)
	{
	if (i == x0 - 3) objectsMap[i][y0] = MAPOBJ_SHOP_LEFT;
	else if (i == x0 + 3) objectsMap[i][y0] = MAPOBJ_SHOP_RIGHT;
	else objectsMap[i][y0] = MAPOBJ_SHOP;

	logicalMap[i][y0] = LogicalObstacle;
	}

	if (!hasNeighbourUp())
	{
	objectsMap[x0 - 1][0] = MAPOBJ_PNW;
	objectsMap[x0][0] = MAPOBJ_PNW + 1;
	objectsMap[x0 + 1][0] = MAPOBJ_PNW + 2;
	}
	else
	{
	objectsMap[x0 - 1][MAP_HEIGHT - 1] = MAPOBJ_PNW +3;
	objectsMap[x0][MAP_HEIGHT - 1] = MAPOBJ_PNW + 4;
	objectsMap[x0 + 1][MAP_HEIGHT - 1] = MAPOBJ_PNW + 5;
	}

	generateRandomTile();

	return (Vector2D(x0 * TILE_WIDTH + TILE_WIDTH / 2, y0 * TILE_HEIGHT + TILE_HEIGHT / 2));
	}

	Vector2D DungeonMap::generateKeyRoom()
	{
	initRoom();
	int x0 = MAP_WIDTH / 2;
	int y0 = MAP_HEIGHT / 2;

	objectsMap[x0 - 1][y0 - 1] = MAPOBJ_WALL_SPECIAL;
	objectsMap[x0 - 1][y0 + 1] = MAPOBJ_WALL_SPECIAL + 2;
	objectsMap[x0 + 1][y0 - 1] = MAPOBJ_WALL_SPECIAL + 1;
	objectsMap[x0 + 1][y0 + 1] = MAPOBJ_WALL_SPECIAL + 3;

	logicalMap[x0 - 1][y0 - 1] = LogicalObstacle;
	logicalMap[x0 - 1][y0 + 1] = LogicalObstacle;
	logicalMap[x0 + 1][y0 - 1] = LogicalObstacle;
	logicalMap[x0 + 1][y0 + 1] = LogicalObstacle;

	if (rand() % 3 == 0)
	{
	if (rand() % 2 == 0) initPattern(PatternSmallCircle);
	else initPattern(PatternSmallStar);
	}
	map[x0][y0] = MAP_TILE_KEY;
	map[x0 -1][y0] = MAP_TILE_KEY;
	map[x0 + 1][y0] = MAP_TILE_KEY;
	map[x0][y0 - 1] = MAP_TILE_KEY;
	map[x0][y0 + 1] = MAP_TILE_KEY;
	+ /*objectsMap[x0 -1][y0] = 70;
	+ objectsMap[x0 + 1][y0] = 71;
	+ objectsMap[x0][y0 - 1] = 72;
	+ objectsMap[x0][y0 + 1] = 73;*/
	generateRandomTile();

	return (Vector2D(x0 * TILE_WIDTH + TILE_WIDTH / 2, y0 * TILE_HEIGHT + TILE_HEIGHT / 2));
	}

	void DungeonMap::generateExitRoom()
	{
	initRoom();
	int x0 = MAP_WIDTH / 2;
	map[x0][0] = wallOffset + MAP_STAIRS_UP;
	map[x0 - 1][0] = wallOffset + MAP_WALL_EXIT_L;
	map[x0 + 1][0] = wallOffset + MAP_WALL_EXIT_R;

	logicalMap[x0][0] = LogicalFloor;

	if (rand() % 3 == 0) initPattern(PatternBorder);

	generateRandomTile();
	}

	void DungeonMap::generateRoomRandom(int type)
	{
	if (rand() % 3 == 0) generateRoomWithHoles(type);
	else generateRoomWithoutHoles(type);
	}

	void DungeonMap::generateRoomWithoutHoles(int type)
	{
	initRoom();
	int x0 = MAP_WIDTH / 2;
	int y0 = MAP_HEIGHT / 2;
	int i, j, r;

