// generate the puzzles in the puzzle rooms, globally using photon objects
public void GeneratePuzzles(List <int> activePuzzleTypes)
{
for (int r = 0; r < 3; r++)
{
int puzzleType = activePuzzleTypes[r];
bool keyGenerated = false;
// lava room
if (puzzleType == 0)
{
for (int c = 0; c < puzzleRooms[r].getCells().Count; c++)
{
// use Perlin noise to find lava areas
float generatedNoise;
MazeCell currentCell = puzzleRooms[r].getCells()[c];
generatedNoise = Mathf.PerlinNoise((currentCell.coordinates.x * currentCell.coordinates.x) / (float)mazeGenerationNumber, (currentCell.coordinates.z * currentCell.coordinates.z) / (float)mazeGenerationNumber);
if (generatedNoise < 0.5)
{
// add mist particle systems
MazeCell addHere = puzzleRooms[r].getCells()[c];
Vector3 lavaPos = new Vector3(addHere.transform.position.x, 0f, addHere.transform.position.z);
Quaternion lavaRot = new Quaternion(0f, 0f, 0f, 0f);
PhotonNetwork.InstantiateSceneObject("FireyMist", lavaPos, lavaRot, 0);
}
}
}
// minefield
else if (puzzleType == 1)
{
float mineMultiplier = puzzleRooms[r].getCells().Count / 20f;
// spawn mines of varying size and damage based on Perlin noise
// number of mines varies with room size
for (int c = 0; c < puzzleRooms[r].getCells().Count; c++)
{
MazeCell currentCell = puzzleRooms[r].getCells()[c];
float chanceForMine = Mathf.PerlinNoise((currentCell.coordinates.x * currentCell.coordinates.x) / (float)mazeGenerationNumber, (currentCell.coordinates.z * currentCell.coordinates.z) / (float)mazeGenerationNumber);
if (chanceForMine < 0.25f * mineMultiplier)
{
// generate a mine
float mineX = currentCell.transform.position.x + Mathf.PerlinNoise(currentCell.coordinates.x / (float)mazeGenerationNumber, currentCell.coordinates.x / (float)mazeGenerationNumber);
float mineZ = currentCell.transform.position.z + Mathf.PerlinNoise(currentCell.coordinates.z / (float)mazeGenerationNumber, currentCell.coordinates.z / (float)mazeGenerationNumber);
float mineSize = Mathf.PerlinNoise(c / (float)mazeGenerationNumber, c / (float)mazeGenerationNumber);
Vector3 spawnPos = new Vector3(mineX, -0.45f, mineZ);
Quaternion spawnRot = new Quaternion(0f, 0f, 0f, 0f);
GameObject newGO = (GameObject)PhotonNetwork.InstantiateSceneObject("Mine", spawnPos, spawnRot, 0);
Mine newMine = newGO.GetComponent <Mine>();
newMine.setMine(mineSize);
CapsuleCollider cap = newMine.GetComponent <CapsuleCollider>();
cap.center = new Vector3(0f, 0.5f, 0f);
cap.radius = 0.7f;
mineList.Add(newMine);
}
// spawn a key
else if (keyGenerated == false)
{
keyGenerated = true;
keyLocations.Add(currentCell.transform.position.x + Mathf.PerlinNoise(currentCell.coordinates.x / (float)mazeGenerationNumber, currentCell.coordinates.x / (float)mazeGenerationNumber));
keyLocations.Add(currentCell.transform.position.z + Mathf.PerlinNoise(currentCell.coordinates.z / (float)mazeGenerationNumber, currentCell.coordinates.z / (float)mazeGenerationNumber));
}
}
}
// spike room
else if (puzzleType == 2)
{
float spikeMultiplier = puzzleRooms[r].getCells().Count / 15f;
// spawn spikes
for (int c = 0; c < puzzleRooms[r].getCells().Count; c++)
{
MazeCell currentCell = puzzleRooms[r].getCells()[c];
float chanceForSpikes = Mathf.PerlinNoise((currentCell.coordinates.x * currentCell.coordinates.x) / (float)mazeGenerationNumber, (currentCell.coordinates.z * currentCell.coordinates.z) / (float)mazeGenerationNumber);
if (chanceForSpikes < 0.3f * spikeMultiplier)
{
// generate a set of spikes
float spikeX = currentCell.transform.position.x + Mathf.PerlinNoise(currentCell.coordinates.x / (float)mazeGenerationNumber, currentCell.coordinates.x / (float)mazeGenerationNumber);
float spikeZ = currentCell.transform.position.z + Mathf.PerlinNoise(currentCell.coordinates.z / (float)mazeGenerationNumber, currentCell.coordinates.z / (float)mazeGenerationNumber);
float spikeSize = 4 * Mathf.PerlinNoise(c / (float)mazeGenerationNumber, c / (float)mazeGenerationNumber);
float spikeTimer = Mathf.PerlinNoise(c / (float)mazeGenerationNumber, c / (float)mazeGenerationNumber);
Vector3 spawnPos = new Vector3(spikeX, 0.0f, spikeZ);
