Upit | Learn about creating the game Aquarium Live (Ultra realistic) with gen AI

var Plant = Container.expand(function () {
	var self = Container.call(this);
	var plantGraphics = self.createAsset('plant', 'Plant Graphics', 0.5, 0.5);
	self.size = 50;
});
var Egg = Container.expand(function () {
	var self = Container.call(this);
	var eggGraphics = self.createAsset('egg', 'Egg Graphics', 0.5, 0.5);
	self.hatchTime = LK.ticks + Math.random() * 3000 + 2000;
	self.on('tick', function () {
		if (LK.ticks > self.hatchTime) {
			var babyFish = new Fish();
			babyFish.x = self.x;
			babyFish.y = self.y;
			LK.stageContainer.addChild(babyFish);
			self.destroy();
		}
	});
});
var Food = Container.expand(function () {
	var self = Container.call(this);
	self.nutrition = 20;
	var foodGraphics = self.createAsset('food', 'Food Graphics', 0.5, 0.5);
	self.consume = function () {
		self.destroy();
	};
});
var Obstacle = Container.expand(function () {
	var self = Container.call(this);
	self.radius = 50;
});
var Fish = Container.expand(function () {
	var self = Container.call(this);
	self.hunger = 100;
	self.isResting = false;
	self.lastRestTime = LK.ticks;
	self.restInterval = Math.random() * 3000 + 2000;
	self.isMating = false;
	self.lastMateTime = LK.ticks;
	self.mateInterval = Math.random() * 5000 + 3000;
	self.isLayingEggs = false;
	self.lastEggTime = LK.ticks;
	self.eggInterval = Math.random() * 3000 + 2000;
	self.hungerDecayRate = 0.1;
	self.eatFood = function (food) {
		if (self.distanceTo(food) < 50) {
			self.hunger = Math.min(self.hunger + food.nutrition, 100);
			food.consume();
		}
	};
	self.updateHunger = function () {
		self.hunger -= self.hungerDecayRate;
		if (self.hunger <= 0) {
			self.die();
		}
	};
	self.greetFish = function (otherFish) {
		if (!self.memory.includes(otherFish)) {
			self.targetRotation = Math.atan2(otherFish.y - self.y, otherFish.x - self.x);
			self.directionChangeTime = LK.ticks;
			self.directionChangeInterval = 5;
			self.rememberObject(otherFish);
		}
	};
	self.playWithObject = function (target) {
		self.targetRotation = Math.atan2(target.y - self.y, target.x - self.x) + Math.random() * Math.PI - Math.PI / 2;
		self.directionChangeTime = LK.ticks;
		self.directionChangeInterval = 5;
	};
	self.memory = [];
	self.rememberObject = function (target) {
		if (!self.memory.includes(target)) {
			self.memory.push(target);
		}
	};
	self.findClosestFood = function () {
		var closestFood = null;
		var closestDistance = Infinity;
		LK.stageContainer.children.forEach(function (child) {
			if (child instanceof Food) {
				var distance = self.distanceTo(child);
				if (distance < closestDistance) {
					closestDistance = distance;
					closestFood = child;
				}
			}
		});
		return closestFood;
	};
	self.forgetObject = function (target) {
		var index = self.memory.indexOf(target);
		if (index > -1) {
			self.memory.splice(index, 1);
		}
	};
	self.getNearbyObjects = function () {
		var nearbyObjects = [];
		LK.stageContainer.children.forEach(function (child) {
			if (!(child instanceof Fish) && child !== self) {
				var dx = child.x - self.x;
				var dy = child.y - self.y;
				var distance = Math.sqrt(dx * dx + dy * dy);
				if (distance < 300) {
					nearbyObjects.push(child);
				}
			}
		});
		return nearbyObjects;
	};
	self.findCuriosityTarget = function () {
		var possibleTargets = self.getNearbyObjects();
		if (possibleTargets.length > 0) {
			self.curiosityTarget = possibleTargets[Math.floor(Math.random() * possibleTargets.length)];
		}
	};
	self.investigateCuriosity = function (target) {
