public void Execute(int index)
{
var epochs = 100;
var agent = rdmAgent;
var gsCopy = Rules.Clone(ref gs);
for (var n = 0; n < epochs; n++)
{
Rules.CopyTo(ref gs, ref gsCopy);
Rules.Step(ref gameParameters, ref gsCopy, availableActions[index], 0);
//Rules.Step(ref gameParameters, ref gsCopy, availableActions[index], 0);
//agent.Act(ref gsCopy, availableActions[0], 0),
//agent.Act(ref gsCopy, availableActions, 1));
var currentDepth = 0;
var maxIteration = 200;
while (!gsCopy.players[0].isGameOver || !gsCopy.players[1].isGameOver)
{
Rules.Step(ref gameParameters, ref gsCopy,
agent.Act(ref gsCopy, availableActions, 0),
agent.Act(ref gsCopy, availableActions, 1));
currentDepth++;
if (currentDepth > maxIteration)
{
break;
}
}
summedScores[index] += gsCopy.players[playerId].score;
gsCopy.projectiles.Dispose();
gsCopy.asteroids.Dispose();
}
}
public void UpdatePlayerState()
{
if (gs.players[0].isGameOver || gs.players[1].isGameOver)
{
menuInGame.SetActive(false);
if (gs.players[0].isGameOver)
{
playerEndGame.text = "Player 2 wins !";
}
if (gs.players[1].isGameOver)
{
playerEndGame.text = "Player 1 wins !";
}
ResetGameOver();
finaleScore1.text = scorePlayer1.text;
finaleScore2.text = scorePlayer2.text;
menuEndGame.SetActive(true);
return;
}
//Update score display
var score1 = (int)gs.players[0].score;
var score2 = (int)gs.players[1].score;
scorePlayer1.text = score1.ToString();
scorePlayer2.text = score2.ToString();
//SyncAsteroidsViews();
World.Active.GetExistingSystem <GameSystem>().UpdateAsteroidsViews(ref gs);
World.Active.GetExistingSystem <GameSystem>().UpdateProjectilesViews(ref gs);
// SyncProjectilesViews();
//mettre à jour la position du players
//for (int i = 0; i < players.Length; i++)
//{
// Vector3 lookDir = new Vector3(gs.players[i].lookDirection.x, 0, gs.players[i].lookDirection.y);
// playerViews[i].position = new Vector3(gs.players[i].position.x, 0, gs.players[i].position.y);
// playerViews[i].rotation = Quaternion.LookRotation(lookDir, Vector3.up);
//}
World.Active.GetExistingSystem <GameSystem>().UpdatePlayersViews(ref gs);
GetBoundaries();
GameStateRules.Step(ref GameParameters.Instance.Parameters, ref gs, playerAgents[0].Act(ref gs, GameStateRules.GetAvailableActions(ref gs), 0),
playerAgents[1].Act(ref gs, GameStateRules.GetAvailableActions(ref gs), 1));
}
public void Execute()
{
var iterations = 5;
int indexI = (int) ActionsAvailable.NONE;
int indexJ = (int) ActionsAvailable.NONE;
var gsCopy = GameStateRules.Clone(ref gs);
int summedScore = gsCopy.players[id].PlayerScore;
for (int i = 0; i <= (int) ActionsAvailable.NONE; i++)
{
getIntent.moveIntent = (ActionsAvailable) i;
for (int j = (int) ActionsAvailable.NONE; j <= (int) ActionsAvailable.BLOCK; j++)
{
getIntent.actionIntent = (ActionsAvailable) j;
for (int k = 0; k < iterations; k++)
{
GameStateRules.CopyTo(ref gs, ref gsCopy);
GameStateRules.Step(ref gsCopy, getIntent, id);
var nbLoop = 100;
while (nbLoop != 0)
{
GameStateRules.Step(ref gsCopy, rdmAgent.Act(ref gsCopy, id), id);
nbLoop--;
}
if (gsCopy.players[id].PlayerScore > summedScore)
{
summedScore = gsCopy.players[id].PlayerScore;
indexI = i;
indexJ = j;
}
}
}
}
intent[0] = (ActionsAvailable) indexI;
intent[1] = (ActionsAvailable) indexJ;
}
public void Update()