	if (type <= 0) // empty room
	{
	if (roomType == roomTypeStarting)
	{
	generateCarpet(5, 3, 5, 3, MAP_CARPET);

	if (game().getLevel() > 1)
	{
	map[x0 - 1][MAP_HEIGHT - 1] = wallOffset + MAP_WALL_START_L;
	map[x0][MAP_HEIGHT - 1] = wallOffset + MAP_WALL_START_M;
	map[x0 + 1][MAP_HEIGHT - 1] = wallOffset + MAP_WALL_START_R;
	}
	}
	else if (roomType == roomTypeBoss && (game().getLevel() == 2) ) // giant slime
	{
	// good ?
	map[1][1] = MAP_GRID + 1;
	map[1][MAP_HEIGHT -2] = MAP_GRID + 1;
	map[MAP_WIDTH - 2][1] = MAP_GRID + 1;
	map[MAP_WIDTH - 2][MAP_HEIGHT -2] = MAP_GRID + 1;
	}
	if (roomType == roomTypeStandard)
	{
	if (rand() % 3 > 0 && gameFloor->neighboorCount(x, y) > 1)
	{
	if (type == 0 && game().getLevel() < 6) generateCorridors();
	}
	else
	{
	if (rand() % 3 == 0) initPattern((patternEnum)(rand() % 4));
	}
	}
	}
	if (type == 1) // corner block
	{
	if (rand() % 3 == 0) initPattern(PatternSmallChecker);

	map[0][0] = wallOffset + MAP_WALL_X;
	map[0][1] = wallOffset + MAP_WALL_7;
	map[1][1] = wallOffset + MAP_WALL_77;
	map[1][0] = wallOffset + MAP_WALL_7;
	logicalMap[1][1] = LogicalWall;

	map[0][MAP_HEIGHT - 1] = wallOffset + MAP_WALL_X;
	map[0][MAP_HEIGHT - 2] = wallOffset + MAP_WALL_7;
	map[1][MAP_HEIGHT - 2] = wallOffset + MAP_WALL_77;
	map[1][MAP_HEIGHT - 1] = wallOffset + MAP_WALL_7;
	logicalMap[1][MAP_HEIGHT -2] = LogicalWall;

	map[MAP_WIDTH - 1][0] = wallOffset + MAP_WALL_X;
	map[MAP_WIDTH - 1][1] = wallOffset + MAP_WALL_7;
	map[MAP_WIDTH - 2][1] = wallOffset + MAP_WALL_77;
	map[MAP_WIDTH - 2][0] = wallOffset + MAP_WALL_7;
	logicalMap[MAP_WIDTH - 2][1] = LogicalWall;

	map[MAP_WIDTH - 1][MAP_HEIGHT -1] = wallOffset + MAP_WALL_X;
	map[MAP_WIDTH - 1][MAP_HEIGHT -2] = wallOffset + MAP_WALL_7;
	map[MAP_WIDTH - 2][MAP_HEIGHT -2] = wallOffset + MAP_WALL_77;
	map[MAP_WIDTH - 2][MAP_HEIGHT -1] = wallOffset + MAP_WALL_7;
	logicalMap[MAP_WIDTH - 2][MAP_HEIGHT -2] = LogicalWall;
	}
	if (type == 2) // blocks in the middle
	{
	if (rand() % 3 == 0) initPattern(PatternBorder);

	r = 1 + rand() % 3;

	generateTable(x0 - r, y0 - 1, 1 + 2 * r, 3, MAPOBJ_BIG_OBSTACLE);
	}
	if (type == 3)
	{
	// big blocks in the corners
	generateTable(2, 2, 2, 2, MAPOBJ_BIG_OBSTACLE);
	generateTable(2, MAP_HEIGHT - 4, 2, 2, MAPOBJ_BIG_OBSTACLE);
	generateTable(MAP_WIDTH - 4, MAP_HEIGHT - 4, 2, 2, MAPOBJ_BIG_OBSTACLE);
	generateTable(MAP_WIDTH - 4, 2, 2, 2, MAPOBJ_BIG_OBSTACLE);
	}
	if (type == 4)
	{
	// objects
	if (rand() % 2 == 0)
	{
	// type 1
	if (rand() % 3 == 0) initPattern(PatternSmallChecker);
	bool leftOriented = rand() % 2 == 0;