		self.targetRotation = Math.atan2(target.y - self.y, target.x - self.x);
		self.directionChangeTime = LK.ticks;
		self.directionChangeInterval = 10;
	};
	self.distanceTo = function (target) {
		var dx = target.x - self.x;
		var dy = target.y - self.y;
		return Math.sqrt(dx * dx + dy * dy);
	};
	self.formSchool = function (similarFish) {
		var alignmentAngle = 0;
		similarFish.forEach(function (fish) {
			alignmentAngle += fish.rotation;
		});
		alignmentAngle /= similarFish.length;
		self.targetRotation = alignmentAngle;
		self.directionChangeTime = LK.ticks;
		self.directionChangeInterval = 30;
	};
	self.evadePredators = function (predators) {
		var evadeAngle = 0;
		predators.forEach(function (predator) {
			var angleToPredator = Math.atan2(predator.y - self.y, predator.x - self.x);
			evadeAngle += angleToPredator + Math.PI;
		});
		evadeAngle /= predators.length;
		self.targetRotation = evadeAngle + (Math.random() * Math.PI - Math.PI / 2);
		self.directionChangeTime = LK.ticks;
		self.directionChangeInterval = 10;
	};
	self.followLeader = function (leaderFish) {
		var followDistance = 50;
		var dx = leaderFish.x - self.x;
		var dy = leaderFish.y - self.y;
		var distance = Math.sqrt(dx * dx + dy * dy);
		if (distance > followDistance) {
			self.targetRotation = Math.atan2(dy, dx);
			self.directionChangeTime = LK.ticks;
			self.directionChangeInterval = 10;
		}
	};
	self.findLeaderFish = function (nearbyFish) {
		var leader = null;
		var maxScore = 0;
		nearbyFish.forEach(function (fish) {
			var score = fish.size + fish.speed;
			if (score > maxScore) {
				maxScore = score;
				leader = fish;
			}
		});
		return leader;
	};
	self.evadeLargerFish = function (largerFish) {};
	self.getNearbyFish = function () {
		var nearbyFish = [];
		LK.stageContainer.children.forEach(function (child) {
			if (child instanceof Fish && child !== self) {
				var dx = child.x - self.x;
				var dy = child.y - self.y;
				var distance = Math.sqrt(dx * dx + dy * dy);
				if (distance < 300) {
					nearbyFish.push(child);
				}
			}
		});
		return nearbyFish;
	};
	self.avoidObstacles = function (obstacles) {
		if (obstacles.length > 0) {
			var sumAngles = 0;
			var count = 0;
			for (var i = 0; i < obstacles.length; i++) {
				var obstacle = obstacles[i];
				var angleToObstacle = Math.atan2(obstacle.y - self.y, obstacle.x - self.x);
				sumAngles += angleToObstacle + Math.PI;
				count++;
			}
			if (count > 0) {
				var averageAvoidAngle = sumAngles / count;
				self.targetRotation = averageAvoidAngle;
				self.directionChangeTime = LK.ticks;
				self.directionChangeInterval = Math.random() * 50 + 30;
			}
		}
	};
	self.isPathBlocked = function (newX, newY, obstacles) {
		for (var i = 0; i < obstacles.length; i++) {
			var obstacle = obstacles[i];
			var dx = obstacle.x - newX;
			var dy = obstacle.y - newY;
			if (Math.sqrt(dx * dx + dy * dy) < obstacle.radius + self.radius) {
				return true;
			}
		}
		return false;
	};
	self.die = function () {
		self.destroy();
	};
	self.getNearbyObstacles = function () {
		var nearbyObstacles = [];
		LK.stageContainer.children.forEach(function (child) {
			if (typeof Obstacle !== 'undefined' && child instanceof Obstacle) {
				var dx = child.x - self.x;
				var dy = child.y - self.y;
				var distance = Math.sqrt(dx * dx + dy * dy);
				if (distance < 300) {
					nearbyObstacles.push(child);
				}
			}
		});
		return nearbyObstacles;
	};
	this.getWaterBounds = function () {
		var waterGraphics = LK.getAsset('water', 'Water Graphics', 0, 0);
