blob: b2ccb5e73e7bdcc4b14a470ee4dcb7e7d1902a54 (
plain) (
blame)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
|
package coffee.liz.abstractionengine;
import coffee.liz.abstractionengine.grid.component.GridInputState;
import coffee.liz.abstractionengine.grid.system.GridCollisionPropagatationSystem;
import coffee.liz.abstractionengine.grid.system.GridIndexSystem;
import coffee.liz.abstractionengine.grid.system.GridMovementSystem;
import coffee.liz.abstractionengine.grid.system.GridPhysicsSystem;
import coffee.liz.abstractionengine.grid.system.LambdaEvaluatorSystem;
import coffee.liz.ecs.DAGWorld;
import coffee.liz.ecs.math.Vec2;
import coffee.liz.lambda.ast.SourceCode;
import lombok.extern.log4j.Log4j2;
import java.time.Duration;
/** Grid world implementation for the abstraction engine. */
@Log4j2
public class AbstractionEngineGridWorld extends DAGWorld<GridInputState> {
public AbstractionEngineGridWorld(final Vec2<Integer> gridDimensions, final SourceCode.Syntax preferredSyntax) {
super(new GridMovementSystem(), new GridPhysicsSystem(), new GridIndexSystem(gridDimensions),
new GridCollisionPropagatationSystem(), new LambdaEvaluatorSystem(preferredSyntax));
}
/**
* Update world with input state. For now our grid world is a "step function",
* so we shouldn't (yet) care about the amount of time between steps.
*
* @param state
* the {@link GridInputState}
*/
public void update(final GridInputState state) {
update(state, Duration.ZERO);
}
}
|