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random-stuff/computercraft/arr_controller.py

310 lines
15 KiB
Python
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2023-11-13 19:37:05 +00:00
import asyncio
import websockets
import umsgpack
import random
import time
import collections
import functools
import json
import math
import queue
SwitchConfig = collections.namedtuple("SwitchConfig", ["states", "connections", "position"])
Connection = collections.namedtuple("Connection", ["destination_switch", "destination_side", "metric"], defaults=[None, None, None])
def vecdistance(a, b): return math.sqrt(sum((p - q) ** 2 for p, q in zip(a, b)))
def invert(x): return { v: k for k, v in x.items() }
def make_bijection(x): return {**x, **invert(x)}
north_tjunction = (
{ "east": "north", "north": "east", "west": "east" },
{ "east": "west", "north": "west", "west": "north" }
)
south_tjunction = (
{ "east": "south", "south": "east", "west": "east" },
{ "east": "west", "south": "west", "west": "south" }
)
east_tjunction = (
{ "north": "south", "east": "south", "south": "east" },
{ "north": "east", "east": "north", "south": "north" }
)
west_tjunction = (
{ "south": "west", "west": "south", "north": "south" },
{ "west": "north", "north": "west", "south": "north" }
)
switch_configs = {
"SW1": SwitchConfig(north_tjunction, {
"north": Connection("SW2", "south"),
"west": Connection("SW3", "east"),
"east": Connection("SW1", "east", 8)
}, (-5344, 95, 3108)),
"SW2": SwitchConfig(south_tjunction, {
"south": Connection("SW1", "north"),
"west": Connection("SW4", "east"),
"east": Connection("SW5", "south")
}, (-5344, 95, 3090)),
"SW3": SwitchConfig(north_tjunction, {
"east": Connection("SW1", "west"),
"north": Connection("SW4", "south"),
#"west": Connection("SW3", "west")
}, (-5360, 95, 3108)),
"SW4": SwitchConfig(east_tjunction, {
"east": Connection("SW2", "west"),
"south": Connection("SW3", "north"),
"north": Connection("SW4", "north", 24)
}, (-5361, 95, 3091)),
"SW5": SwitchConfig(west_tjunction, {
"south": Connection("SW2", "east"),
"west": Connection("SW6", "east"),
"north": Connection("SW8", "south")
}, (-5325, 94, 3084)),
"SW6": SwitchConfig(east_tjunction, {
"east": Connection("SW5", "west"),
"south": Connection("SW6", "south", 6),
"north": Connection("SW7", "east")
}, (-5338, 94, 3079)),
"SW7": SwitchConfig(east_tjunction, {
"east": Connection("SW6", "north"),
"south": Connection("SW7", "south", 6),
#"north": Connection("SW7", "north", 6),
}, (-5347, 94, 3074)),
"SW8": SwitchConfig(south_tjunction, {
"south": Connection("SW5", "north"),
#"west": Connection("SW8", "west", 6),
"east": Connection("SW8", "east", 6)
}, (-5323, 93, 3069)),
}
for id, config in switch_configs.items():
for side, connection in config.connections.items():
if connection.metric is None:
metric = vecdistance(config.position, switch_configs[connection.destination_switch].position)
config.connections[side] = Connection(destination_switch=connection.destination_switch, destination_side=connection.destination_side, metric=metric)
stations = {
"Test2": ("SW3", "west"),
"Test1": ("SW8", "west"),
"Test3": ("SW7", "north")
}
switches = {}
riders = {}
known_player_locations = {}
opposites = make_bijection({"north": "south", "east": "west"})
colors = {"north": 0b11111_00000_00000, "south": 0b00000_00000_11111, "east": 0b00000_11111_00000, "west": 0b11111_11111_00000}
unavailable_segments = collections.defaultdict(dict)
def build_graph(switch_configs):
graph = collections.defaultdict(dict)
for switch, config in switch_configs.items():
for state in config.states:
for in_side, out_side in state.items():