		return {
			left: (2048 - waterGraphics.width) / 2,
			right: (2048 + waterGraphics.width) / 2,
			top: (2732 - waterGraphics.height) / 2 - 150,
			bottom: (2732 + waterGraphics.height) / 2 - 150
		};
	};
});
var Surgeonfish = Fish.expand(function () {
	var self = Fish.call(this) || this;
	var fishGraphics = self.createAsset('surgeonfish', 'Surgeonfish Graphics', .5, .5);
	fishGraphics.scale.set(1, 1);
	self.speed = (Math.random() * 0.2 + 0.5) * 2;
	self.move = function () {
		if (!self.directionChangeTime || LK.ticks - self.directionChangeTime > self.directionChangeInterval) {
			self.directionChangeTime = LK.ticks;
			self.directionChangeInterval = Math.random() * 120 + 60;
			self.targetRotation = Math.random() * Math.PI * 2;
		}
		var progress = (LK.ticks - self.directionChangeTime) / self.directionChangeInterval;
		if (progress < 1) {
			var rotationSpeed = 0.05;
			var rotationDifference = self.targetRotation - self.rotation;
			if (rotationDifference > Math.PI) rotationDifference -= Math.PI * 2;
			if (rotationDifference < -Math.PI) rotationDifference += Math.PI * 2;
			self.rotation += Math.sign(rotationDifference) * Math.min(Math.abs(rotationDifference), rotationSpeed);
		} else {
			self.rotation = self.targetRotation;
		}
		var newX = self.x + Math.cos(self.rotation) * self.speed;
		var newY = self.y + Math.sin(self.rotation) * self.speed;
		var obstacles = self.getNearbyObstacles();
		var nearbyFish = self.getNearbyFish();
		if (nearbyFish.length > 1) {
			var closestFish = nearbyFish.reduce(function (prev, curr) {
				return self.distanceTo(prev) < self.distanceTo(curr) ? prev : curr;
			});
			if (self.distanceTo(closestFish) < self.radius * 2) {
				self.targetRotation = Math.atan2(self.y - closestFish.y, self.x - closestFish.x);
				self.directionChangeTime = LK.ticks;
				self.directionChangeInterval = 10;
			}
		}
		if (self.isPathBlocked(newX, newY, obstacles)) {
			var leaderFish = self.findLeaderFish(nearbyFish);
			if (leaderFish) {
				self.followLeader(leaderFish);
			} else {
				self.avoidObstacles(obstacles);
			}
		} else if (nearbyFish.some(fish => fish.size > self.size)) {
			var predators = nearbyFish.filter(fish => fish.size > self.size);
			if (predators.length > 0) {
				self.isFleeing = true;
				predators.forEach(function (predator) {
					self.rememberObject(predator);
				});
				self.evadePredators(predators);
				if (self.isFleeing) {
					var hidingSpots = self.getNearbyObstacles().filter(function (obstacle) {
						return self.distanceTo(obstacle) < 200;
					});
					if (hidingSpots.length > 0) {
						var hidingSpot = hidingSpots[Math.floor(Math.random() * hidingSpots.length)];
						self.targetRotation = Math.atan2(hidingSpot.y - self.y, hidingSpot.x - self.x);
						self.directionChangeTime = LK.ticks;
						self.directionChangeInterval = 20;
					}
				}
			} else {
				if (self.isFleeing && LK.ticks - self.directionChangeTime > 300) {
					self.isFleeing = false;
					self.memory = self.memory.filter(function (obj) {
						return !(obj instanceof Fish);
					});
				}
			}
		} else if (nearbyFish.length > 0) {
			var similarFish = nearbyFish.filter(fish => fish.constructor === self.constructor);
			if (similarFish.length > 0) {
				similarFish.forEach(function (fish) {
					self.greetFish(fish);
				});
				if (Math.random() < 0.05) {
					var potentialMates = similarFish.filter(function (fish) {
						return fish.constructor === self.constructor && fish !== self;
					});
					if (potentialMates.length > 0) {
