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I am making an 'asteroids' game in C++ and SFML, and am wondering about smooth momentum slowdown and speed up. In the original game, when you moved in a direction, you built up 'momentum', which increased whilst the button was held down, and decreased when released. I have started my own version of this. Currently I have a sf::Vector2f containing the ship's momentum. It can be negative or positive. The problem is, I can't properly implement slowdown (I've not even attempted speedup yet). I've tried the following;

if (plr.momentum.x < 0) {
if (plr.momentum.x > 0) {
if (plr.momentum.y < 0) {
if (plr.momentum.y > 0) {

With this, after moving, the player is slowly dragged to the top left of the window (coordinates 0,0). I assume this is because a float can be, for example 0.05, meeting the 'more than 0' if statement. From this, it takes one, making it a minus number. The next if statement adds one to it, and this continuously loops. Negative x momentum moves you left, and negative y momentum moves you up, and visa versa. I would like to know the methodology behind smooth slowdowns and speedups.

Incase you were/are wondering, I use the following code to move the player according to it's momentum;


If you are not familiar with SFML, sf::Vector2f has a .x and .y, which are used in .move of sf::Sprite playerSprite. .move moves the player relative to their current position; so if a player is at (5,0), and you do player.move(sf::Vector2f(-1,0)), their coordinates would be (4,0).

EDIT: I now have the following code for slowdowns as a suggestion from a friend. The slowdown works perfectly, but after slowing down, it starts moving to the top left again. What is causing this?

if (plr.xSlowdown < 0.f) {
    plr.xSlowdown += 0.1f;
if (plr.xSlowdown > 0.f) {
    plr.xSlowdown -= 0.1f;
if (plr.ySlowdown < 0.f) {
    plr.ySlowdown += 0.1f;
if (plr.ySlowdown > 0.f) {
    plr.ySlowdown -= 0.1f;

plr.xMomentum = floor(plr.xSlowdown);
plr.yMomentum = floor(plr.ySlowdown);
share|improve this question
Re your edit: I think your current left/topward drift is based on your "floor" operation -- think what happens if xSlowdown starts at +0.05f, and goes through multiple iterations of your code. If you want your sprite to come to a dead stop, you should instead add a test inside each if(){} statement: e.g., if the slowdown changes a value from <0.f to >0.f, it should be set to exactly 0.f instead. – comingstorm Oct 15 '12 at 23:27

2 Answers 2

up vote 1 down vote accepted

If you want your spaceship to slow down when the thrusters are off, you should add drag.

Drag applies a force based on the velocity: the simplest way is to do F = -K v for a drag coefficient K. So, if your ship's momentum is stored in plr.xMomentum and plr.yMomentum, your program would be:

// note:  "dt" is your timestep;
//   if you don't have one, just choose some small value for "fraction", like 0.005
float fraction = drag_coefficient_K * dt;
plr.xMomentum -= fraction * plr.xMomentum;
plr.yMomentum -= fraction * plr.yMomentum;

Speedup will be based on the orientation of your spaceship:

// note: "orientation" is the angle of your spaceship;
//   the units of orientation are determined by "angle_scale",
//   which should be chosen such that "angle_in_radians" is in radians...
float angle_in_radians = angle_scale * orientation;
float thrust_per_timestep = thrust_value * dt;
plr.xMomentum += thrust_per_timestep * cos(angle_in_radians);
plr.yMomentum += thrust_per_timestep * sin(angle_in_radians);

The combination of the drag and the thrust effectively puts an upper limit on the speed you can achieve (at least without gravitational assist or something...).

share|improve this answer
plr.xMomentum/plr.yMomentum are both ints, so do not care about 0.005. Therefore they just decrease rapidly at -1 per frame. Also, plr.xSlowdown and plr.ySlowdown are floats, which get floored at the end of the loop, before instructing the ship to move. My code is now the following: The ship has the appearance of coming to an instant halt, but when I log the momentum, it does decrease, but too fast to see. – Jack Wilsdon Oct 16 '12 at 6:50

What you want is physics. Very simple physics: F=ma.

You need to have some concept of acceleration, velocity, and position. User input dictates the acceleration. The acceleration changes the velocity, and velocity changes position.

Aside: There is no difference between slowdown and speedup. They're both acceleration.

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