Quaternion spawnRot = new Quaternion(0f, 0f, 0f, 0f);
GameObject newGO = (GameObject)PhotonNetwork.InstantiateSceneObject("Spike", spawnPos, spawnRot, 0);
Spike newSpike = newGO.GetComponent <Spike>();
newSpike.setSpike(spikeSize, spikeTimer);
spikeList.Add(newSpike);
}
// spawn a key
else if (keyGenerated == false)
{
keyGenerated = true;
keyLocations.Add(currentCell.transform.position.x + Mathf.PerlinNoise(currentCell.coordinates.x / (float)mazeGenerationNumber, currentCell.coordinates.x / (float)mazeGenerationNumber));
keyLocations.Add(currentCell.transform.position.z + Mathf.PerlinNoise(currentCell.coordinates.z / (float)mazeGenerationNumber, currentCell.coordinates.z / (float)mazeGenerationNumber));
}
}
}
// ball room, roll balls onto targets
else if (puzzleType == 3)
{
// pick 6 areas
List <int> itemCells = new List <int>();
int counter = 0;
int index = 0;
while (index < 7)
{
int cell = 0;
counter++;
// keep giving cell new values until its a new value not already in the list
do
{
cell = (int)Random.Range(0f, puzzleRooms[r].getCells().Count - 1);
}while(itemCells.Contains(cell));
itemCells.Add(cell);
index++;
}
for (int i = 0; i < 7; i++)
{
Debug.Log(itemCells[i]);
}
// first 3 cells contain balls
for (int b = 0; b < 3; b++)
{
Vector3 spawnPos = new Vector3(puzzleRooms[r].getCells()[itemCells[b]].transform.position.x, 0.5f, puzzleRooms[r].getCells()[itemCells[b]].transform.position.z);
Quaternion spawnRot = new Quaternion(0f, 0f, 0f, 0f);
GameObject newGO = (GameObject)PhotonNetwork.InstantiateSceneObject("Ball", spawnPos, spawnRot, 0);
Ball newBall = newGO.GetComponent <Ball>();
newBall.setSize(0.5f);
ballList.Add(newBall);
}
// last 3 cells contain holes
for (int h = 3; h < 6; h++)
{
Vector3 spawnPos = new Vector3(puzzleRooms[r].getCells()[itemCells[h]].transform.position.x, 0f, puzzleRooms[r].getCells()[itemCells[h]].transform.position.z);
Quaternion spawnRot = new Quaternion(0f, 0f, 0f, 0f);
GameObject newGO = (GameObject)PhotonNetwork.InstantiateSceneObject("Target", spawnPos, spawnRot, 0);
Target newTarget = newGO.GetComponent <Target>();
newTarget.setSize(0.5f);
targetList.Add(newTarget);
}
MazeCell currentCell = puzzleRooms[r].getCells()[itemCells[6]];
keyLocations.Add(currentCell.transform.position.x + Mathf.PerlinNoise(currentCell.coordinates.x / (float)mazeGenerationNumber, currentCell.coordinates.x / (float)mazeGenerationNumber));
keyLocations.Add(currentCell.transform.position.z + Mathf.PerlinNoise(currentCell.coordinates.z / (float)mazeGenerationNumber, currentCell.coordinates.z / (float)mazeGenerationNumber));
}
// for the ice room we spawn "icy mist"
else if (puzzleType == 4)
{
for (int c = 0; c < puzzleRooms[r].getCells().Count; c++)
{
// add mist particle systems
MazeCell addHere = puzzleRooms[r].getCells()[c];
Vector3 mistPos = new Vector3(addHere.transform.position.x, 0f, addHere.transform.position.z);
Quaternion mistRot = new Quaternion(0f, 0f, 0f, 0f);
PhotonNetwork.InstantiateSceneObject("IcyMist", mistPos, mistRot, 0);
}
}
// boss room, fight a strong monster
else if (puzzleType == 5)
{
// spawn boss
MazeCell bossCell = puzzleRooms[r].getCells()[Random.Range(0, puzzleRooms[r].getCells().Count)];
Vector3 bossPos = new Vector3(bossCell.transform.position.x, 0f, bossCell.transform.position.z);
Quaternion bossRot = new Quaternion(0f, 0f, 0f, 0f);
GameObject monsterGO = (GameObject)PhotonNetwork.InstantiateSceneObject("PuzzleRoomBoss", bossPos, bossRot, 0);
monsterGO.GetComponent <MonsterAI>().enabled = true;
MonsterAI monster = monsterGO.GetComponent <MonsterAI>();
monster.setMonsterType("PuzzleRoomBoss");
// key location
MazeCell keyCell = puzzleRooms[r].getCells()[Random.Range(0, puzzleRooms[r].getCells().Count)];
keyLocations.Add(keyCell.transform.position.x + Mathf.PerlinNoise(keyCell.coordinates.x / (float)mazeGenerationNumber, keyCell.coordinates.x / (float)mazeGenerationNumber));
keyLocations.Add(keyCell.transform.position.z + Mathf.PerlinNoise(keyCell.coordinates.z / (float)mazeGenerationNumber, keyCell.coordinates.z / (float)mazeGenerationNumber));
}
}
}
