3

I've already read this and the official documentation: fixedUpdate(), and the deep explanation.

So I've tried to separate my code. First, in Update(), I dont give the full code the variables are self-explanatory:

private void Update()
{
    if (Input.GetButton("Jump")) {
        if (groundsTouched>0) {
            _jumpRequest = true;
        } else {
            _keepOnJumping = true;
        }
    } else {
        _keepOnJumping = false;
    }
    /* Handle release button: */
    _fallRequest = true;
}

And now I'm doing all the calculations in the FixedUpdate() like this:

private void FixedUpdate()
{
    if (_jumpRequest) {
        if (!_jumpGravitySent) {
            _jumpGravitySent = true;
            _animator.SetBool("Jump", true);
            _jumpRequest = false;
            jumpTimeCounter = jumpTime;
            /* Cancel all force (couldn't find a better way) */
            _rigidbody.velocity = Vector3.zero;
            _rigidbody.angularVelocity = Vector3.zero;
            _rigidbody.AddForce(
                Vector3.up * jumpVelocity, ForceMode.VelocityChange
            );
        }
    } else if (_keepOnJumping) {
        jumpTimeCounter -= Time.fixedDeltaTime;
        if (jumpTimeCounter >= 0) {
            _rigidbody.AddForce(
                Vector3.up * jumpVelocity * jumpKeepMultiplier, 
                ForceMode.Acceleration
            );
        }
    }
    if (groundsTouched == 0 && 
        _rigidbody.velocity.y > velocityFallMin &&
        _rigidbody.velocity.y < velocityFallMax
    ) {
        _animator.SetBool("Jump", false);
        _animator.SetBool("Fall", true);
    }
    if (_fallRequest) {
        _fallRequest = false;
        _jumpGravitySent = false;
        _keepOnJumping = false;
    }
}

The problem I've faced was really strange: when the FPS was low, the player couldn't jump high.

Unity QA saw my problem and their answer was:

You are adding Force dependent on fixedDeltaTime which is dependent on your available performance (or frame rate essentially).

If you go to Edit->Project Settings->Time and change fixed Timestep to a larger value, you will get the expected behavior. Try a few different values of Fixed Timestep and see how the behavior changes.

Another suggestion would be to rewrite the code so it's not dependent on frame rate (eg. use Velocity and not force or add a specific amount of force on jump, not dependent on Timestep).

"Another suggestion would be to rewrite the code so it's not dependent on frame rate" -> how would you do that, I thought that my code above is doing it!

What am I missing? What am I doing wrong / what could be the solution?

2
  • One thing you can try is using Time.deltaTime inside of FixedUpdate(). It might be the same value. Another thing you can try is Rigidbody.MovePosition() instead of AddForce(). You could also try a different force mode in AddForce() like ForceMode.Force or ForceMode.Impulse. Is your mass of yoru object set too high?
    – Eliasar
    Commented Mar 8, 2019 at 22:26
  • @Eliasar Thanks for your suggestion but I've already tried everything but MovePosition(). I'll try this tonight. For the other suggestions, if you watch carefully my code you will notive that I only call Time.fixedDeltaTime when I do jumpTimeCounter -= Time.fixedDeltaTime, this is the only time where I do this. So with deltaTime this doesn't change the problem, unfortunately. Commented Mar 8, 2019 at 22:46

1 Answer 1

7

I wonder who's that Unity QA that gave you that answer, it's cringeworthy.

Let me explain what happens, in reality.

1) Let's start with fixedDeltaTime: this value is NEVER dependent on frame rate. It can be set in the Editor (in Edit->Project Settings->Time), and that's the value that's kept at runtime, unless any script changes it with an assignement. The Unity engine never changes it by itself.

2) The Physics loop: in a full engine loop, Unity will execute a number of Physics loop (0,1, or more) and then a single Rendering loop. The number of Physics loops executed per Rendering loop is based on that fixedDeltaTime and how much time has passed since the last one (i.e.: the deltaTime of the Rendering loop).

