Game tile movement in 2d map

What's the best way to do movement in a 2D square grid system? I have this something that works but it seems wrong/ugly (see below).

``````x x x x x x x
x x x x x x x
x x x O x x x
x x x U x x x
x x x x x x x
x x x x x x x
x x x x x x x
``````

For example, U is the unit I want to move, and O is an impassable object like another unit or a mountain. If U can move 3 tiles, I want the moveable area (M) to look like this.

``````x x x x x x x
x x M x M x x
x M M O M M x
M M M U M M M
x x M M M M x
x x M M M x x
x x x M x x x
``````

Here's my code:

``````public function possibleMoves(range:uint, cords:Array):void {
var X:uint = cords[0];
var Y:uint = cords[1];

if (range > 0) {
try {
theGrid[X + 1][Y].moveable = true;
if (theGrid[X + 1][Y].getOccupied == false) {
possibleMoves(range - 1, [X + 1, Y], flag, mtype);
}
}   catch (err:Error) { }

try {
theGrid[X - 1][Y].moveable = true;
if (theGrid[X - 1][Y].getOccupied == false) {
possibleMoves(range - 1, [X - 1, Y], flag, mtype);
}
}   catch (err:Error) { }

try {
theGrid[X][Y + 1].moveable = true;
if (theGrid[X][Y + 1].getOccupied == false) {
possibleMoves(range - 1, [X, Y + 1], flag, mtype);
}
}   catch (err:Error) { }

try {
theGrid[X][Y - 1].moveable = true;
if (theGrid[X][Y - 1].getOccupied == false) {
possibleMoves(range - 1, [X, Y - 1], flag, mtype);
}
}   catch (err:Error) { }
}
``````
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why is all your code in try/catch statements? it's nice to be on the safe side, but this is a bit extreme. –  grapefrukt Feb 7 '11 at 6:49

the data structure of your tileset seems strongly coupled to a "Tile" class that does too many things ; theGrid[X][Y].moveable, theGrid[X][Y].getOccupied... + probably some other methods.

maybe the tileset data structure should only store Boolean values (walkable?true/false) and have a single method to tell wether a tile is walkable or not. in this case, a Vector of Boolean values is enough. testing the 4 ( or 8 with diagonals ) naerby values is pretty fast and spreading the test to the newly found values can be done with a recursive loop.

if you have different types of tiles (walls, objects, characters etc.), you could use a Vector.< int > rather than Booleans ; 0 would be a walkable tile and anything else would be forbidden areas. this allows a Boolean check : as 0 = false and any other value = true.

I've done a sample here http://wonderfl.net/c/bRV8 ; it might be clearer than pasting the code. move the mouse around, you should see a pinky shape the gives you the valid cells.

• l.53 is the "connexity" possible valeus are 4 and 8
• four connected gives

• eight connected

• l.54 is the max recursion depth

as such, the recursion is performed regardless of the starting point. it will spill in a sometimes unexpected way.

if you need to give a specific amount of moves this won't be enough, you'll have to set up some kind of pathfinder.

Edit: It appears that the code provided works, but contains a recursion termination bug that is attempted to be avoided by the following line. This works only in some cases and behaves really weird if you put your character at the edge of the map or give him number of moves other than 5:

``````        var max:int = ( maxDepth * maxDepth );
if( maxDepth % 2 == 0 )max--;
recursiveCheck( valid, tilesetClone, 0, max, connexity );
``````

I checked with different recursion depth, and the bug quickly becomes apparent. Lack of grid and complex map design of this example obscures the bug, but here's a screenshot below - note that if mouse is positioned in the corner like shown, the field extends 6 squares up and 7 squares left, while it should've only been 5.

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Thanks so much! I'm obviously a novice, but this is very helpful. You mentioned you can use a vector of ints to store characters. If these characters have different properties (hit points, move points, etc.), how will you deal with this? Does the map vector just indicate whether or not a character exists at that point? If so, does that mean there is another mapping that links specific characters (with all their additional info) to the map? –  Andrew Feb 8 '11 at 17:10
very welcome :) you should keep things separated: a map should not be aware of what it represents ; monster, item, wall, it doesn't matter. the int vector just helps us represent walkable areas. Apart from the map, you should maintain a vector< Monster >, a vector< Item > etc. each object is independant and, if it has to be represented on the map, should store its location on the map (its index in the vector< int > of the map ). as we check the 'walkability' of a tile, we can also check the 'quality' (the value of the tile in the vector int ) and deduce wether it is an item or an enemy. –  nicoptere Feb 8 '11 at 19:32

Your code will work, but is far from elegant. A lot of tiles will be calculated multiple times. You could fix this by caching the results for each gridTile.

Have a look at the Memoization technique.