						var mate = potentialMates[Math.floor(Math.random() * potentialMates.length)];
						self.targetRotation = Math.atan2(mate.y - self.y, mate.x - self.x);
						self.directionChangeTime = LK.ticks;
						self.directionChangeInterval = 20;
					}
				} else {
					self.formSchool(similarFish);
				}
			}
		} else if (self.curiosityTarget && self.distanceTo(self.curiosityTarget) < 100) {
			self.playWithObject(self.curiosityTarget);
			self.rememberObject(self.curiosityTarget);
		} else {
			self.x = newX;
			self.y = newY;
			if (self.hunger < 30 || self.hunger > 70 && Math.random() < 0.1) {
				var food = self.findClosestFood();
				if (food) {
					self.targetRotation = Math.atan2(food.y - self.y, food.x - self.x);
				} else {
					if (Math.random() < 0.05) {
						var toys = self.getNearbyObjects().filter(function (obj) {
							return !(obj instanceof Food) && !(obj instanceof Fish);
						});
						if (toys.length > 0) {
							var toy = toys[Math.floor(Math.random() * toys.length)];
							self.playWithObject(toy);
						}
					} else {
						self.findCuriosityTarget();
					}
				}
			} else {
				self.findCuriosityTarget();
			}
		}
		var waterBounds = self.getWaterBounds();
		if (self.x < waterBounds.left || self.x > waterBounds.right) {
			self.rotation = Math.PI - self.rotation;
		}
		if (self.y < waterBounds.top || self.y > waterBounds.bottom) {
			self.rotation = -self.rotation;
		}
		fishGraphics.scale.x = Math.cos(self.rotation) < 0 ? -1 : 1;
		fishGraphics.rotation = self.rotation;
	};
});
var Pufferfish = Fish.expand(function () {
	var self = Fish.call(this) || this;
	var fishGraphics = self.createAsset('pufferfish', 'Pufferfish Graphics', .5, .5);
	fishGraphics.scale.set(1, 1);
	self.speed = Math.random() * 0.2 + 0.4;
	self.move = function () {
		if (!self.directionChangeTime || LK.ticks - self.directionChangeTime > self.directionChangeInterval) {
			self.directionChangeTime = LK.ticks;
			self.directionChangeInterval = Math.random() * 140 + 80;
			self.targetRotation = Math.random() * Math.PI * 2;
		}
		var progress = (LK.ticks - self.directionChangeTime) / self.directionChangeInterval;
		if (progress < 1) {
			self.rotation += (self.targetRotation - self.rotation) * progress;
		} else {
			self.rotation = self.targetRotation;
		}
		var tentativeX = self.x + Math.cos(self.rotation) * self.speed;
		var tentativeY = self.y + Math.sin(self.rotation) * self.speed;
		var waterBounds = self.getWaterBounds();
		tentativeX = Math.max(waterBounds.left, Math.min(tentativeX, waterBounds.right));
		tentativeY = Math.max(waterBounds.top, Math.min(tentativeY, waterBounds.bottom));
		var waterBounds = self.getWaterBounds();
		tentativeX = Math.max(waterBounds.left, Math.min(tentativeX, waterBounds.right));
		tentativeY = Math.max(waterBounds.top, Math.min(tentativeY, waterBounds.bottom));
		self.x = tentativeX;
		self.y = tentativeY;
		var waterBounds = self.getWaterBounds();
		if (self.x < waterBounds.left || self.x > waterBounds.right) {
			self.rotation = Math.PI - self.rotation;
		}
		if (self.y < waterBounds.top || self.y > waterBounds.bottom) {
			self.rotation = -self.rotation;
		}
		fishGraphics.scale.x = Math.cos(self.rotation) < 0 ? -1 : 1;
		fishGraphics.rotation = self.rotation;
	};
});
var Clownfish = Fish.expand(function () {
	var self = Fish.call(this) || this;
	var fishGraphics = self.createAsset('clownfish', 'Clownfish Graphics', .5, .5);
	fishGraphics.scale.set(1, 1);
	self.speed = Math.random() * 0.2 + 0.4;
	self.move = function () {