	int bankType = rand() % 3;
	if (bankType == 2)
	{
	int xPlayer = game().getPlayerPosition().x;
	if (xPlayer > GAME_WIDTH - TILE_WIDTH && xPlayer < GAME_WIDTH + TILE_WIDTH)
	bankType = rand() % 2;
	}

	int x0 = leftOriented ? 5 : 3;

	if (leftOriented)
	{
	objectsMap[2][4] = MAPOBJ_OBSTACLE;
	logicalMap[2][4] = LogicalObstacle;
	}
	else
	{
	objectsMap[12][4] = MAPOBJ_OBSTACLE;
	logicalMap[12][4] = LogicalObstacle;
	}

	for (int i = 0; i < 3; i++)
	{
	int xPos = x0 + i * 3;
	switch (bankType)
	{
	case 0:
	objectsMap[xPos][2] = MAPOBJ_BANK_TOP;
	objectsMap[xPos][3] = MAPOBJ_BANK_BOTTOM;
	objectsMap[xPos][5] = MAPOBJ_BANK_TOP;
	objectsMap[xPos][6] = MAPOBJ_BANK_BOTTOM;
	for (int j = 2; j <= 6; j++) if (j != 4) logicalMap[xPos][j] = LogicalObstacle;
	break;

	case 1:
	objectsMap[xPos][2] = MAPOBJ_BANK_TOP;
	objectsMap[xPos][3] = MAPOBJ_BANK;
	objectsMap[xPos][4] = MAPOBJ_BANK;
	objectsMap[xPos][5] = MAPOBJ_BANK;
	objectsMap[xPos][6] = MAPOBJ_BANK_BOTTOM;
	for (int j = 2; j <= 6; j++) logicalMap[xPos][j] = LogicalObstacle;
	break;

	case 2:
	objectsMap[xPos][1] = MAPOBJ_BANK_TOP;
	objectsMap[xPos][2] = MAPOBJ_BANK;
	objectsMap[xPos][3] = MAPOBJ_BANK_BOTTOM;
	objectsMap[xPos][5] = MAPOBJ_BANK_TOP;
	objectsMap[xPos][6] = MAPOBJ_BANK;
	objectsMap[xPos][7] = MAPOBJ_BANK_BOTTOM;
	for (int j = 1; j <= 7; j++) if (j != 4) logicalMap[xPos][j] = LogicalObstacle;
	break;
	}
	}
	}
	else
	{
	initPattern(PatternSmallStar);
	generateLongObject(2, 2, 3, MAPOBJ_LONG_LEFT);
	generateLongObject(2, 6, 3, MAPOBJ_LONG_LEFT);
	generateLongObject(10, 2, 3, MAPOBJ_LONG_LEFT);
	generateLongObject(10, 6, 3, MAPOBJ_LONG_LEFT);
	generateLongObject(6, 4, 3, MAPOBJ_LONG_LEFT);
	}
	}
	if (type == ROOM_TYPE_CHECKER)
	{
	// "checker"
	if (rand() % 3 == 0) initPattern(PatternSmallChecker);

	for (i = 2; i < MAP_WIDTH - 2; i = i + 2)
	for (j = 2; j < MAP_HEIGHT - 2; j = j + 2)
	{
	objectsMap[i][j] = game().getLevel() >= 6 ? MAPOBJ_TOMB : MAPOBJ_OBSTACLE;
	logicalMap[i][j] = LogicalObstacle;
	}
	}