{
if (!gameIsStart)
{
return;
}
if (gs.EndOfGame)
{
if (gs.players[0].PlayerLifeStock > gs.players[1].PlayerLifeStock)
{
winnerId = 0;
Destroy(players[1].gameObject);
}
else if (gs.players[0].PlayerLifeStock < gs.players[1].PlayerLifeStock)
{
winnerId = 1;
Destroy(players[0].gameObject);
}
else
{
winnerId = -1;
}
gameIsStart = false;
menuController.ActiveMenu(Menus.Menus.END_GAME_MENU);
return;
}
SyncNumbersOfProjectiles();
SyncProjectilesView();
SyncPlayersView();
SyncItemsView();
SyncTimerView();
GameStateRules.Step(ref gs, agent1.Act(ref gs, 0), agent2.Act(ref gs, 1));
GameStateRules.UpdateItems(ref gs);
}
public void Execute()
{
var epochs = 5;
var agent = rdmAgent;
var gsCopy = Rules.Clone(ref gs);
var rootHash = Rules.GetHashCode(ref gsCopy, 0);
// CREATION DE LA MEMOIRE (Arbre)
var memory = new NativeHashMap <long, NativeList <NodeMCTS> >(360, Allocator.Temp);
memory.TryAdd(rootHash, new NativeList <NodeMCTS>(availableActions.Length, Allocator.Temp));
for (var i = 0; i < availableActions.Length; i++)
{
memory[rootHash]
.Add(new NodeMCTS
{
action = availableActions[i],
nc = 0,
npc = 0,
rc = 0
});
}
for (var n = 0; n < epochs; n++)
{
Rules.CopyTo(ref gs, ref gsCopy);
var currentHash = rootHash;
var selectedNodes = new NativeList <SelectedNodeInfo>(Allocator.Temp);
var it = 0;
//SELECT
while (!gsCopy.players[0].isGameOver && it < 10)
{
var hasUnexploredNodes = false;
it++;
for (var i = 0; i < memory[currentHash].Length; i++)
{
if (memory[currentHash][i].nc == 0)
{
hasUnexploredNodes = true;
break;
}
}
if (hasUnexploredNodes)
{
break;
}
var bestNodeIndex = -1;
var bestNodeScore = float.MinValue;
for (var i = 0; i < memory[currentHash].Length; i++)
{
var list = memory[currentHash];
var node = list[i];
node.npc += 1;
list[i] = node;
memory[currentHash] = list;
var score = (float)memory[currentHash][i].rc / memory[currentHash][i].nc
+ math.sqrt(2 * math.log(memory[currentHash][i].npc) / memory[currentHash][i].nc);
if (score >= bestNodeScore)
{
bestNodeIndex = i;
bestNodeScore = score;
}
}
selectedNodes.Add(new SelectedNodeInfo
{
hash = currentHash,
nodeIndex = bestNodeIndex
});
Rules.Step(ref gameParameters, ref gsCopy, memory[currentHash][bestNodeIndex].action, availableActions[7]);
currentHash = Rules.GetHashCode(ref gsCopy, 0);
if (!memory.ContainsKey(currentHash))
{
memory.TryAdd(currentHash, new NativeList <NodeMCTS>(availableActions.Length, Allocator.Temp));
for (var i = 0; i < availableActions.Length; i++)
{
memory[currentHash]
.Add(new NodeMCTS
{
action = availableActions[i],
nc = 0,
npc = 0,
rc = 0
});
}
}
}
//EXPAND
if (!gsCopy.players[0].isGameOver || !gsCopy.players[1].isGameOver)
{
var unexploredActions = new NativeList <int>(Allocator.Temp);
for (var i = 0; i < memory[currentHash].Length; i++)
{
if (memory[currentHash][i].nc == 0)
{
unexploredActions.Add(i);
}
}
var chosenNodeIndex = agent.rdm.NextInt(0, unexploredActions.Length);
selectedNodes.Add(new SelectedNodeInfo
{
hash = currentHash,
nodeIndex = unexploredActions[chosenNodeIndex]
});
Rules.Step(ref gameParameters, ref gsCopy, memory[currentHash][unexploredActions[chosenNodeIndex]].action, availableActions[7]);
currentHash = Rules.GetHashCode(ref gsCopy, 0);
if (!memory.ContainsKey(currentHash))
{
