public void updateSpeed(CarAgent[] listCars, Peage[] listPeages)
{
proximity = Road.MAX_SPEED_ROAD_3;
// Obstacle detection : For cars
proximity = detectProximityCars(proximity, listCars);
// Obstacle detection : For Counters, if the car didn't pay already.
if (flagPaid == false && (Road.getRoadZone(PosX) == 3 || Road.getRoadZone(PosX) == 4))
{
int peageID = -1;
// Let's find which counter we need to keep track of.
switch ((int)targetY)
{
case (233):
peageID = 0;
break;
case (283):
peageID = 1;
break;
case (333):
peageID = 2;
break;
case (383):
peageID = 3;
break;
case (433):
peageID = 4;
break;
case (483):
peageID = 5;
break;
}
Peage counter = listPeages[peageID];
double distance = DistanceTo(counter);
if (distance < proximity)
{
proximity = distance;
if (PosX > Road.ZONE_GUICHET_START)
{
flagCloseToCounter = true;
}
}
if (Math.Abs(counter.PosX - PosX) > CAR_WIDTH + 10)
{
flagHorizontalProx = true;
}
}
// Approaching Counter
if (proximity < MIN_DISTANCE + 20 && flagCloseToCounter == true)
{
speedX = 0;
}
else if (proximity < speedX + MIN_DISTANCE)
{
// Using Brakes!
if (proximity < MIN_DISTANCE + 20)
{
speedX += (-Road.MAX_SPEED_ROAD_3 * BRAKES_EFFICIENCY) / ACCELERATION; // We take the speed of road 3 as its the fastest.
if (speedX < 0)
{
speedX = 0;
}
}
// Deceleration with obstacle :
else if (proximity < (MIN_DISTANCE + 20) * 1.5)
{
speedX += ((Road.MAX_SPEED_ROAD_3 / (proximity / MIN_DISTANCE)) - Road.MAX_SPEED_ROAD_3) / ACCELERATION; // A VERIFIER
if (speedX < (Road.MAX_SPEED_ROAD_3 * 0.2) && speedX > 0)
{
speedX = (Road.MAX_SPEED_ROAD_3 * 0.2);
}
else if (speedX < (Road.MAX_SPEED_ROAD_3 * 0.2) && speedX == 0)
{
speedX = (Road.MAX_SPEED_ROAD_3 * 0.1);
}
}
// Acceleration with obstacle :
else
{
switch (road.Id)
{
case 3:
speedX += (Road.MAX_SPEED_ROAD_1 - (Road.MAX_SPEED_ROAD_1 * ((MIN_DISTANCE + 20) / proximity))) / ACCELERATION; // A VERIFIER
if (speedX > Road.MAX_SPEED_ROAD_1)
{
speedX = Road.MAX_SPEED_ROAD_1;
}
break;
case 2:
speedX += (Road.MAX_SPEED_ROAD_2 - (Road.MAX_SPEED_ROAD_2 * ((MIN_DISTANCE + 20) / proximity))) / ACCELERATION; // A VERIFIER
if (speedX > Road.MAX_SPEED_ROAD_2)
{
speedX = Road.MAX_SPEED_ROAD_2;
}
break;
case 1:
speedX += (Road.MAX_SPEED_ROAD_3 - (Road.MAX_SPEED_ROAD_3 * ((MIN_DISTANCE + 20) / proximity))) / ACCELERATION; // A VERIFIER
if (speedX > Road.MAX_SPEED_ROAD_3)
{
speedX = Road.MAX_SPEED_ROAD_3;
}
break;
}
}
}
else
{
// Acceleration without obstacle :
switch (road.Id)
{
case 3:
speedX += Road.MAX_SPEED_ROAD_1 / ACCELERATION;
if (speedX > Road.MAX_SPEED_ROAD_1)
{
speedX = Road.MAX_SPEED_ROAD_1;
}
break;
case 2:
speedX += Road.MAX_SPEED_ROAD_2 / ACCELERATION;
if (speedX > Road.MAX_SPEED_ROAD_2)
{
speedX = Road.MAX_SPEED_ROAD_2;
}
break;
case 1:
speedX += Road.MAX_SPEED_ROAD_3 / ACCELERATION;
if (speedX > Road.MAX_SPEED_ROAD_3)
{
speedX = Road.MAX_SPEED_ROAD_3;
}
break;
}
}
if (targetY != PosY && flagVerticalProx == false)
{
// UP or DOWN?
int direction = (targetY > PosY ? 1 : -1);
int directionMov = (speedY >= 0 ? 1 : -1);
double differenceAbs = Math.Abs(targetY - PosY);
if (differenceAbs > 30)
{
// Lots of Y distance yet
speedY += (speedX * direction) / ACCELERATION;
}
else
{
// Not a lot of Y distance
double targetYSpeed = (targetY - PosY) * 1.5;
bool flagDeceleration = false;
if (Math.Abs(speedY) > Math.Abs(targetYSpeed))
{
speedY += ((-Road.MAX_SPEED_ROAD_3 * directionMov) / ACCELERATION);
flagDeceleration = true;
}
if (Math.Abs(speedY) < Math.Abs(targetYSpeed) && flagDeceleration == true)
{
speedY = targetYSpeed;
}
else if (Math.Abs(speedY) < Math.Abs(targetYSpeed) && flagDeceleration == false)
{
speedY += ((Road.MAX_SPEED_ROAD_3 * direction) / ACCELERATION);
}
}
if (Math.Abs(speedY) > (speedX * 0.5))
{
speedY = (speedX * 0.5 * direction);
}
if (Math.Abs(targetY - PosY) < 3)
{
speedY = 0;
}
}
else
{
speedY = speedY / 2;
}
}
public void updateTargetY()
{
int currentZone = road.getRoadZone(PosX);
switch (currentZone)
{
case (1): // Before transition zone
// Nothing to do.
break;
case (2): // Entering transition zone
if (targetCounter.Id == road.Id * 2 || targetCounter.Id == ((road.Id * 2) - 1))
{
// Nothing to do. We are on the right road already.
}
else
{
int targetRoad = 0;
switch (targetCounter.Id)
{
case 0:
targetRoad = 0;
break;
case 1:
targetRoad = 0;
break;
case 2:
targetRoad = 1;
break;
case 3:
targetRoad = 1;
break;
case 4:
targetRoad = 2;
break;
case 5:
targetRoad = 2;
break;
}
road = theWorld.roadsArray[targetRoad];
TargetY = road.PosY;
}
break;
case (3): // Entering "Peage" zone
targetY = 183 + 50 * (TargetCounter.Id + 1);
break;
case (4): // Leaving counter zone
targetY = road.PosY;
if (speedX > (Road.MAX_SPEED_ROAD_3 * 0.75) && TargetCounter.Id == 0)
{
speedX = Road.MAX_SPEED_ROAD_3 * 0.75;
}
break;
case (5): // Leaving "Peage" zone
// No Switch to do
break;
}
}
