The movement in 2DSpaceShooter is physics based. The player object is a dynamic rigidbody and can collide with other players or asteroids. Physics in multiplayer games can be hard to get right. For simplicity, 2DSpaceShooter runs all movement and physics just on the server-side.
The client sends inputs in the form of RPCs to the server. The server then uses those inputs to adjust the throttle and turn values of the player.
This method of running physics makes sure that there are no desyncs or other physics issues between the client and server, but it introduces more latency.
NetworkVariables to track the players health and energy. Both variables are server authorative, only the host or server can make changes to them. The client draws the player's health bar simply by accessing the value of the
The 2DSpaceShooter sample has power-ups which apply different status effects to a player on collection. The core implementation of the power up effects in
ShipControl.cs is very simplistic.
The power-ups themselves are server authorative. On the server they check if a player has entered their trigger and then apply a timed status effect to that player and disappear.
ShipControl.cs of the player object tracks each status effect.
NetworkVariables are used as duration timers to control the beginning and end of status effects. You could also use regular floats for timers. By using
NetworkVariables, the client can use this information to display different graphics based on active buffs to players.
2DSpaceShooter object creates many objects dynamically at runtime including bullets, asteroids, and pickups. 2DSpaceShooter uses object pooling to avoid performance issues of instantiating and destroying Unity Objects all the time and creating allocations in the process.
2DSpaceShooter uses the NetworkObjectPool script, which can be found in the Community Contributions Repository.
All of the runtime spawnable objects have been registered to the pool. On the client-side, this will cause Netcode to use an object from the pool instead of instantiating a new Object. When the
NetworkObject is despawned, it will be automatically returned to the pool instead of getting destroyed.
NetworkObjectPool to the scene will not yet pool server objects because these must be manually created and then spawned by the user. Instead of instantiating objects, your code should take them from the pool.
Regular Netcode Spawn Code example:
Pooled Netcode Spawn Code example:
If you are using Unity 2021, you can use the built-in Object Pooling API instead to build your own object pools.