	generateRandomTile();
	}

	void DungeonMap::addHole(int x, int y)
	{
	int n = MAPOBJ_HOLE;
	if (y > 0 && logicalMap[x][y - 1] == LogicalHole)
	n = MAPOBJ_HOLE_BOTTOM;
	else if (logicalMap[x - 1][y] == LogicalHole && logicalMap[x - 1][y - 1] == LogicalHole)
	n = MAPOBJ_HOLE_LEFT;
	else if (logicalMap[x + 1][y] == LogicalHole && logicalMap[x + 1][y - 1] == LogicalHole)
	n = MAPOBJ_HOLE_RIGHT;
	objectsMap[x][y] = n;
	logicalMap[x][y] = LogicalHole;
	}

	void DungeonMap::generateRoomWithHoles(int type)
	{
	initRoom();
	int x0 = MAP_WIDTH / 2;
	int y0 = MAP_HEIGHT / 2;
	int i, j, r;

	if (type == 0)
	{
	if (roomType == roomTypeStarting)
	{
	generateCarpet(5, 3, 5, 3, MAP_CARPET);

	if (game().getLevel() > 1)
	{
	map[x0 - 1][MAP_HEIGHT - 1] = 62;
	map[x0][MAP_HEIGHT - 1] = 63;
	map[x0 + 1][MAP_HEIGHT - 1] = 64;
	}
	}
	if (roomType == roomTypeBoss && game().getLevel() == 2) // giant slime
	{
	map[1][1] = MAP_GRID;
	map[1][MAP_HEIGHT -2] = MAP_GRID;
	map[MAP_WIDTH - 2][1] = MAP_GRID;
	map[MAP_WIDTH - 2][MAP_HEIGHT -2] = MAP_GRID;
	}
	else if (rand() % 2 == 0)
	{
	for (int i = 1; i <= MAP_WIDTH - 2; i++)
	{
	if (i != MAP_WIDTH / 2 \|\| !hasNeighbourUp()) addHole(i, 1);
	}
	for (int i = 2; i <= MAP_HEIGHT - 3; i++)
	{
	if (i != MAP_HEIGHT / 2 \|\| !hasNeighbourLeft()) addHole(1, i);
	if (i != MAP_HEIGHT / 2 \|\| !hasNeighbourRight()) addHole(MAP_WIDTH - 2, i);
	}
	- for (int i = 1; i <= MAP_WIDTH - 2; i++)
	+ addHole(MAP_WIDTH - 2, MAP_HEIGHT - 2);
	+ for (int i = 1; i <= MAP_WIDTH - 3; i++)
	{
	if (i != MAP_WIDTH / 2 \|\| !hasNeighbourDown()) addHole(i, MAP_HEIGHT - 2);
	}
	}
	}
	else if (type == 1)
	{
	// corner hole
	if (rand() % 3 == 0) initPattern(PatternSmallChecker);
	addHole(1, 1);
	addHole(MAP_WIDTH - 2, MAP_HEIGHT -2);
	addHole(1, MAP_HEIGHT -2);
	addHole(MAP_WIDTH - 2, 1);
	}
	else if (type == 2)
	{
	// blocks in the middle
	if (rand() % 3 == 0) initPattern(PatternBorder);

	r = 1 + rand() % 2;
	for (i = x0 - r; i <= x0 + r; i++)
	for (j = y0 - 1; j <= y0 + 1; j++)
	{
	addHole(i, j);
	}
	}
	else if (type == 3)
	{
	// 4 holes
	addHole(2, 2);
	addHole(2, 3);
	addHole(3, 2);
	addHole(3, 3);

	addHole(MAP_WIDTH - 4, 2);
	addHole(MAP_WIDTH - 4, 3);
	addHole(MAP_WIDTH - 3, 2);
	addHole(MAP_WIDTH - 3, 3);

	addHole(2, MAP_HEIGHT - 4);
	addHole(2, MAP_HEIGHT - 3);
	addHole(3, MAP_HEIGHT - 4);
	addHole(3, MAP_HEIGHT - 3);