		if (!self.directionChangeTime || LK.ticks - self.directionChangeTime > self.directionChangeInterval) {
			self.directionChangeTime = LK.ticks;
			self.directionChangeInterval = Math.random() * 110 + 70;
			self.targetRotation = Math.random() * Math.PI * 2;
		}
		var progress = (LK.ticks - self.directionChangeTime) / self.directionChangeInterval;
		if (progress < 1) {
			self.rotation += (self.targetRotation - self.rotation) * progress;
		} else {
			self.rotation = self.targetRotation;
		}
		var tentativeX = self.x + Math.cos(self.rotation) * self.speed * 2;
		var tentativeY = self.y + Math.sin(self.rotation) * self.speed * 2;
		var waterBounds = self.getWaterBounds();
		tentativeX = Math.max(waterBounds.left, Math.min(tentativeX, waterBounds.right));
		tentativeY = Math.max(waterBounds.top, Math.min(tentativeY, waterBounds.bottom));
		self.x = tentativeX;
		self.y = tentativeY;
		var waterBounds = self.getWaterBounds();
		if (self.x < waterBounds.left || self.x > waterBounds.right) {
			self.rotation = Math.PI - self.rotation;
		}
		if (self.y < waterBounds.top || self.y > waterBounds.bottom) {
			self.rotation = -self.rotation;
		}
		fishGraphics.scale.x = Math.cos(self.rotation) < 0 ? -1 : 1;
		fishGraphics.rotation = self.rotation;
	};
});
var Angelfish = Fish.expand(function () {
	var self = Fish.call(this) || this;
	var fishGraphics = self.createAsset('angelfish', 'Angelfish Graphics', .5, .5);
	fishGraphics.scale.set(1, 1);
	self.speed = Math.random() * 0.2 + 0.45;
	self.move = function () {
		if (!self.directionChangeTime || LK.ticks - self.directionChangeTime > self.directionChangeInterval) {
			self.directionChangeTime = LK.ticks;
			self.directionChangeInterval = Math.random() * 130 + 90;
			self.targetRotation = Math.random() * Math.PI * 2;
		}
		var progress = (LK.ticks - self.directionChangeTime) / self.directionChangeInterval;
		if (progress < 1) {
			self.rotation += (self.targetRotation - self.rotation) * progress;
		} else {
			self.rotation = self.targetRotation;
		}
		if (!self.velocity) {
			self.velocity = {
				x: 0,
				y: 0
			};
			self.acceleration = Math.random() * 0.05 + 0.025;
		}
		var targetVelocityX = Math.cos(self.rotation) * self.speed;
		var targetVelocityY = Math.sin(self.rotation) * self.speed;
		self.velocity.x += (targetVelocityX - self.velocity.x) * self.acceleration;
		self.velocity.y += (targetVelocityY - self.velocity.y) * self.acceleration;
		self.x += self.velocity.x;
		self.y += self.velocity.y;
		var waterBounds = self.getWaterBounds();
		if (self.x < waterBounds.left || self.x > waterBounds.right) {
			self.rotation = Math.PI - self.rotation;
		}
		if (self.y < waterBounds.top || self.y > waterBounds.bottom) {
			self.rotation = -self.rotation;
		}
		fishGraphics.scale.x = Math.cos(self.rotation) < 0 ? -1 : 1;
		fishGraphics.rotation = self.rotation;
	};
});
var Aquarium = Container.expand(function () {
	var self = Container.call(this);
	this.getWaterBounds = function () {
		var waterGraphics = LK.getAsset('water', 'Water Graphics', 0, 0);
		return {
			left: (2048 - waterGraphics.width) / 2,
			right: (2048 + waterGraphics.width) / 2,
			top: (2732 - waterGraphics.height) / 2 - 150,
			bottom: (2732 + waterGraphics.height) / 2 - 150
		};
	};
	var aquariumGraphics = self.createAsset('aquarium', 'Aquarium Background', 0, 0);
	aquariumGraphics.width = 2048 * 1.3;
	aquariumGraphics.height = 2732 * 1.3;
	aquariumGraphics.x = (2048 - aquariumGraphics.width) / 2;
	aquariumGraphics.y = (2732 - aquariumGraphics.height) / 2;
	self.addChild(aquariumGraphics);
