Adds removing extra components and deleting entities clientside when
going back to the character screen. Also, simplifies ClientState by
removing the Dead variant and removing ClientMsg::StateRequest in favor
of more specific ClientMsg variants.
fix(overflow): Stops including block updates that fail (since chunks
don't exist on the client) in `TerrainUpdates` (which would trigger
meshing of those nonexistent chunks). Furthermore, removes
remeshing of chunks with block updates if those chunks don't have all their
neighbours (since those wouldn't be meshed in the first place).
- Clarify caffeine fueled comment
- Be better at comparing Instant's, and catch the 0 seconds case to say
Goodbye to the user
- Switch println for 'info!'
- Bugfix: Check whether the server response (pong) is greater than the timeout period, rather than the ping (which will always fire regardless of connection status) This was causing the timeout error event to never fire.
- Feature: Send the player notifications to the chat window that they will be kicked due to disconnection for 6 seconds before kicking them back to the main menu.
Currently we only do this when no players are in range of the chunk. We
also send the first client who posted the chunk a message indicating
that it's canceled, the hope being that this will be a performance win
in single player mode since you don't have to wait three seconds to
realize that the server won't generate the chunk for you.
We now check an atomic flag for every column sample in a chunk. We
could probably do this less frequently, but since it's a relaxed load it
has essentially no performance impact on Intel architectures.
Currently we only do this when no players are in range of the chunk. We
also send the first client who posted the chunk a message indicating
that it's canceled, the hope being that this will be a performance win
in single player mode since you don't have to wait three seconds to
realize that the server won't generate the chunk for you.
We now check an atomic flag for every column sample in a chunk. We
could probably do this less frequently, but since it's a relaxed load it
has essentially no performance impact on Intel architectures.