	addHole(MAP_WIDTH - 4, MAP_HEIGHT - 4);
	addHole(MAP_WIDTH - 4, MAP_HEIGHT - 3);
	addHole(MAP_WIDTH - 3, MAP_HEIGHT - 4);
	addHole(MAP_WIDTH - 3, MAP_HEIGHT - 3);
	}
	else if (type == 4)
	{
	if (rand() % 2 == 0)
	{
	// holes and (sometimes) obstacles randomly
	if (rand() % 3 == 0) initPattern(PatternBigCircle);
	int r = 6 + rand()% 5;
	int obstacleType = rand() % 2;
	for (int i = 0; i < r; i++)
	{
	int rx = 1 + rand() % (MAP_WIDTH - 3);
	int ry = 1 + rand() % (MAP_HEIGHT - 3);

	bool ok = true;
	bool isObstacle = (obstacleType == 1) && rand() % 2 == 0;

	if ( (rx == 1 && ry == MAP_HEIGHT / 2)
	\|\| (rx == MAP_WIDTH - 2 && ry == MAP_HEIGHT / 2)
	\|\| (rx == MAP_WIDTH /2 && ry == MAP_HEIGHT - 2)
	\|\| (rx == MAP_WIDTH /2 && ry == 1) )
	{
	ok = false;
	}

	else
	{
	for (int ix = -1; ix <= 1; ix++)
	for (int iy = -1; iy <= 1; iy++)
	{
	ok = ok && logicalMap[rx + ix][ry + iy] != LogicalHole;
	ok = ok && logicalMap[rx + ix][ry + iy] != LogicalObstacle;
	}
	}

	if (ok)
	{
	if (!isObstacle)
	{
	addHole(rx, ry);
	}

	else
	{
	objectsMap[rx][ry] = MAPOBJ_OBSTACLE;
	logicalMap[rx][ry] = LogicalObstacle;
	}
	}
	else
	{
	i--;
	}
	}
	}
	else
	{
	// big holes left and right
	bool holesNW = rand() % 2 == 0;
	for (int i = 0; i < 5; i++)
	{
	if (holesNW)
	{
	addHole(1 + i, 1);
	addHole(1 + i, 2);

	addHole(MAP_WIDTH - 2 - i, MAP_HEIGHT - 3);
	addHole(MAP_WIDTH - 2 - i, MAP_HEIGHT - 2);
	}
	else
	{
	addHole(1 + i, MAP_HEIGHT - 3);
	addHole(1 + i, MAP_HEIGHT - 2);

	addHole(MAP_WIDTH - 2 - i, 1);
	addHole(MAP_WIDTH - 2 - i, 2);
	}
	}
	}
	}
	else //if (type == 5)
	{
	// "checker"
	for (i = 2; i < MAP_WIDTH - 2; i = i + 2)
	for (j = 2; j < MAP_HEIGHT - 2; j = j + 2)
	{
	addHole(i, j);
	}
	}

	generateRandomTile();
	}

	void DungeonMap::addItem(int itemType, float x, float y, bool merch)
	{
	itemListElement ilm;
	ilm.type = itemType;
	ilm.x = x;
	ilm.y = y;
	ilm.merch = merch;
	itemList.push_back(ilm);
	}

	void DungeonMap::addSprite(int spriteType, int frame, float x, float y, float scale)
	{
	spriteListElement slm;
	slm.type = spriteType;
	slm.frame = frame;
	slm.x = x;
	slm.y = y;
	slm.scale = scale;
	spriteList.push_back(slm);
	}

	void DungeonMap::addChest(int chestType, bool state, float x, float y)
	{
	chestListElement clm;
	clm.type = chestType;
	clm.state = state;
	clm.x = x;
	clm.y = y;
	chestList.push_back(clm);
	}

	void DungeonMap::restoreItems()
	{
	ItemList::iterator it;
	for (it = itemList.begin (); it != itemList.end ();)
	{
	itemListElement ilm = *it;
	it++;

