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I have asked this question previously and it was closed due to it not being a programming question, this is entirely as I worded it wrong. I would like this to implemented into java. I am creating a little game and I have a photon torpedo which is being fired from a ship towards a target. Now as the speed of the torpedo is slow the ship will never hit any targets if they're moving and I want to fix this. I have drew up multiple theories and mapped out lots of mathematical stuff to find out the best way to accomplish this and in the end I deduced the following:
- I find the time it takes for the photon torpedo to get to the target.
- I find how far the target will have traveled in the time it takes for the torpedo to arrive.
- I then find the distance between the new position of the target and the original ship.
- this then gives me the opportunity to use the Cosine rule (SSS) to find out the trajectory at which the bullet needs to be fired to have a much higher chance of hitting.
Here is a digram:
Now the only problem that I need to rotate line a to the correct orientation as by default it's parallel to line c which messes up the entire equation. Can anyone help with this? And also if you can think of a better way to find the new position suggestions are very welcome. My java game entity mechanic works as follows:
- Each entity has two Vectors which control movement. Position and Velocity. However, velocity is not tracked entirely properly as instead of it being a speed and a direction, to make things easier it's an xSpeed and a ySpeed.
- The entities are all updates once per tick and the ship which shoots the torpedo must calculate the future position in this one tick and not over multiple ticks.
I ask this question not to be closed again, because this time I really need the answer to be implemented into Java.
This is the math i've tried so far:
double dis = level.distanceBetween(photonTargetTop, this); double speed = 5; double time = dis / speed; double d1 = photonTargetTop.velocity.x * time; double d2 = photonTargetTop.velocity.y * time; double dis2 = level.distanceBetween(this, photonTargetTop.pos.x + d1, photonTargetTop.pos.y + d2); double dis3 = level.distanceBetween(photonTargetTop, photonTargetTop.pos.x + d1, photonTargetTop.pos.y + d2); double cosAngle = Math.pow(dis2, 2) + Math.pow(dis, 2) - Math.pow(dis3, 2) / 2 * dis2 * dis; double angle = Math.acos(cosAngle); EntityPhoton p = new EntityPhoton(this, level); p.rotation = angle; level.addEntity(p, pos);