graph[(switch, in_side, "inbound")][(switch, out_side, "outbound")] = 1
for side, connection in config.connections.items():
graph[(switch, side, "outbound")][(connection.destination_switch, connection.destination_side, "inbound")] = connection.metric
return graph
graph = build_graph(switch_configs)
def bfs(target, start, is_unavailable):
def heuristic(x, y): return vecdistance(switch_configs[x[0]].position, switch_configs[y[0]].position)
frontier = queue.PriorityQueue()
frontier.put((0, start))
reached_from = {start: None}
best_cost_to = {start: 0}
while not frontier.empty():
_, current = frontier.get()
current_cost = best_cost_to[current]
if current == target:
break
for next_node, hop_cost in graph[current].items():
new_cost = current_cost + hop_cost
if not is_unavailable(next_node) and (next_node not in best_cost_to or best_cost_to[next_node] > new_cost):
reached_from[next_node] = current
best_cost_to[next_node] = new_cost
frontier.put((new_cost + heuristic(target, next_node), next_node))
try:
current = target
path = []
while current != start:
path.append(current)
current = reached_from[current]
path.reverse()
return path
except KeyError:
# route cannot be routed
return None
def get_target_side(cart_id, current_switch, current_side, target):
def is_unavailable(segment):
for occupying_cart in unavailable_segments[segment]:
if occupying_cart != cart_id:
return True
return False
path = bfs(target + ("outbound",), (current_switch, current_side, "inbound"), is_unavailable)
if path == [] or path == None:
print("already there or failed")
return current_side
print(path, target)
return path[0][1]
async def connect():
send = None
chat_tell = None
async def socket_connection():
async with websockets.connect("wss://spudnet.osmarks.net/v4?enc=msgpack") as websocket:
nonlocal send
send = lambda x: websocket.send(umsgpack.dumps(x))
await send({"type": "identify", "key": "[REDACTED]", "channels": ["comm:arr"]})
while True:
data = umsgpack.loads(await websocket.recv())
if data["type"] == "ping":
await send({"type": "pong", "seq": data["seq"]})
elif data["type"] == "message":
info = data["data"]
if info["type"] == "sw_ping":
switch_id = info["id"]
switches[switch_id] = { "carts": info["carts"], "last_ping": time.time() }
switch = switch_configs[switch_id]
for cart in sorted(info["carts"], key=lambda k: k["distance"]):
if "dir" in cart and "pos" in cart:
# a thing is "inbound" relative to a switch unit if its movement direction and position are opposite
# otherwise, it's outbound
# things going in the same direction can share the same track, though, so we want to block off the *opposite* segment
unavailable_direction = "outbound" if opposites[cart["dir"]] == cart["pos"] else "inbound"
cart_id = cart["id"]
# clear out existing reservations by this cart
for segment, carts in unavailable_segments.items():
if cart_id in carts:
del carts[cart_id]
now = time.time()
unavailable_segments[(switch_id, cart["pos"], unavailable_direction)][cart_id] = now
# connections are indexed by outbound direction from the switch
if connection := switch.connections.get(cart["pos"]):
opposite = "outbound" if unavailable_direction == "inbound" else "inbound"
unavailable_segments[(connection.destination_switch, connection.destination_side, opposite)][cart_id] = now
for cart in sorted(info["carts"], key=lambda k: k["distance"]):
#print(cart)
rider = [ rider for rider in cart["riders"] if rider in riders ]
if "dir" in cart and "pos" in cart and opposites[cart["dir"]] == cart["pos"] and rider:
rider = rider[0]
target = get_target_side(cart["id"], switch_id, cart["pos"], riders[rider])
print("at", switch_id, "cart inbound on", cart["pos"], "with", cart["riders"], "set target side to", target)