	ItemEntity* itemEntity = new ItemEntity((enumItemType)(ilm.type), ilm.x, ilm.y);
	itemEntity->setMerchandise(ilm.merch);
	}
	}

	void DungeonMap::restoreSprites()
	{
	SpriteList::iterator it;

	for (it = spriteList.begin (); it != spriteList.end ();)
	{
	spriteListElement ilm = *it;
	it++;

	if (ilm.type == ENTITY_BLOOD)
	game().getCurrentMapEntity()->addBlood(ilm.x, ilm.y, ilm.frame, ilm.scale);

	else if (ilm.type == ENTITY_CORPSE)
	game().getCurrentMapEntity()->addCorpse(ilm.x, ilm.y, ilm.frame);
	}
	}

	void DungeonMap::restoreChests()
	{
	ChestList::iterator it;

	for (it = chestList.begin (); it != chestList.end ();)
	{
	chestListElement clm = *it;
	it++;

	new ChestEntity(clm.x, clm.y, clm.type, clm.state);
	}
	}

	void DungeonMap::restoreMapObjects()
	{
	restoreItems();
	restoreSprites();
	restoreChests();
	cleanMapObjects();
	}

	void DungeonMap::cleanMapObjects()
	{
	itemList.clear();
	spriteList.clear();
	chestList.clear();
	}

	void DungeonMap::addRandomGrids(int n)
	{
	int counter = n;

	while (counter > 0)
	{
	int rx = 1 + rand() % (MAP_WIDTH - 2);
	int ry = 1 + rand() % (MAP_HEIGHT - 2);
	if (logicalMap[rx][ry] == LogicalFloor)
	{
	map[rx][ry] = MAP_GRID + game().getLevel() - 1;
	counter--;
	}
	}
	}

	void DungeonMap::generateCorridors()
	{
	int xCor = 1 + rand()% 4;
	int yCor = 1 + rand()% 1;

	if (!hasNeighbourLeft())
	{
	for (int i = 0; i < xCor; i++)
	for (int j = 0; j < MAP_HEIGHT; j++)
	{
	map[i][j] = wallOffset + MAP_WALL_X;
	logicalMap[i][j] = LogicalWall;
	}

	}
	if (!hasNeighbourRight())
	{
	for (int i = MAP_WIDTH - 1; i > MAP_WIDTH - 1 - xCor; i--)
	for (int j = 0; j < MAP_HEIGHT; j++)
	{
	map[i][j] = wallOffset + MAP_WALL_X;
	logicalMap[i][j] = LogicalWall;
	}
	}
	if (!hasNeighbourUp())
	{
	for (int i = 0; i < MAP_WIDTH; i++)
	for (int j = 0; j < yCor; j++)
	{
	map[i][j] = wallOffset + MAP_WALL_X;
	logicalMap[i][j] = LogicalWall;
	}
	}
	if (!hasNeighbourDown())
	{
	for (int i = 0; i < MAP_WIDTH; i++)
	for (int j = MAP_HEIGHT - 1; j > MAP_HEIGHT - 1 - yCor; j--)
	{
	map[i][j] = wallOffset + MAP_WALL_X;
	logicalMap[i][j] = LogicalWall;
	}
	}