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Great thanks this is a new technique for me - looks like a good way to optimize. –  Andrew Feb 8 '11 at 16:55
It's a popular technique for recursive functions, but can also be used for any situation where you want to trade in some memory for speed (store rather than recalculate): databases, disk access, ... –  Konerak Feb 8 '11 at 17:21

Here's the correct solution to the recursion to the avoiding obstacles on a 2D tile map problem in objective-c. Took me good 4.5 hours translate action script to objective-c and debug it... almost 3AM now :) To use this, just create a map of X by Y squares, put your model on the map and call

``````-(NSMutableArray*)possibleMovesFromIndex:(int)tileIndex movesCount:(int)moves allowDiagonalMoves:(BOOL)allowDiagonal
``````

The resulting array will give you locations that your character can reach with the given number of moves. You can then use `A* pathfinding algorithm` to animate movement from the current position to any one of highlighted tiles.

I have attempted to be super-verbose in my names and descriptions, as it was quite difficult to trace these points through all these method calls without it.

``````MapOfTiles.h:

#import <Foundation/Foundation.h>

#define tileCountWide 14
#define tileCountTall 8

@interface MapOfTiles : NSObject
@property (nonatomic,strong)NSMutableArray* tilesetWalkable;

@property (nonatomic)int width;
@property (nonatomic)int height;

-(id)initWithXWidth:(int)xWidth yHeight:(int)yHeight;

-(CGPoint)pointFromIndex:(int)index;

-(NSMutableArray*)possibleMovesFromIndex:(int)tileIndex movesCount:(int)moves allowDiagonalMoves:(BOOL)allowDiagonal;

@end
``````