switch_state = None
for i, state in enumerate(switch.states):
if state[cart["pos"]] == target:
switch_state = i
print("set state to", switch_state)
await send({"type": "send", "channel": "comm:arr", "data":
{"type": "sw_cmd", "cmd": "set", "lamp": colors[target],
"switch": switch_state, "id": switch_id, "cid": random.randint(0, 0xFFFF_FFFF)}})
elif info["type"] == "st_ping":
for player in info["players"]:
known_player_locations[player] = (info["id"], time.time())
elif info["type"] == "st_ack":
if info["cid"]:
await chat_tell(info["cid"], { "done": "Cart dispensed.", "no_cart": "Sorry, out of carts.", "busy": "System in use." }.get(info["status"], info["status"]))
elif data["type"] == "ok": pass
else:
print(data)
async def clear_switches():
while True:
clear = set()
now = time.time()
for id, switch in switches.items():
if now - switch["last_ping"] >= 2:
clear.add(id)
for clr in clear:
del switches[clr]
for segment, carts in unavailable_segments.items():
clear = set()
for cart_id, reserved_at in carts.items():
if now - reserved_at >= 15:
print("unreserve", cart_id)
clear.add(cart_id)
for clr in clear:
del carts[clr]
await asyncio.sleep(2)
async def switchcraft_chat():
async with websockets.connect("wss://chat.switchcraft.pw/[REDACTED]") as websocket:
nonlocal chat_tell
chat_tell = lambda name, msg: websocket.send(json.dumps({ "type": "tell", "user": name, "text": "[ARR] " + msg, "mode": "markdown" }))
while True:
packet = json.loads(await websocket.recv())
if packet["type"] == "command":
if packet["command"] == "arr":
name = packet["user"]["name"]
if name == "PatriikPlays": return
try:
print(name, packet["args"])
if packet["args"][0] == "dest":
assert packet["args"][1] in switch_configs, "wrong"
riders[name] = packet["args"][1], packet["args"][2]
print("set ", name, packet["args"][1], packet["args"][2])
await chat_tell(name, "Done!")
elif packet["args"][0] == "update" and name == "gollark":
await send({"type": "send", "channel": "comm:arr", "data":
{ "type": "sw_cmd", "cmd": "update" }})
await send({"type": "send", "channel": "comm:arr", "data":
{ "type": "st_cmd", "cmd": "update" }})
await chat_tell(name, "Done!")
elif packet["args"][0] == "rdest" and name == "gollark":
assert packet["args"][1] in switch_configs, "wrong"
riders[packet["args"][3]] = packet["args"][1], packet["args"][2]
print("set ", packet["args"][3], packet["args"][1], packet["args"][2])
await chat_tell(name, "Done!")
elif packet["args"][0] == "rto":
station = stations.get(packet["args"][1])
if station:
riders[name] = station
await chat_tell(name, "Destination set.")
else:
await chat_tell(name, "Try going somewhere extant.")
elif packet["args"][0] == "goto":
if name in known_player_locations and (time.time() - 5) <= known_player_locations[name][1]:
loc = known_player_locations[name][0]
await chat_tell(name, f"You are at {loc}.")
station = stations.get(packet["args"][1])
if station:
riders[name] = station
await chat_tell(name, "Destination set. Dispensing cart.")
await send({"type": "send", "channel": "comm:arr", "data":
{ "type": "st_cmd", "cmd": "place_cart", "cid": name, "id": loc }})
else:
await chat_tell(name, "Try going somewhere extant.")
else:
await chat_tell(name, "You are in the wrong place.")
except Exception as e:
await chat_tell(name, repr(e))
async def repeatedly_do_switchcraft_chat_for_bad_reasons():
while True:
try:
await switchcraft_chat()
except Exception as e:
print("connection failed probably", e)
await asyncio.sleep(0.1)
await asyncio.gather(clear_switches(), socket_connection(), repeatedly_do_switchcraft_chat_for_bad_reasons())
asyncio.run(connect())