	//
	for (int i = 0; i < MAP_WIDTH; i++)
	{
	for (int j = 0; j < MAP_HEIGHT; j++)
	{
	if (map[i][j] != wallOffset + MAP_WALL_X)
	{
	if (getTile(i - 1, j) == wallOffset + MAP_WALL_X)
	{
	if (j == 0 \|\| getTile(i, j - 1) == wallOffset + MAP_WALL_X)
	{
	map[i][j] = wallOffset + MAP_WALL_7;
	}
	else if (j == MAP_HEIGHT - 1 \|\| getTile(i, j + 1) == wallOffset + MAP_WALL_X)
	{
	map[i][j] = wallOffset + MAP_WALL_7;
	}
	else
	{
	if (j < MAP_HEIGHT / 2) map[i][j] = wallOffset + MAP_WALL_87;
	else if (j > MAP_HEIGHT / 2) map[i][j] = wallOffset + MAP_WALL_87;
	else map[i][j] = wallOffset + MAP_WALL_8;
	}
	logicalMap[i][j] = LogicalWall;
	}
	else if (getTile(i + 1, j) == wallOffset + MAP_WALL_X)
	{
	if (j == 0 \|\| getTile(i, j - 1) == wallOffset + MAP_WALL_X)
	{
	map[i][j] = wallOffset + MAP_WALL_7;
	map[i][j] = wallOffset + MAP_WALL_7;
	}
	else if (j == MAP_HEIGHT - 1 \|\| getTile(i, j + 1) == wallOffset + MAP_WALL_X) map[i][j] = wallOffset + MAP_WALL_7;
	else
	{
	if (j < MAP_HEIGHT / 2) map[i][j] = wallOffset + MAP_WALL_87;
	else if (j > MAP_HEIGHT / 2) map[i][j] = wallOffset + MAP_WALL_87;
	else map[i][j] = wallOffset + MAP_WALL_8;
	}
	logicalMap[i][j] = LogicalWall;
	}
	else if (getTile(i, j - 1) == wallOffset + MAP_WALL_X)
	{
	if (i == 0) map[i][j] = wallOffset + MAP_WALL_7;
	else if (i == MAP_WIDTH - 1) map[i][j] = wallOffset + MAP_WALL_7;
	else
	{
	if (i < MAP_WIDTH / 2) map[i][j] = wallOffset + MAP_WALL_87;
	else if (i > MAP_WIDTH / 2) map[i][j] = wallOffset + MAP_WALL_87;
	else map[i][j] = wallOffset + MAP_WALL_8;
	}
	logicalMap[i][j] = LogicalWall;
	}
	else if (getTile(i, j + 1) == wallOffset + MAP_WALL_X)
	{
	if (i == 0) map[i][j] = wallOffset + MAP_WALL_7;
	else if (i == MAP_WIDTH - 1) map[i][j] = wallOffset + MAP_WALL_7;
	else
	{
	if (i < MAP_WIDTH / 2) map[i][j] = wallOffset + MAP_WALL_87;
	else if (i > MAP_WIDTH / 2) map[i][j] = wallOffset + MAP_WALL_87;
	else map[i][j] = wallOffset + MAP_WALL_8;
	}
	logicalMap[i][j] = LogicalWall;
	}
	}
	}
	}
	}

	void DungeonMap::generateRandomTile()
	{
	bool ok = false;
	for (int i = 0; !ok && i < NB_RANDOM_TILE_TRY; i++)
	{
	int n = rand() % NB_RANDOM_TILES;

	int xTile, yTile;

	if (randomDungeonTiles[n].totalRandom)
	{
	xTile = rand() % (GAME_WIDTH - randomDungeonTiles[n].width);
	yTile = rand() % (GAME_HEIGHT - randomDungeonTiles[n].height);
	}
	else
	{
	xTile = TILE_WIDTH + rand() % (GAME_WIDTH - 2 * TILE_WIDTH - randomDungeonTiles[n].width);
	yTile = TILE_HEIGHT + rand() % (GAME_HEIGHT - 2 * TILE_HEIGHT - randomDungeonTiles[n].height);
	}

	int x0 = xTile / TILE_WIDTH;
	int xf = (xTile + randomDungeonTiles[n].width) / TILE_WIDTH;
	int y0 = yTile / TILE_HEIGHT;
	int yf = (yTile + randomDungeonTiles[n].height) / TILE_HEIGHT;

	ok = true;

	if (!randomDungeonTiles[n].totalRandom)
	{
	for (int ix = x0; ix <= xf; ix++)
	for (int iy = y0; iy <= yf; iy++)
	{
	ok = ok && isWalkable(ix, iy);
	}
	}

	if (ok)
	{
	randomTileElement.type = n;
	randomTileElement.x = xTile;
	randomTileElement.y = yTile;
	if (randomDungeonTiles[n].totalRandom)
	randomTileElement.rotation = rand()% 360;
	else
	randomTileElement.rotation = 0;
	}
	}
	}

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