	var waterGraphics = self.createAsset('water', 'Water Graphics', 0, 0);
	waterGraphics.width = 2048 / 3 * 2 * 1.08;
	waterGraphics.height = 2732 / 3 * 1.26;
	waterGraphics.x = (2048 - waterGraphics.width) / 2;
	waterGraphics.y = (2732 - waterGraphics.height) / 2 - 150;
	waterGraphics.alpha = 0;
	self.addChild(waterGraphics);
});
var KoiFish = Fish.expand(function () {
	var self = Fish.call(this) || this;
	var fishGraphics = self.createAsset('koiFish', 'Koi Fish Graphics', .5, .5);
	fishGraphics.scale.set(1, 1);
	self.speed = Math.random() * 0.2 + 0.48;
	self.move = function () {
		if (self.targetRotation === undefined || LK.ticks - self.rotationStartTime >= self.rotationDuration) {
			self.targetRotation = Math.random() * Math.PI * 2;
			self.rotationStartTime = LK.ticks;
			self.rotationDuration = Math.random() * 130 + 70;
		}
		var progress = (LK.ticks - self.rotationStartTime) / self.rotationDuration;
		if (progress < 1) {
			var deltaRotation = (self.targetRotation - self.rotation) * progress;
			self.rotation += deltaRotation;
		} else {
			self.rotation = self.targetRotation;
		}
		if (!self.isResting) {
			if (!self.isSleeping) {
				if (!self.isLayingEggs && LK.ticks - self.lastEggTime > self.eggInterval && self.hunger > 70) {
					self.isLayingEggs = true;
					self.lastEggTime = LK.ticks;
					self.eggInterval = Math.random() * 3000 + 2000;
					var egg = new Egg();
					egg.x = self.x;
					egg.y = self.y;
					LK.stageContainer.addChild(egg);
				} else if (self.isLayingEggs && LK.ticks - self.lastEggTime > 200) {
					self.isLayingEggs = false;
				}
				var nearbyPredators = self.getNearbyFish().filter(function (fish) {
					return fish.size > self.size && self.distanceTo(fish) < 200;
				});
				if (nearbyPredators.length > 0) {
					var hidingSpots = self.getNearbyObjects().filter(function (obj) {
						return obj instanceof Plant;
					});
					if (hidingSpots.length > 0) {
						var hidingSpot = hidingSpots[Math.floor(Math.random() * hidingSpots.length)];
						self.targetRotation = Math.atan2(hidingSpot.y - self.y, hidingSpot.x - self.x);
						self.directionChangeTime = LK.ticks;
						self.directionChangeInterval = 20;
					}
				}
				var similarFish = self.getNearbyFish().filter(function (fish) {
					return fish.constructor === self.constructor;
				});
				if (similarFish.length > 1) {
					var averageX = similarFish.reduce(function (sum, fish) {
						return sum + fish.x;
					}, 0) / similarFish.length;
					var averageY = similarFish.reduce(function (sum, fish) {
						return sum + fish.y;
					}, 0) / similarFish.length;
					self.targetRotation = Math.atan2(averageY - self.y, averageX - self.x);
					self.directionChangeTime = LK.ticks;
					self.directionChangeInterval = 30;
				}
				if (self.hunger < 20) {
					var food = self.findClosestFood();
					if (food) {
						self.targetRotation = Math.atan2(food.y - self.y, food.x - self.x);
						self.directionChangeTime = LK.ticks;
						self.directionChangeInterval = 5;
						self.speed *= 1.5;
					}
				}
				if (self.hunger > 50 && !self.isMating && LK.ticks - self.lastMateTime > self.mateInterval) {
					var potentialMates = self.getNearbyFish().filter(function (fish) {
						return fish.constructor === self.constructor && fish !== self && fish.hunger > 50;
					});
					if (potentialMates.length > 0) {
						var mate = potentialMates[Math.floor(Math.random() * potentialMates.length)];
						self.targetRotation = Math.atan2(mate.y - self.y, mate.x - self.x);
						self.directionChangeTime = LK.ticks;
