# A player-falling system (basically gravity)

I am making a game that is similar to Doodle Jump, getting your player as high as possible. Now, I got my player working, and moving. But, the problem is, I don't have gravity, or anything that will make the player fall down onto the ground again. Do you guys have any idea of doing this? I tried having the player get a constant force, being pushed down at all times, but, it's not smooth, and it doesn't act like real falling. Can I have some help with making this player-falling system?

Edit:

``````    GRAVITY = 10;
TERMINAL_VELOCITY = 300;
vertical_speed = 0;

public void fall(){
this.vertical_speed = this.vertical_speed + GRAVITY;
if(this.vertical_speed > TERMINAL_VELOCITY){
this.vertical_speed = TERMINAL_VELOCITY;
}
this.y = this.y - this.vertical_speed;
}
``````

I made this, didn't work, shoots my player up in the air.

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There's a constant acceleration that we are accelerated at. It's NOT a constant velocity. That's why your falling didn't look right. –  Thomas Shields May 24 '11 at 14:02
"didn't work, shoots my player up in the air." Consider that you have the sign of the speed wrong. Maybe you should subtract GRAVITY instead of add? –  S.Lott May 24 '11 at 15:33

In the real world gravity will increase the rate of a fall by a constant amount over time (9.8 meters per second per second). You could simulate this by giving the player a vertical speed (when they jump or fall off a platform) and then subtracting a constant amount from that value every time round the main game loop so that they accelerate over time. You'll want to put a maximum limit on this (terminal velocity) otherwise when they fall a long way they could hit ludicrous speed fairly quickly. The pseudo-code would look something like this:

``````const GRAVITY = 10;
const TERMINAL_VELOCITY = 300;

object Player
{
int vertical_speed = 0;
int vertical_position;

function fall ()
{
this.vertical_speed = this.vertical_speed + GRAVITY;
if (this.vertical_speed > TERMINAL_VELOCITY)
{
this.vertical_speed = TERMINAL_VELOCITY;
}
this.vertical_position = this.vertical_position - this.vertical_speed;
}
}
``````
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Right, I wrote your psuedocode in Java, I edited it into the OP, now, I put this in my update() method, which updates every frame. Now what happens is, when I start it, it will suddenly shoot upwards, and not come back. Can you see what I did wrong? The this.y is the y position of the player. –  Stan May 24 '11 at 14:17
@Stan. You need to add rather than subtract. Down is teh positive direction on the y axis. i.e. this.y = this.y + this.vertical_speed; –  Vincent Ramdhanie May 24 '11 at 14:46
Are you assuming that the this is called once per second and that vertical speed is in m/s, otherwise you can't just add gravity to vertical speed to get the new speed –  chillysapien May 24 '11 at 14:56
If the acceleration's too fast, then you can a) use a smaller gravity constant and/or b) don't recompute the fall velocity every time through the loop. If you do it on every third iteration then the acceleration will be three times less. If the character is falling up instead of down, then add the velocity instead of subtract it. –  GordonM May 24 '11 at 19:07

Do you know the formula for gravity?

``````velocity = acceleration * time
``````

`acceleration` is the gravitational acceleration.

`time` is the amount of time that has passed.

Also,

``````distance = 1/2 * acceleration * time**2
``````
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I see, but, I have no idea how to still actually implent this, do you suggest to make a timer which starts when you at 0 velocity, or something? –  Stan May 24 '11 at 14:09

Instead of having a constant force acting on the person, you need to have the person accelerate while they fall.

They should start falling with `0` velocity. Then, you should increase the force as they fall.

To do this, you will need to update their velocity over time:

Something like this:

``````if (stillFalling) {
velocity = velocity + (gravity_constant) * time_interval;
} else {
velocity = 0;
}
``````

You will want to continuously update the velocity.

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You will find explanations and a demo on that website. I suggest too that you read a book on physics or at least some wiki article about gravity.

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