Difference between revisions of "Rot.js tutorial, part 3"
Ebrobinson (talk | contribs) (Moved lines to match JSFiddle, and also because I confused them while doing the tutorial and only wrote passableCallback. Having them this way around makes it much clearer that there are two separate callbacks at a quick glance.) |
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This is the third part of a [[rot.js tutorial]]. | This is the third part of a [[rot.js tutorial]]. | ||
== Looking inside the box == | == Looking inside the box == | ||
The game generates several boxes, but so far, none of | The game generates several boxes, but so far, none of them contains the prized ananas. Let us store the ananas in the first box generated: | ||
<div style="padding:5px; background-color:#eee; margin-bottom:2em;"> | <div style="padding:5px; background-color:#eee; margin-bottom:2em;"> | ||
Line 34: | Line 32: | ||
</div> | </div> | ||
Opening a box to verify its contents is as simple as comparing | Opening a box to verify its contents is as simple as comparing the player's current position with our list of boxes and the stored ananas position: | ||
<div style="padding:5px; background-color:#eee; margin-bottom:2em;"> | <div style="padding:5px; background-color:#eee; margin-bottom:2em;"> | ||
Line 64: | Line 62: | ||
this._draw(); | this._draw(); | ||
} | } | ||
Pedro.prototype._draw = function() { | Pedro.prototype._draw = function() { | ||
Line 85: | Line 81: | ||
this.player = this._createBeing(Player, freeCells); | this.player = this._createBeing(Player, freeCells); | ||
this.pedro = this._createBeing(Pedro, freeCells); | this.pedro = this._createBeing(Pedro, freeCells); | ||
} | |||
Game.init = function() { | |||
/* ...previous stuff... */ | |||
scheduler.add(this.player, true); | |||
scheduler.add(this.pedro, true); | |||
} | } | ||
</syntaxhighlight> | </syntaxhighlight> | ||
Line 93: | Line 96: | ||
== Pathfinding-based AI == | == Pathfinding-based AI == | ||
Pedro is missing its <code>act</code> method so far | Pedro is missing its <code>act()</code> method so far. We are going to use one of rot.js's pathfinding functions to implement Pedro's behavior: <code>ROT.Path.AStar</code> (the A* algorithm). Some rudimentary scaffolding is necessary: | ||
# The player must have public methods to read its position, | |||
# We need a ''passableCallback'' function which tells the pathfinder what areas are passable, | |||
# We need a ''pathCallback'' function, which will be called from within the pathfinder (to notify us about the shortest path found). | |||
Moreover, to make Pedro somewhat weaker than player, we will use the pathfinder only in 4-topology. | |||
<div style="padding:5px; background-color:#eee; margin-bottom:2em;"> | |||
<syntaxhighlight lang="javascript"> | |||
Player.prototype.getX = function() { return this._x; } | |||
Player.prototype.getY = function() { return this._y; } | |||
Pedro.prototype.act = function() { | |||
var x = Game.player.getX(); | |||
var y = Game.player.getY(); | |||
var passableCallback = function(x, y) { | |||
return (x+","+y in Game.map); | |||
} | |||
var astar = new ROT.Path.AStar(x, y, passableCallback, {topology:4}); | |||
var path = []; | |||
var pathCallback = function(x, y) { | |||
path.push([x, y]); | |||
} | |||
astar.compute(this._x, this._y, pathCallback); | |||
} | |||
</syntaxhighlight> | |||
</div> | |||
We now have the shortest path between Pedro and the player, stored in the <code>path</code> variable. Note that Pedro's current position is also part of the path; that's why we first discard the first item of our path. If the resulting path is only one-cell long, Pedro is standing close to the player and the game is over (player lost). Otherwise, we apply the same movement logic we used for the player in Part 2 of this tutorial. | |||
<div style="padding:5px; background-color:#eee; margin-bottom:2em;"> | |||
<syntaxhighlight lang="javascript"> | |||
Pedro.prototype.act = function() { | |||
/* ...previous stuff... */ | |||
path.shift(); /* remove Pedro's position */ | |||
if (path.length == 1) { | |||
Game.engine.lock(); | |||
alert("Game over - you were captured by Pedro!"); | |||
} else { | |||
x = path[0][0]; | |||
y = path[0][1]; | |||
Game.display.draw(this._x, this._y, Game.map[this._x+","+this._y]); | |||
this._x = x; | |||
this._y = y; | |||
this._draw(); | |||
} | |||
} | |||
</syntaxhighlight> | |||
</div> | |||
Ta-dah! The game is complete now; it is possible to win and lose. Some considerations for possible further improvements: | |||
* Player can crash the game by moving onto Pedro's cell. Not only this is currently allowed, but it also disrupts Pedro's pathfinding (which expects the path to be at least two cells long). | |||
* The <code>Game.map</code> structure should probably store positions of beings (player, Pedro) as well. | |||
* It would be comfortable for users to increase the set of allowed navigation keys (number keys, vi keys). | |||
* When a box is inspected, its appearance may change (to make it easier for player to distinguish between visited and unvisited boxes). | |||
And that's all for part 3. The whole working code is available at [http://jsfiddle.net/rotjs/qRnFY/ jsfiddle.net]. | And that's all for part 3. The whole working code is available at [http://jsfiddle.net/rotjs/qRnFY/ jsfiddle.net]. | ||
[[Category:Developing]] |
Latest revision as of 06:41, 16 April 2013
This is the third part of a rot.js tutorial.
