mirror of
https://github.com/Steffo99/nanogolf.git
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166 lines
5.1 KiB
GDScript
166 lines
5.1 KiB
GDScript
extends CharacterBody2D
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class_name GolfBall
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@export_category("References")
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## The [PuttController] that this node should poll.
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@export var putt_controller: PuttController
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## The [HoleController] that this node should poll.
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@export var hole_controller: HoleController
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## The [AudioStreamPlayer2D] that this node should play when entering the hole.
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@export var hole_sound: AudioStreamPlayer2D
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## The [Label] where the name of this player should be displayed.
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@export var player_label: Label
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@export_category("Physics")
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## Dynamic friction subtracted from the body's velocity on each physics step.
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@export var physics_friction: float
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## The maximum number of bounces that the collision algorithm will consider in a single physics step.
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@export var physics_max_bounces: float
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## A multiplier applied to the body's velocity every time it collides with something.
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@export var physics_bounce_coefficient: float
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## The scene to instantiate to play the collision sound
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@export var collision_sound: PackedScene
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@export_category("Sounds")
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## Curve mapping relative putt power to putt sound volume.
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@export var collision_volume_db: Curve
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## The velocity at which the maximum volume of [member collision_volume_db] is played.
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@export var collision_volume_max_velocity: float
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## Emitted when the ball enters the hole.
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signal entered_hole(strokes: int)
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## How many strokes have been performed so far.
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var strokes: int = 0
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## Whether the ball has entered the hole.
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var in_hole: bool = false
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## The name of the player represented by this scene.
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var player_name: String = "Player":
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get:
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return player_name
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set(value):
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player_name = value
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if player_label:
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player_label.text = value
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## The color of the player represented by this scene.
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var player_color: Color = Color.WHITE:
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get:
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return player_color
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set(value):
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player_color = value
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modulate = value
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func _on_putt(putt_vector: Vector2) -> void:
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strokes += 1
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velocity += putt_vector
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func do_movement(delta: float) -> void:
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# How much the body should move in this physics step.
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var movement = velocity * delta
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# How many times the body collided in the current physics step.
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var bounces: int = 0
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# While the body should still move some space, and it isn't stuck in a perpetual loop of bouncing...
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while movement.length() > 0.0 and bounces < physics_max_bounces:
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# Try to move!
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var collision: KinematicCollision2D = move_and_collide(movement)
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# If the body did not collide and performed its full movement, we're done!
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if not collision:
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break
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# Let's try to handle the collision properly
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bounces += 1
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# Determine the normal of the collision (the direction the body should be pushed back in)
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var collision_normal = collision.get_normal()
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# Play the collision sound
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if bounces == 1:
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# Determine with how much speed the body collided
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var collision_velocity = -collision_normal.dot(velocity)
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# Create a new sound instance
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var collision_sound_instance: AudioStreamPlayer2D = collision_sound.instantiate()
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# Set the sound volume based on the relative collision velocity
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collision_sound_instance.volume_db = min(0, collision_volume_db.sample(collision_velocity / collision_volume_max_velocity))
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# Add the sound to the SceneTree so it starts playing
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$"..".add_child(collision_sound_instance)
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# Set the sound's global position to the current global position of the body
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collision_sound_instance.global_position = global_position
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# Change the velocity adequately
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velocity = velocity.bounce(collision_normal)
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# Reflect the remaining movement
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movement = collision.get_remainder().bounce(collision_normal)
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# If we collided with something in this step, we need to apply the bounce coefficient
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if bounces > 0:
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velocity *= physics_bounce_coefficient
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## Reduce [field velocity] by [field physics_friction], taking the [param delta] into account.
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func apply_friction(delta: float) -> void:
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var new_velocity_length = max(0.0, velocity.length() - physics_friction * delta)
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velocity = velocity.normalized() * new_velocity_length
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## Return whether this object can be considered stopped or not.
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func check_has_stopped() -> bool:
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return velocity.length() == 0.0
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## Return whether this object will enter the hole on this frame or not.
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func check_has_entered_hole() -> bool:
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return check_has_stopped() and hole_controller.over_hole
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@rpc("authority", "call_local", "reliable")
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func rpc_do_enter_hole():
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enter_hole()
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func enter_hole():
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in_hole = true
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hide()
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putt_controller.can_putt = false
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if not multiplayer.is_server():
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hole_sound.play()
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entered_hole.emit(strokes)
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## Push this object's [field global_position] to all other clients.
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@rpc("authority", "call_remote", "unreliable_ordered")
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func rpc_set_global_position(nposition: Vector2):
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global_position = nposition
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func _ready() -> void:
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player_label.text = player_name
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func _physics_process(delta) -> void:
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if not multiplayer.is_server() and is_multiplayer_authority():
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if not in_hole:
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do_movement(delta)
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rpc_set_global_position.rpc(global_position)
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apply_friction(delta)
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if check_has_entered_hole():
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rpc_do_enter_hole.rpc()
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if check_has_stopped():
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putt_controller.can_putt = true
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