						self.directionChangeInterval = 20;
						self.isMating = true;
						mate.isMating = true;
						self.lastMateTime = LK.ticks;
						mate.lastMateTime = LK.ticks;
						self.mateInterval = Math.random() * 5000 + 3000;
						mate.mateInterval = Math.random() * 5000 + 3000;
					}
				} else if (self.isMating && LK.ticks - self.lastMateTime > 200) {
					self.isMating = false;
				}
				if (!self.isResting && LK.ticks - self.lastRestTime > self.restInterval) {
					self.isResting = true;
					self.lastRestTime = LK.ticks;
					self.restInterval = Math.random() * 3000 + 2000;
					self.targetRotation = Math.PI / 2;
					self.directionChangeTime = LK.ticks;
					self.directionChangeInterval = 20;
				} else if (self.isResting && LK.ticks - self.lastRestTime > 200) {
					self.isResting = false;
				}
				self.x += Math.cos(self.rotation) * self.speed;
				self.y += Math.sin(self.rotation) * self.speed;
			}
			if (LK.ticks % 1800 === 0) {
				self.isSleeping = !self.isSleeping;
				self.directionChangeTime = LK.ticks;
				self.directionChangeInterval = self.isSleeping ? 300 : Math.random() * 120 + 60;
			}
		}
		if (LK.ticks % 300 === 0) {
			self.isResting = !self.isResting;
			self.directionChangeTime = LK.ticks;
			self.directionChangeInterval = self.isResting ? 120 : Math.random() * 120 + 60;
		}
		var waterBounds = self.getWaterBounds();
		if (self.x < waterBounds.left || self.x > waterBounds.right) {
			self.rotation = Math.PI - self.rotation;
		}
		if (self.y < waterBounds.top || self.y > waterBounds.bottom) {
			self.rotation = -self.rotation;
		}
		self.rotation = self.rotation % (Math.PI * 2);
		if (Math.cos(self.rotation) < 0) {
			fishGraphics.scale.x = -1;
		} else {
			fishGraphics.scale.x = 1;
		}
		fishGraphics.rotation = self.rotation;
	};
});
var Goldfish = Fish.expand(function () {
	var self = Fish.call(this) || this;
	var fishGraphics = self.createAsset('goldfish', 'Goldfish Graphics', .5, .5);
	fishGraphics.scale.set(1, 1);
	self.speed = Math.random() * 0.2 + 0.4;
	self.move = function () {
		if (self.targetRotation === undefined || LK.ticks - self.rotationStartTime >= self.rotationDuration) {
			self.targetRotation = Math.random() * Math.PI * 2;
			self.rotationStartTime = LK.ticks;
			self.rotationDuration = Math.random() * 140 + 80;
		}
		var progress = (LK.ticks - self.rotationStartTime) / self.rotationDuration;
		if (progress < 1) {
			var deltaRotation = (self.targetRotation - self.rotation) * progress;
			self.rotation += deltaRotation;
		} else {
			self.rotation = self.targetRotation;
		}
		self.x += Math.cos(self.rotation) * self.speed;
		self.y += Math.sin(self.rotation) * self.speed;
		var waterBounds = self.getWaterBounds();
		if (self.x < waterBounds.left || self.x > waterBounds.right) {
			self.rotation = Math.PI - self.rotation;
		}
		if (self.y < waterBounds.top || self.y > waterBounds.bottom) {
			self.rotation = -self.rotation;
		}
		self.rotation = self.rotation % (Math.PI * 2);
		if (Math.cos(self.rotation) < 0) {
			fishGraphics.scale.x = -1;
		} else {
			fishGraphics.scale.x = 1;
		}
		fishGraphics.rotation = self.rotation;
	};
});
var GuppyFish = Fish.expand(function () {
	var self = Fish.call(this) || this;
	var fishGraphics = self.createAsset('guppyFish', 'Guppy Fish Graphics', .5, .5);
	fishGraphics.scale.set(1, 1);
	self.speed = Math.random() * 0.2 + 0.35;
	self.move = function () {
		if (self.targetRotation === undefined || LK.ticks - self.rotationStartTime >= self.rotationDuration) {
			self.targetRotation = Math.random() * Math.PI * 2;
