physics_joint_weld_create

Create a strong but flexible straight line joint connecting two instances along a given angle.

Syntax:

GML Code Example

physics_joint_weld_create(inst1, inst2, anchor_x, anchor_y, ref_angle, freq_hz, damping_ratio, col)


Argument Description
inst1 The first instance to connect with the joint
inst2 The second instance to connect with the joint
anchor_x The x coordinate for the joint, within the game world
anchor_y The y coordinate for the joint, within the game world
ref_angle The joint angle to maintain
freq_hz This is the oscillation frequency for the joint, in hertz
damping_ratio This damping ratio for the joint
col Whether the two instances can collide (true) or not (false)


Returns: Index of the joint


Description

The weld joint is designed to attach two fixtures together in a strong, yet flexible bond. The weld joint will permit flexing between the two joined fixtures but without the stretching associated with, for example, a distance joint, and will always try to "spring" back to the reference angle when put under any stress or load. You define the point in the room where the joint should be created, as well as the angle that you wish the joint to try and maintain at all times, as shown in the image below:

As you can see, the anchor points are specified as room coordinates so care must be taken when defining them, especially if the instances are being created at the same time as the joints rather than being placed in the room through the room editor. You should also realise that the joints are created independently of the size of the sprite of the instances or the fixtures they have attached. So, if you create a weld joint somewhere other than the origin of the instance, it is still valid and will constrain the two instances relative to the position at which it was created.

Since the weld joint is flexible and will bend and flex when under any stress, you can set the oscillation frequency (in Hz) as well as the damping ratio for the joint to get different effects - you may need to play with these values to fine tune them and it is recommended that you start off with smaller values and increment them until you get the effect that you desire.

If you set the "col" value to true then the two instances can interact and collide with each other but only if they have collision events, however if it is set to false, they will not collide no matter what.


Example:

GML Code Example

var i, fix, o_id, p_id;
 p_id = noone;
 o_id = noone;
 fix = physics_fixture_create();
 physics_fixture_set_box_shape(fix, 64, 32);
 for (i = 0; i < 5; i++;)
    {
    o_id = instance_create(x + (128 * i), y, obj_BridgePart);
    physics_fixture_bind(fix, o_id);
    if i > 0 && i < 4
       {
       physics_joint_weld_create(p_id, o_id, x + (128 * i) - 64, y, 0, 10, 12, true);
       }
    p_id = o_id;
    }
 physics-fixture_delete(fix);
 

The above code will create a fixture, then use a loop to create a number of instances, binding the fixture to each new instance and then joining them all together using a weld joint. Finally the fixture is deleted from memory.





No Examples Submitted

Does this page need better examples? Be the first to Submit

No Edits Suggested

Is this page unclear or not descriptive enough? Suggest an edit to the page and with enough upvotes your changes will be made.

No Questions Have Been Ask

Do you have a question about this page? Ask it Here