using System; using System.Numerics; using Godot; using Vector2 = Godot.Vector2; using Vector3 = Godot.Vector3; /// /// public class GroundMotionComponent : Component { public float Accel = 50; public float Damping = 0.2f; public float MaxSpeed = 8; public float RotationSpeedRadPerSecond = 270 * Mathf.Pi / 180; private void CalcPlaneVelocity(float delta, Entity entity, Vector3 targetPosition) { Vector2 planeTargetVector = new Vector2(targetPosition.x - entity.GlobalTranslation.x, targetPosition.z - entity.GlobalTranslation.z); float targetDistance = planeTargetVector.Length(); Vector2 planeTargetDirection = planeTargetVector / targetDistance; Vector2 planeOrientation = new Vector2(entity.GlobalTransform.basis.z[0], entity.GlobalTransform.basis.z[2]); Vector2 planeVelocity = new Vector2(entity.Velocity.x, entity.Velocity.z); // GD.Print("-- Step: distance: " + targetDistance + " dir: " + planeTargetDirection + " speed: " + planeVelocity.Length() + " vel dir: " + planeVelocity.Normalized()); planeVelocity -= planeVelocity * Damping; // GD.Print(" damp : speed: " + planeVelocity.Length() + " vel dir: " + planeVelocity.Normalized()); if (targetDistance < 0.01 || planeOrientation.Dot(planeTargetDirection) < 0.9) { planeVelocity = Vector2.Zero; } else { planeVelocity = planeVelocity.Length() * planeTargetDirection + planeTargetDirection * Accel * delta; // GD.Print(" accel: speed: " + planeVelocity.Length() + " vel dir: " + planeVelocity.Normalized()); float projectedStep = planeTargetDirection.Dot(planeVelocity * delta); // GD.Print(" Projected step: " + projectedStep + " Speed: " + planeVelocity.Length() + " delta: " + delta); if (projectedStep > targetDistance) { planeVelocity *= targetDistance / projectedStep; projectedStep = planeTargetDirection.Dot(planeVelocity * delta); // GD.Print(" corr speed: " + planeVelocity.Length() + " step: " + projectedStep); } float planeSpeed = planeVelocity.Length(); if (planeSpeed > MaxSpeed) { planeVelocity *= MaxSpeed / planeSpeed; } } entity.Velocity = new Vector3(planeVelocity.x, entity.Velocity.y, planeVelocity.y); } private void CalcVerticalVelocity(float delta, Entity entity, TileWorld tileWorld) { Vector3 entityVelocity = entity.Velocity; Vector2 currentTile = tileWorld.WorldToOffsetCoords(entity.GlobalTransform.origin); Vector2 nextTile = tileWorld.WorldToOffsetCoords(entity.GlobalTransform.origin + entityVelocity * delta); if (nextTile != currentTile) { float currentHeight = tileWorld.GetHeightAtOffset(currentTile); float nextHeight = tileWorld.GetHeightAtOffset(nextTile); bool isOnFloor = entity.IsOnFloor(); if (nextHeight - entity.GlobalTransform.origin.y > 0.1) { GD.Print("Jump!"); entityVelocity.y = 10; } } entityVelocity.y -= 9.81f * delta; entity.Velocity = entityVelocity; } public void PhysicsProcess(float delta, Entity entity, Vector3 targetPosition, Quat targetOrientation, TileWorld tileWorld) { CalcAndApplyOrientation(delta, entity, targetPosition, targetOrientation); CalcPlaneVelocity(delta, entity, targetPosition); CalcVerticalVelocity(delta, entity, tileWorld); entity.Velocity = entity.MoveAndSlide(entity.Velocity); //GD.Print("Pre : speed: " + prePhysicsVelocity.Length() + " Velocity: " + prePhysicsVelocity); //GD.Print("Post: speed: " + entity.Velocity.Length() + " Velocity: " + entity.Velocity); } private void CalcAndApplyOrientation(float delta, Entity entity, Vector3 targetPosition, Quat targetOrientation) { Vector3 direction_to_target = targetPosition - entity.GlobalTranslation; if (direction_to_target.LengthSquared() > Globals.EpsPositionSquared) { direction_to_target = direction_to_target.Normalized(); Vector3 localXAxis = Vector3.Up.Cross(direction_to_target); targetOrientation = new Basis(localXAxis, Vector3.Up, direction_to_target).Quat().Normalized(); } float orientationErrorRadians = entity.GlobalTransform.basis.Quat().AngleTo(targetOrientation); if (Mathf.Abs(orientationErrorRadians) > Mathf.Pi * 1.1) { GD.Print("moep"); } if (orientationErrorRadians > 0) { Transform entityTransform = entity.Transform; if (orientationErrorRadians < RotationSpeedRadPerSecond * delta) { entityTransform.basis = new Basis(targetOrientation); } else if (orientationErrorRadians > 0f) { Quat entityRotation = new Quat(entityTransform.basis); float slerpWeight = RotationSpeedRadPerSecond / (orientationErrorRadians / delta); entityRotation = entityRotation.Slerp(targetOrientation, slerpWeight); entityTransform.basis = new Basis(entityRotation); } entity.Transform = entityTransform; } } }