private void drawLaser(laserNode start, laserNode end)
{
Vector3 startPos = coordToPos(start.getX(), start.getY(), start.getHeading(), start.getMarchDir(), true);
Vector3 endPos = coordToPos(end.getX(), end.getY(), end.getHeading(), end.getMarchDir(), false);
laserContainer.transform.GetChild(laserCounter).GetComponent <LineRenderer>().SetPosition(0, startPos);
laserContainer.transform.GetChild(laserCounter).GetComponent <LineRenderer>().SetPosition(1, endPos);
laserContainer.transform.GetChild(laserCounter).GetComponent <LineRenderer>().enabled = true;
laserContainer.transform.GetChild(laserCounter).GetComponent <LineRenderer>().startColor = new Color(1, 1, 1, start.getStrength() * laserIntensity);
laserContainer.transform.GetChild(laserCounter).GetComponent <LineRenderer>().endColor = new Color(1, 1, 1, end.getStrength() * laserIntensity);
if (start.getOwner() == Player.Shared)
{
laserContainer.transform.GetChild(laserCounter).GetComponent <LineRenderer>().material = laserMaterialCombined;
}
else
{
laserContainer.transform.GetChild(laserCounter).GetComponent <LineRenderer>().material = start.getOwner() == Player.PlayerOne ? laserMaterialP1 : laserMaterialP2;
}
laserCounter++;
}
private void laserStep(laserNode node) // Need to add: if strength <= 0 return
{
// Get data from node
int x = node.getX(), y = node.getY(), indx = node.getIndex(), subIndx = node.getSubIndex();
float strength = node.getStrength();
Direction heading = node.getHeading(), direction = node.getMarchDir();
Player player = node.getOwner();
// Check if valid iteration
if (x < 0 || y < 0 || x >= gridManager.theGrid.getDimX() || y >= gridManager.theGrid.getDimY() || iterationCount > iterationLimit)
{
return;
}
iterationCount++;
// Check if opposing laser
if (laserData.checkOpposing(x, y, heading, direction))
{
return;
}
// Make sure lasers list is initialized
while (lasers.Count <= laserIndex)
{
lasers.Add(new List <laserNode>());
}
// Check if on same path as existing laser
int[] indeces = laserData.checkOverlapping(x, y, strength, heading, direction, player);
if (indeces != null)
{
lasers[indeces[0]][indeces[1]] = new laserNode(x, y, lasers[indeces[0]][indeces[1]].getStrength() + strength, heading, direction, Player.Shared, indx, subIndx);
}
else
{
// Add node to list for line rendering later
laserData.insertNode(x, y, strength, heading, direction, player, indx, subIndx);
lasers[indx].Add(new laserNode(x, y, strength, heading, direction, player, indx, subIndx));
}
// Determine next laser step
int newX; int newY; Direction newDir;
float newStrength = strength - laserDecay;
switch (heading)
{
case Direction.NE:
{
if (direction == Direction.Right)
{
newDir = Direction.Up;
newX = x; newY = y + 1;
}
else
{
newDir = Direction.Right;
newX = x + 1; newY = y;
}
laserSolver(newX, newY, newStrength, heading, newDir, player, indx, subIndx);
break;
}
case Direction.NW:
{
if (direction == Direction.Left)
{
newDir = Direction.Up;
newX = x; newY = y + 1;
}
else
{
newDir = Direction.Left;
newX = x - 1; newY = y;
}
laserSolver(newX, newY, newStrength, heading, newDir, player, indx, subIndx);
break;
}
case Direction.SE:
{
if (direction == Direction.Right)
{
newDir = Direction.Down;
newX = x; newY = y - 1;
}
else
{
newDir = Direction.Right;
newX = x + 1; newY = y;
}
laserSolver(newX, newY, newStrength, heading, newDir, player, indx, subIndx);
break;
}
case Direction.SW:
{
if (direction == Direction.Left)
{
newDir = Direction.Down;
newX = x; newY = y - 1;
}
else
{
newDir = Direction.Left;
newX = x - 1; newY = y;
}
laserSolver(newX, newY, newStrength, heading, newDir, player, indx, subIndx);
break;
}
}
}