			self.rotationStartTime = LK.ticks;
			self.rotationDuration = Math.random() * 100 + 50;
		}
		var progress = (LK.ticks - self.rotationStartTime) / self.rotationDuration;
		if (progress < 1) {
			var deltaRotation = (self.targetRotation - self.rotation) * progress;
			self.rotation += deltaRotation;
		} else {
			self.rotation = self.targetRotation;
		}
		self.x += Math.cos(self.rotation) * self.speed;
		self.y += Math.sin(self.rotation) * self.speed;
		var waterBounds = self.getWaterBounds();
		if (self.x < waterBounds.left || self.x > waterBounds.right) {
			self.rotation = Math.PI - self.rotation;
		}
		if (self.y < waterBounds.top || self.y > waterBounds.bottom) {
			self.rotation = -self.rotation;
		}
		self.rotation = self.rotation % (Math.PI * 2);
		if (Math.cos(self.rotation) < 0) {
			fishGraphics.scale.x = -1;
		} else {
			fishGraphics.scale.x = 1;
		}
		fishGraphics.rotation = self.rotation;
	};
});
var BettaFish = Fish.expand(function () {
	var self = Fish.call(this) || this;
	var fishGraphics = self.createAsset('bettaFish', 'Betta Fish Graphics', .5, .5);
	fishGraphics.scale.set(1, 1);
	self.speed = Math.random() * 0.2 + 0.5;
	self.move = function () {
		if (self.targetRotation === undefined || LK.ticks - self.rotationStartTime >= self.rotationDuration) {
			self.targetRotation = Math.random() * Math.PI * 2;
			self.rotationStartTime = LK.ticks;
			self.rotationDuration = Math.random() * 150 + 100;
		}
		var progress = (LK.ticks - self.rotationStartTime) / self.rotationDuration;
		if (progress < 1) {
			var deltaRotation = (self.targetRotation - self.rotation) * progress;
			self.rotation += deltaRotation;
		} else {
			self.rotation = self.targetRotation;
		}
		self.x += Math.cos(self.rotation) * self.speed;
		self.y += Math.sin(self.rotation) * self.speed;
		var waterBounds = self.getWaterBounds();
		if (self.x < waterBounds.left || self.x > waterBounds.right) {
			self.rotation = Math.PI - self.rotation;
		}
		if (self.y < waterBounds.top || self.y > waterBounds.bottom) {
			self.rotation = -self.rotation;
		}
		self.rotation = self.rotation % (Math.PI * 2);
		if (Math.cos(self.rotation) < 0) {
			fishGraphics.scale.x = -1;
		} else {
			fishGraphics.scale.x = 1;
		}
		fishGraphics.rotation = self.rotation;
	};
});
var Game = Container.expand(function () {
	var self = Container.call(this);
	var aquarium = self.addChild(new Aquarium());
	LK.stageContainer.setBackgroundColor(0x008080);
	var fishes = [];
	var fishTypes = [Fish, KoiFish, Goldfish, GuppyFish, BettaFish, Angelfish, Clownfish, Pufferfish, Surgeonfish];
	for (var i = 0; i < fishTypes.length; i++) {
		for (var j = 0; j < 1; j++) {
			var fish = new fishTypes[i]();
			if (typeof fish.move === 'function') {
				var waterBounds = aquarium.getWaterBounds();
				var waterWidth = waterBounds.right - waterBounds.left;
				var waterHeight = waterBounds.bottom - waterBounds.top;
				var waterCenterX = waterBounds.left + waterWidth / 2;
				var waterCenterY = waterBounds.top + waterHeight / 2;
				var maxDistanceX = waterWidth / 2 * 0.8;
				var maxDistanceY = waterHeight / 2 * 0.8;
				var angle = Math.random() * Math.PI * 2;
				var distanceX = Math.random() * maxDistanceX;
				var distanceY = Math.random() * maxDistanceY;
				fish.x = waterCenterX + distanceX * Math.cos(angle);
				fish.y = waterCenterY + distanceY * Math.sin(angle);
				fishes.push(fish);
				self.addChild(fish);
			}
		}
	}
	LK.on('tick', function () {
		for (var i = 0; i < fishes.length; i++) {
			fishes[i].move();
		}
	});
});
Creation History

Images