MapOfTiles.m

``````#import "MapOfTiles.h"

@implementation MapOfTiles

-(id)initWithXWidth:(int)xWidth yHeight:(int)yHeight
{
self = [super init];
if (self) {
self.width = xWidth;
self.height = yHeight;

int count = xWidth*yHeight;

self.tilesetWalkable = [[NSMutableArray alloc] initWithCapacity:count];

for(int i = 0 ; i<count; i++)
{
//initial map is blank and has no obstacles
}

}

return self;
}

-(int)tileCount
{
return self.width*self.height;
}

-(NSMutableArray*)possibleMovesFromIndex:(int)tileIndex movesCount:(int)moves allowDiagonalMoves:(BOOL)allowDiagonal
{
int connexity = 4;
if(allowDiagonal)
{
connexity = 8;
}

//check if there is an obstacle at the origin
NSNumber* movementOrigin  = self.tilesetWalkable[tileIndex];

//if the first tile is walkable, proceed with seeking recursive solutions using 4 or 8 connected tiles
if(movementOrigin.boolValue == YES)
{
//create a copy to avoid messing up the real map
NSMutableArray* tilesetClone = [NSMutableArray arrayWithArray:self.tilesetWalkable];

//will contain tileset indices where you can reach in the given number of moves if you can only move in a straight line or straight line and diagonally
NSMutableArray* validMoves = [NSMutableArray arrayWithCapacity:10];

//we start building our array of walkable tiles with the origin, because we just tested it
NSNumber* originIsWalkable = [NSNumber numberWithInt:tileIndex];
NSMutableArray* initialWalkableTilesArray = [NSMutableArray arrayWithObject:originIsWalkable];

//for the first recursion, we manually set the origin to be not walkable, so recursion cannot return to it
[tilesetClone  replaceObjectAtIndex:tileIndex withObject:[NSNumber numberWithBool:NO]];

[self  recursiveCheckWithValidMovesArray:validMoves
tileset:tilesetClone
currentMove:0
maxMoves:moves
connexity:connexity];
return validMoves;

}

return nil;
}

-(void)recursiveCheckWithValidMovesArray:(NSMutableArray*)validMovesToPopulate tileset:(NSMutableArray*)tileset currentMove:(int)currentDepth maxMoves:(int)maxDepth connexity:(int)connexity
{
if(currentDepth == maxDepth)
{
return;
}else
{

NSArray* movesToCheck = [validMovesToPopulate objectAtIndex:currentDepth];
DLog(@"checking moves: %@",movesToCheck);

for (NSNumber* walkableMapIndex in movesToCheck)
{

//check array for valid moves
NSMutableArray* validMovesFromPoint = [self getValidMovesFromPoint:[self pointFromIndex:walkableMapIndex.intValue]
lockMovesInTileset:tileset
usingConnexity:connexity];

//remember valid moves, so the next iteration will check them

if(validMovesToPopulate.count == currentDepth+1)
{
//this is the first time we are looking at moves at this depth, so add an array that will hold these moves
}else
{
//there is already an array at this depth, just add more values to it
NSMutableArray* validTilesForThisMove = validMovesToPopulate[currentDepth+1];
}
}

if(movesToCheck.count>0)
{
[self  recursiveCheckWithValidMovesArray:validMovesToPopulate
tileset:tileset
currentMove:++currentDepth
maxMoves:maxDepth
connexity:connexity];
}else
{
return;
}

}
}

-(CGPoint)pointFromIndex:(int)index
{
//for a field that is 8 tall  by 12 wide with 0,0 in bottom left
//tileCountTall is also number of rows
//x is column
int x = index / tileCountTall;

//y is row
int y = index % tileCountTall;
CGPoint xyPointInTileset = CGPointMake(x, y);

DLog(@"Examing index: %i assigned:x%.0f, y:%.0f",index, xyPointInTileset.x,xyPointInTileset.y);
return xyPointInTileset;
}

-(int)indexFromPoint:(CGPoint)point
{
return [self indexFromX:point.x y:point.y];
}

-(int)indexFromX:(int)x y:(int)y
{
//in my case the map is rectangular
if ( x < 0 ) x = 0;

int tileWidth = tileCountWide -2 ;//in my case, 2 rows of grid are hidden off screen for recycling of map segments
if ( x > tileWidth - 1 ) x = tileWidth - 1;

if ( y < 0 ) y = 0;
if ( y > tileCountTall - 1 ) y = tileCountTall - 1;

#warning this might screw up the algorithm, because for me x and y values are mapped differently?
return x * tileCountTall + y;

return 0;
}

-(void)lockTileAtIndex:(int)index forTileset:(NSMutableArray*)tileset rememberValidMovesInThisArray:(NSMutableArray*)tiles
{
DLog(@"Locking tile: %i",index);
//we lock this tile, so it is not checked by future recursions
NSNumber* tileIsNotWalkableAtIndex = [NSNumber numberWithBool:NO];
[tileset replaceObjectAtIndex:index withObject:tileIsNotWalkableAtIndex];

//remember that this index is a valid move

}

-(NSMutableArray*)getValidMovesFromPoint:(CGPoint)p lockMovesInTileset:(NSMutableArray*)tileset usingConnexity:(int)connexity
{
int i = 0;
NSMutableArray* validMovesFromThisPoint = [NSMutableArray array];//these tiles are valid moves from point

NSNumber* tileIsWalkable = nil;

//using (x,y) (0,0) as bottom left corner, Y axis pointing up, X axis pointing right
i = [self indexFromPoint:CGPointMake(p.x-1, p.y)];//left
tileIsWalkable = tileset[i];
if(tileIsWalkable.boolValue == YES)
{
[self lockTileAtIndex:i forTileset:tileset rememberValidMovesInThisArray:validMovesFromThisPoint];
};

i = [self indexFromPoint:CGPointMake(p.x+1, p.y)];//right
tileIsWalkable = tileset[i];
if(tileIsWalkable.boolValue == YES)
{
[self lockTileAtIndex:i forTileset:tileset rememberValidMovesInThisArray:validMovesFromThisPoint];
};

i = [self indexFromPoint:CGPointMake(p.x, p.y-1)];//bottom
tileIsWalkable = tileset[i];
if(tileIsWalkable.boolValue == YES)
{
[self lockTileAtIndex:i forTileset:tileset rememberValidMovesInThisArray:validMovesFromThisPoint];
};

i = [self indexFromPoint:CGPointMake(p.x, p.y+1)];//top
tileIsWalkable = tileset[i];
if(tileIsWalkable.boolValue == YES)
{
[self lockTileAtIndex:i forTileset:tileset rememberValidMovesInThisArray:validMovesFromThisPoint];
};

if(connexity == 4){
return validMovesFromThisPoint;//if we want a connexity 4, no need to go further
}

i = [self indexFromPoint:CGPointMake(p.x-1, p.y-1)];//bottom left
tileIsWalkable = tileset[i];
if(tileIsWalkable.boolValue == YES){
[self lockTileAtIndex:i forTileset:tileset rememberValidMovesInThisArray:validMovesFromThisPoint];
};

i = [self indexFromPoint:CGPointMake(p.x+1, p.y-1)];//bottom right
tileIsWalkable = tileset[i];
if(tileIsWalkable.boolValue == YES){
[self lockTileAtIndex:i forTileset:tileset rememberValidMovesInThisArray:validMovesFromThisPoint];
};

i = [self indexFromPoint:CGPointMake(p.x-1, p.y+1)];//top left
tileIsWalkable = tileset[i];
if(tileIsWalkable.boolValue == YES){
[self lockTileAtIndex:i forTileset:tileset rememberValidMovesInThisArray:validMovesFromThisPoint];
};

i = [self indexFromPoint:CGPointMake(p.x+1, p.y+1)];///top right
tileIsWalkable = tileset[i];
if(tileIsWalkable.boolValue == YES){
[self lockTileAtIndex:i forTileset:tileset rememberValidMovesInThisArray:validMovesFromThisPoint];
};

return validMovesFromThisPoint;
}

@end
``````
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