memory.TryAdd(currentHash, new NativeList <NodeMCTS>(availableActions.Length, Allocator.Temp));
for (var i = 0; i < availableActions.Length; i++)
{
memory[currentHash]
.Add(new NodeMCTS
{
action = availableActions[i],
nc = 0,
npc = 0,
rc = 0
});
}
}
}
//SIMULATE
while (!gsCopy.players[0].isGameOver || !gsCopy.players[1].isGameOver && it < 10)
{
var chosenActionIndex = agent.rdm.NextInt(0, availableActions.Length);
Rules.Step(ref gameParameters, ref gsCopy, (ActionsTypes)chosenActionIndex, availableActions[7]);
it++;
}
//BACKPROPAGATE
for (var i = 0; i < selectedNodes.Length; i++)
{
var list = memory[selectedNodes[i].hash];
var node = list[selectedNodes[i].nodeIndex];
//node.rc += gsCopy.score;
node.nc += 1;
list[selectedNodes[i].nodeIndex] = node;
memory[selectedNodes[i].hash] = list;
}
}
for (var i = 0; i < memory[rootHash].Length; i++)
{
summedScores[i] = memory[rootHash][i].nc;
}
}
public Intent Act(ref GameStateData gs, int id)
{
MCTSTreeNode parentNode = new MCTSTreeNode();
parentNode.nodeChoosingValue = -1000f;
parentNode.nSelect = 1;
parentNode.depth = 0;
int iterations = 300;
parentNode.childNodes = new List <MCTSTreeNode>();
for (int i = 0; i <= (int)ActionsAvailable.NONE; i++)
{
for (int j = (int)ActionsAvailable.NONE; j <= (int)ActionsAvailable.BLOCK; j++)
{
parentNode.childNodes.Add(new MCTSTreeNode());
parentNode.actions = new List <ActionsAvailable>();
parentNode.actions.Add(ActionsAvailable.NONE);
parentNode.actions.Add(ActionsAvailable.NONE);
var parentNodeChildNode = parentNode.childNodes[parentNode.childNodes.Count - 1];
parentNodeChildNode.actions = new List <ActionsAvailable>();
parentNodeChildNode.actions.Add((ActionsAvailable)i);
parentNodeChildNode.actions.Add((ActionsAvailable)j);
var gsCopy = GameStateRules.Clone(ref gs);
Intent currentIntents = new Intent();
currentIntents.moveIntent = (ActionsAvailable)i;
currentIntents.actionIntent = (ActionsAvailable)j;
Debug.Log("damn" + currentIntents.moveIntent + " " + currentIntents.actionIntent);
GameStateRules.Step(ref gsCopy, currentIntents, id);
parentNodeChildNode.currentGS = GameStateRules.Clone(ref gsCopy);
parentNodeChildNode.sumScore = parentNode.sumScore + gsCopy.players[id].PlayerScore;
parentNodeChildNode.nSelect = 1;
parentNodeChildNode.depth = 1;
parentNodeChildNode.parentNode = new List <MCTSTreeNode>();
parentNodeChildNode.parentNode.Add(parentNode);
parentNodeChildNode.nodeChoosingValue =
(float)parentNodeChildNode.sumScore / parentNodeChildNode.nSelect + math.sqrt(2) *
math.sqrt(math.log(parentNode.nSelect) / parentNodeChildNode.nSelect);
parentNode.childNodes[parentNode.childNodes.Count - 1] = parentNodeChildNode;
actions.Clear();
}
}
for (int i = 0; i < iterations; i++)
{
ref MCTSTreeNode nodeMaxChoosingValue = ref GetMaxChoosingValue(ref parentNode, ref parentNode);
nodeMaxChoosingValue.nSelect++;
if (nodeMaxChoosingValue.childNodes == null)
{
nodeMaxChoosingValue.childNodes = new List <MCTSTreeNode>();
}
nodeMaxChoosingValue.childNodes.Add(new MCTSTreeNode());
MCTSTreeNode currentNode = nodeMaxChoosingValue.childNodes[nodeMaxChoosingValue.childNodes.Count - 1];
currentNode.parentNode = new List <MCTSTreeNode>();
currentNode.parentNode.Add(nodeMaxChoosingValue);
currentNode.depth = parentNode.depth++;