Looking inside the box
The game generates several boxes, but so far, none of them contains the prized ananas. Let us store the ananas in the first box generated:
Game.ananas = null;
Game._generateBoxes = function(freeCells) {
for (var i=0;i<10;i++) {
/* ...previous stuff... */
if (!i) { this.ananas = key; } /* first box contains an ananas */
}
}
Apart from moving, there is one more interaction a player must perform: looking into boxes. We will allow both Enter (keyCode 13) and Spacebar (keyCode 32) for this action:
Player.prototype.handleEvent = function(e) {
var code = e.keyCode;
if (code == 13 || code == 32) {
this._checkBox();
return;
}
}
Opening a box to verify its contents is as simple as comparing the player's current position with our list of boxes and the stored ananas position:
Player.prototype._checkBox = function() {
var key = this._x + "," + this._y;
if (Game.map[key] != "*") {
alert("There is no box here!");
} else if (key == Game.ananas) {
alert("Hooray! You found an ananas and won this game.");
Game.engine.lock();
window.removeEventListener("keydown", this);
} else {
alert("This box is empty :-(");
}
}
Pedro, the angry owner
The game is now winnable! Let's add a villain as a second actor. We will place him using the same algorithm we used previously. To do this, let's refactor the original _createPlayer
method into a more useful parametrized factory _createBeing
by passing a constructor function as an argument:
var Pedro = function(x, y) {
this._x = x;
this._y = y;
this._draw();
}
Pedro.prototype._draw = function() {
Game.display.draw(this._x, this._y, "P", "red");
}
Game._createBeing = function(what, freeCells) {
var index = Math.floor(ROT.RNG.getUniform() * freeCells.length);
var key = freeCells.splice(index, 1)[0];
var parts = key.split(",");
var x = parseInt(parts[0]);
var y = parseInt(parts[1]);
return new what(x, y);
}
Game._generateMap = function() {
/* ...previous stuff... */
this.player = this._createBeing(Player, freeCells);
this.pedro = this._createBeing(Pedro, freeCells);
}
Game.init = function() {
/* ...previous stuff... */
scheduler.add(this.player, true);
scheduler.add(this.pedro, true);
}
This might be confusing to some, but passing functions around (as function arguments, for instance) is very common in JavaScript.
Pathfinding-based AI
Pedro is missing its act()
method so far. We are going to use one of rot.js's pathfinding functions to implement Pedro's behavior: ROT.Path.AStar
(the A* algorithm). Some rudimentary scaffolding is necessary:
- The player must have public methods to read its position,
- We need a passableCallback function which tells the pathfinder what areas are passable,
- We need a pathCallback function, which will be called from within the pathfinder (to notify us about the shortest path found).
Moreover, to make Pedro somewhat weaker than player, we will use the pathfinder only in 4-topology.
Player.prototype.getX = function() { return this._x; }
Player.prototype.getY = function() { return this._y; }
Pedro.prototype.act = function() {
var x = Game.player.getX();
var y = Game.player.getY();
var passableCallback = function(x, y) {
return (x+","+y in Game.map);
}
var astar = new ROT.Path.AStar(x, y, passableCallback, {topology:4});
var path = [];
var pathCallback = function(x, y) {
path.push([x, y]);
}
astar.compute(this._x, this._y, pathCallback);
}
We now have the shortest path between Pedro and the player, stored in the path
variable. Note that Pedro's current position is also part of the path; that's why we first discard the first item of our path. If the resulting path is only one-cell long, Pedro is standing close to the player and the game is over (player lost). Otherwise, we apply the same movement logic we used for the player in Part 2 of this tutorial.
Pedro.prototype.act = function() {
/* ...previous stuff... */
path.shift(); /* remove Pedro's position */
if (path.length == 1) {
Game.engine.lock();
alert("Game over - you were captured by Pedro!");
} else {
x = path[0][0];
y = path[0][1];
Game.display.draw(this._x, this._y, Game.map[this._x+","+this._y]);
this._x = x;
this._y = y;
this._draw();
}
}
Ta-dah! The game is complete now; it is possible to win and lose. Some considerations for possible further improvements:
- Player can crash the game by moving onto Pedro's cell. Not only this is currently allowed, but it also disrupts Pedro's pathfinding (which expects the path to be at least two cells long).
- The
Game.map
structure should probably store positions of beings (player, Pedro) as well. - It would be comfortable for users to increase the set of allowed navigation keys (number keys, vi keys).
- When a box is inspected, its appearance may change (to make it easier for player to distinguish between visited and unvisited boxes).
And that's all for part 3. The whole working code is available at jsfiddle.net.