// Use this for initialization
void Start()
{
Transform[] stars = new Transform[3];
int tmpCnt = 0;
Minimap minimap = new Minimap();
for (int i = 0; i < numbers.GetLength(0); i++)
{
for (int j = 0; j < numbers.GetLength(1); j++)
{
for (int k = 0; k < numbers.GetLength(2); k++)
{
//way
// floor
if ((numbers[i, j, k] / 10) % 100 == 1)
{
Transform tf = (Transform)Instantiate(floor, new Vector3(j, i, k) * 4, direction[numbers[i, j, k] % 10]);
}
// wall1
if ((numbers[i, j, k] / 10) % 100 == 11)
{
Transform tf = (Transform)Instantiate(wall1, new Vector3(j, i, k) * 4, direction[numbers[i, j, k] % 10]);
}
// wall2
if ((numbers[i, j, k] / 10) % 100 == 21)
{
Transform tf = (Transform)Instantiate(wall2, new Vector3(j, i, k) * 4, direction[numbers[i, j, k] % 10]);
}
// wall3
if ((numbers[i, j, k] / 10) % 100 == 31)
{
Transform tf = (Transform)Instantiate(wall3, new Vector3(j, i, k) * 4, direction[numbers[i, j, k] % 10]);
}
// goal
if ((numbers[i, j, k] / 10) % 100 == 2)
{
Transform tf = (Transform)Instantiate(goal, new Vector3(j, i, k) * 4, direction[numbers[i, j, k] % 10]);
}
// moving plane ---
if ((numbers[i, j, k] / 10) % 10 == 3)
{
MovingPlane mp = (MovingPlane)Instantiate(movingPlane, new Vector3(j, i, k) * 4, direction[numbers[i, j, k] % 10]);
int length = (numbers[i, j, k] / 10) % 100 / 10;
Debug.Log("val: " + numbers[i, j, k]);
Debug.Log("length: " + length);
if (numbers[i, j, k] % 10 == 1)
{
mp.direction = new Vector3(1f, 0f, 0f) * length;
}
else if (numbers[i, j, k] % 10 == 2)
{
mp.direction = new Vector3(0f, 0f, 1f) * length;
}
else if (numbers[i, j, k] % 10 == 3)
{
mp.direction = new Vector3(-1f, 0f, 0f) * length;
}
else if (numbers[i, j, k] % 10 == 0)
{
mp.direction = new Vector3(0f, 0f, -1f) * length;
}
}
// moving plane |
if ((numbers[i, j, k] / 10) % 10 == 4)
{
MovingPlane mp = (MovingPlane)Instantiate(movingPlane, new Vector3(j, i, k) * 4, direction[numbers[i, j, k] % 10]);
int length = (numbers[i, j, k] / 10) % 100 / 10;
mp.direction = new Vector3(0f, 1f, 0f) * length;
}
// slope
if ((numbers[i, j, k] / 10) % 100 == 5)
{
Instantiate(slope, new Vector3(j, i, k) * 4, direction[numbers[i, j, k] % 10]);
}
// force walk
if ((numbers[i, j, k] / 10) % 100 == 6)
{
Instantiate(forceWalk, new Vector3(j, i, k) * 4, direction[numbers[i, j, k] % 10]);
}
// ladder
if ((numbers[i, j, k] / 10) % 100 == 7)
{
Instantiate(ladder, new Vector3(j, i, k) * 4, direction[numbers[i, j, k] % 10]);
}
// spring
if ((numbers[i, j, k] / 10) % 100 == 8)
{
Instantiate(spring, new Vector3(j, i, k) * 4, direction[numbers[i, j, k] % 10]);
}
// warp
if ((numbers[i, j, k] / 10) % 10 == 9)
{
int tmp = numbers[i, j, k] / 100;
int t_z = tmp % 100;
tmp /= 100;
int t_y = tmp % 100;
tmp /= 100;
int t_x = tmp;
Warp wp = (Warp)Instantiate(warp, new Vector3(j, i, k) * 4, direction[numbers[i, j, k] % 10]);
wp.DestinationPosition = new Vector3(t_x, t_y, t_z) * 4;
}
// rotating floor
if ((numbers[i, j, k] / 10) % 100 == 12)
{
Instantiate(rotatingFloor, new Vector3(j, i, k) * 4, direction[numbers[i, j, k] % 10]);
}
// narrow floor
if ((numbers[i, j, k] / 10) % 100 == 15)
{
Instantiate(narrowFloor, new Vector3(j, i, k) * 4, direction[numbers[i, j, k] % 10]);
}
//player & star
if ((numbers[i, j, k] / 1000) % 10000000 == 1)
{
Transform tmpPlayer = (Transform)Instantiate(player, new Vector3(j, i, k) * 4, direction[numbers[i, j, k] % 10]);
minimap = tmpPlayer.GetComponentInChildren<Minimap>();
Debug.Log(minimap);
}
if ((numbers[i, j, k] / 1000) % 10000000 == 2)
{
Transform tmpStar = (Transform)Instantiate(star, new Vector3(j, i, k) * 4, direction[numbers[i, j, k] % 10]);
stars[tmpCnt++] = tmpStar;
}
if ((numbers[i, j, k] / 1000) % 10000000 == 3)
{
Instantiate(enemy, new Vector3(j, i, k) * 4, direction[numbers[i, j, k] % 10]);
}
}
}
}
for (int i = 0; i < 3; i++)
{
Debug.Log(minimap);
minimap.GenerateBlip(stars[i].gameObject);
}
}