currentNode.currentGS = GameStateRules.Clone(ref nodeMaxChoosingValue.currentGS);
currentNode.actions = new List <ActionsAvailable>();
currentNode.actions.Add((ActionsAvailable)(nodeMaxChoosingValue.childNodes.Count / ((int)ActionsAvailable.NONE)));
currentNode.actions.Add((ActionsAvailable)(nodeMaxChoosingValue.childNodes.Count % (int)ActionsAvailable.NONE + (int)ActionsAvailable.MOVE_BACK_LEFT));
Intent currentIntents = new Intent();
currentIntents.moveIntent = currentNode.actions[0];
currentIntents.actionIntent = currentNode.actions[1];
Debug.Log(nodeMaxChoosingValue.nSelect + " " + nodeMaxChoosingValue.depth + " " + nodeMaxChoosingValue.childNodes.Count + " " + nodeMaxChoosingValue.actions[0] + " " + nodeMaxChoosingValue.actions[1] + " " + currentIntents.moveIntent + " " + currentIntents.actionIntent);
GameStateRules.Step(ref currentNode.currentGS, currentIntents, id);
currentNode.sumScore = nodeMaxChoosingValue.sumScore + currentNode.currentGS.players[id].PlayerScore;
currentNode.nSelect = 1;
currentNode.nodeChoosingValue =
(float)currentNode.sumScore / currentNode.nSelect + math.sqrt(2) *
math.sqrt(math.log(nodeMaxChoosingValue.nSelect) / currentNode.nSelect);
//int currentDepth = currentNode.depth;
MCTSTreeNode rollbackNode = currentNode.parentNode[0];
while (rollbackNode.depth > 0)
{
rollbackNode.nodeChoosingValue =
(float)rollbackNode.sumScore / rollbackNode.nSelect + math.sqrt(2) *
math.sqrt(math.log(rollbackNode.parentNode[0].nSelect) / rollbackNode.nSelect);
rollbackNode = rollbackNode.parentNode[0];
//currentDepth = rollbackNode.depth;
}
}
public void Execute()
{
//Debug.Log("Init");
var iterations = 100;
var agent = rdmAgent;
var gsCopy = GameStateRules.Clone(ref gs);
var rootHash = GameStateRules.GetHashCode(ref gsCopy);
//Debug.Log("EndInit");
var memory = new NativeHashMap <long, NativeList <Node> >(10000000, Allocator.Temp);
//Debug.Log("EndInit2");
memory.TryAdd(rootHash, new NativeList <Node>(54, Allocator.Temp));
for (var i = 0; i < (int)ActionsAvailable.NONE + 1; i++)
{
for (var j = (int)ActionsAvailable.NONE; j < (int)ActionsAvailable.BLOCK + 1; j++)
{
memory[rootHash]
.Add(new Node
{
moveIntent = i,
actionIntent = j,
nc = 0,
npc = 0,
rc = 0
});
}
}
for (int i = 0; i < memory[rootHash].Length; i++)
{
sumScore[i] = 0;
}
for (var n = 0; n < iterations; n++)
{
GameStateRules.CopyTo(ref gs, ref gsCopy);
var currentHash = rootHash;
var selectedNodes = new NativeList <SelectedNodeInfo>(Allocator.Temp);
var currentTime = gsCopy.currentGameStep;
//var countSelect = 0;
//SELECT
while (!gsCopy.EndOfGame && gsCopy.currentGameStep - 100 <= currentTime)
{
//countSelect++;
var hasUnexploredNodes = false;
for (var i = 0; i < memory[currentHash].Length; i++)
{
if (memory[currentHash][i].nc == 0)
{
hasUnexploredNodes = true;
break;
}
}
if (hasUnexploredNodes)
{
break;
}
//sumScore[1] = gsCopy.currentGameStep;
//sumScore[2] = currentTime;
var bestNodeIndex = -1;
var bestNodeScore = float.MinValue;
for (var i = 0; i < memory[currentHash].Length; i++)
{
var list = memory[currentHash];
var node = list[i];
node.npc += 1;
list[i] = node;
memory[currentHash] = list;
var score = (float)memory[currentHash][i].rc / memory[currentHash][i].nc