For example, let's say fixedDeltaTime = 0.0166667 and the time passed since the last Physics loop it's less than that, say 10ms. Unity won't execute the Physics loop. Now suppose that even the next frame has been rendered in 10ms - this means that since the last Physics loop, 20ms have passed. Since this is higher than the fixedDeltaTime, Unity will execute a Physics loop. Sometimes it may happen that a frame is rendered very slowly (due to unforeseeable reasons), for example in 40ms. To keep the physics simulation consistent, Unity has to run two Physics loop in a row, that's because 0.04/0.0166667 = 2.4.

Keep in mind that Unity keeps track of the difference between the last Physics loop start time and the next one: if the rendering lasts 10ms every frame, and fixedDeltaTime is set to 166667ms (60Hz), as soon as you start the runtime, Unity will execute the first Physics loop, then skip one after the 1st rendering frame (because only 10ms have passed instead of 166667), then execute one Physics loop after the 2nd rendering frame (20ms passed against the 166667). But now we have the loop desynchronized by 3.3333ms, so Unity will keep track of that.

After the 3rd frame, another 10ms have passed, but no Physics loop will be executed since 10+3.3333 = 13.3333 which is still lower than the fixedDeltaTime. Now, let's suppose that the 4th rendering frame "goes wrong", and it lasts 25ms instead of just 10. At the start of the next Physics loop, a total of 25+13.3333 = 38.3333 have passed since the last Physics update, and 38.3333/16.6667 = 2.3, and Unity will execute two Physics loop in a row to keep up with the fixed step simulation, before going on in rendering the 5th frame.


After all this intro, let's get back to your problem, and look at what happens:

At a certain point you execute Update(), and set _jumpRequest = true; and _fallRequest = true;.

After this rendering frame, FixedUpdate() is executed for the first time, executing the AddForce ForceMode.VelocityChange line, and setting _fallRequest = false;, _jumpGravitySent = false; and _keepOnJumping = false;. After the end of this FixedUpdate(), Unity executes the physics simulation, adjusting the position and velocities of the rigidbody thanks to the physics engine.

Now the problem triggers: since the rendering frame was slow, the physics loop is executed at least twice in a row, but no Update() is executed in between, so everything in FixedUpdate() is skipped, but the physics simulation is run for a 2nd time, draggin the rigidbody position down in respect to the intended, topmost position.

When Update() is executed again, finally your code sets _keepOnJumping = true;, and when it gets back to FixedUpdate() it will execute the AddForce ForceMode.Acceleration, but immediately after that, another physics simulation is executed for the 2nd time (due to low frame rate), dragging again the rigidbody down before it can be rendered on screen.

Hope this helps in understanding your problem and why it happens, so that you now have the right tools to fix it properly.

2
  • The problem was there: jumpTimeCounter -= Time.fixedDeltaTime. I'm still having hard times to use timing properly. I've managed to see more clearly the problem using 4 buttons, each one setting a different Time.timeScale: 0.2, 1, 2, 4. It seems for what I want I can't rely on time: using fixedXxx or not, using almost all the properties here: docs.unity3d.com/ScriptReference/Time.html I didn't find a viable solution... the solution is to work on the max height of what the player can reach as long as he presses jump. Commented Mar 9, 2019 at 5:49
  • FYI I've made everything work not on a time basis, but on a destination in space basis. For example, when the player press "Jump", I define a "max Y" to reach before falling, and as long as he keeps the "Jump" pressed, I change the velocity. If the "max Y" is reached, then I ignore the "Jump" and the player falls down. If the "Jump" is released in-between, I stop changing the velocity. Thus it's not a matter of time anymore but a matter of position. Same principle for monster generation: I generate a new them when a monster reached a certain position. Commented Mar 13, 2019 at 8:18

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