+ math.sqrt(2 * math.log(memory[currentHash][i].npc) / memory[currentHash][i].nc);
if (score >= bestNodeScore)
{
bestNodeIndex = i;
bestNodeScore = score;
}
}
selectedNodes.Add(new SelectedNodeInfo
{
hash = currentHash,
nodeIndex = bestNodeIndex
});
Intent currentIntent = new Intent();
currentIntent.moveIntent = (ActionsAvailable)memory[currentHash][bestNodeIndex].moveIntent;
currentIntent.actionIntent = (ActionsAvailable)memory[currentHash][bestNodeIndex].actionIntent;
GameStateRules.Step(ref gsCopy, currentIntent, id);
currentHash = GameStateRules.GetHashCode(ref gsCopy);
if (!memory.ContainsKey(currentHash))
{
memory.TryAdd(currentHash, new NativeList <Node>(54, Allocator.Temp));
for (var i = 0; i < (int)ActionsAvailable.NONE + 1; i++)
{
for (var j = (int)ActionsAvailable.NONE; j < (int)ActionsAvailable.BLOCK + 1; j++)
{
memory[currentHash]
.Add(new Node
{
moveIntent = i,
actionIntent = j,
nc = 0,
npc = 0,
rc = 0
});
}
}
}
}
//sumScore[0] = countSelect;
//EXPAND
if (!gsCopy.EndOfGame)
{
var unexploredActions = new NativeList <int>(Allocator.Temp);
for (var i = 0; i < memory[currentHash].Length; i++)
{
if (memory[currentHash][i].nc == 0)
{
unexploredActions.Add(i);
//sumScore[i] = i;
}
}
var chosenNodeIndex = agent.rdm.NextInt(0, unexploredActions.Length);
selectedNodes.Add(new SelectedNodeInfo
{
hash = currentHash,
nodeIndex = unexploredActions[chosenNodeIndex]
});
Intent currentIntent = new Intent();
currentIntent.moveIntent = (ActionsAvailable)memory[currentHash][unexploredActions[chosenNodeIndex]].moveIntent;
currentIntent.actionIntent = (ActionsAvailable)memory[currentHash][unexploredActions[chosenNodeIndex]].actionIntent;
/*sumScore[0] = (int)currentIntent.moveIntent;
* sumScore[1] = (int)currentIntent.actionIntent;*/
GameStateRules.Step(ref gsCopy, currentIntent, id);
currentHash = GameStateRules.GetHashCode(ref gsCopy);
if (!memory.ContainsKey(currentHash))
{
memory.TryAdd(currentHash, new NativeList <Node>(54, Allocator.Temp));
for (var i = 0; i < (int)ActionsAvailable.NONE + 1; i++)
{
for (var j = (int)ActionsAvailable.NONE; j < (int)ActionsAvailable.BLOCK + 1; j++)
{
memory[currentHash]
.Add(new Node
{
moveIntent = i,
actionIntent = j,
nc = 0,
npc = 0,
rc = 0
});
}
}
}
}
//SIMULATE
currentTime = gsCopy.currentGameStep;
Intent currentIntent1 = new Intent();
currentIntent1.moveIntent = ActionsAvailable.NONE;
currentIntent1.actionIntent = ActionsAvailable.NONE;
while (!gsCopy.EndOfGame && gsCopy.currentGameStep - 100 <= currentTime)
{
var chosenActionIndex = agent.rdm.NextInt(0, 9);
var chosenActionIndex1 = agent.rdm.NextInt(9, 13);
//sumScore[0] = chosenActionIndex;
currentIntent1.moveIntent =
(ActionsAvailable)chosenActionIndex;
currentIntent1.actionIntent =
(ActionsAvailable)chosenActionIndex1;
GameStateRules.Step(ref gsCopy, currentIntent1, id);
}
//BACKPROPAGATE
//sumScore[0] = selectedNodes.Length;
for (var i = 0; i < selectedNodes.Length; i++)
{
var list = memory[selectedNodes[i].hash];
var node = list[selectedNodes[i].nodeIndex];
node.rc += gsCopy.players[id].PlayerScore;
node.nc += 1;
list[selectedNodes[i].nodeIndex] = node;
memory[selectedNodes[i].hash] = list;
}
}
//sumScore[0] = memory[rootHash].Length;
for (var i = 0; i < memory[rootHash].Length; i++)
{
sumScore[i] = memory[rootHash][i].nc;
}
}