Anpassung der Methoden auf Verwendung von Tunnels. launch.json angepasst, sodass easy_positions.json genommen wird.

This commit is contained in:
2025-05-27 16:54:45 +02:00
parent 9d1c488b26
commit 010b7bb6c4
3 changed files with 69 additions and 9 deletions
+4 -3
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@@ -110,15 +110,16 @@
] ]
}, },
{ {
"name": "routing for easy.json", "name": "routing for easy_positions.json",
"type": "debugpy", "type": "debugpy",
"request": "launch", "request": "launch",
"program": "${file}", "program": "${file}",
"console": "integratedTerminal", "console": "integratedTerminal",
"args": [ "args": [
"--filename", "--filename",
"easy.json", "easy_positions.json",
"-g" "-w"
"easy_todraw.json"
] ]
}, },
{ {
+42 -1
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@@ -290,6 +290,10 @@ class Anlage():
# Container für alle Unterverteiler # Container für alle Unterverteiler
self._distributors = dict() self._distributors = dict()
self._distributors_onpoints = dict() self._distributors_onpoints = dict()
# Container für alle Tunnel
self._tunnels = dict()
self._tunnel_onpoints = dict()
self._tunnel_lengths = dict()
#Container für alle Wege #Container für alle Wege
self._sensor2dist = dict() self._sensor2dist = dict()
# Toleranzen zur Rack anbindung aneinander (Rack Snap) # Toleranzen zur Rack anbindung aneinander (Rack Snap)
@@ -395,6 +399,36 @@ class Anlage():
''' '''
return self.connect_equipment_to_racks(self._distributors, self._distributors_onpoints) return self.connect_equipment_to_racks(self._distributors, self._distributors_onpoints)
def get_tunnel_onpoints(self):
return self._tunnel_onpoints.values()
def add_tunnel(self, tname: str, pos:Point):
self._tunnels[tname] = pos
def set_tunnel_length(self, tunlength):
self._tunnel_lengths = tunlength
def add_tunnels(self, tunnels:dict):
for tname,pos in tunnels.items():
self.add_tunnel(tname, pos)
def get_tunnel_point(self, tname:str) -> Point:
if tname in self._tunnels:
return self._tunnels[tname]
raise Exception("Tunnel not found")
def connect_tunnels(self) -> list:
for tname, pos in self._tunnels.items():
tunbeg = pos[0]
tunend = pos[1]
trackname = f"t-Rack-{tname}"
self._racks.add_rack(tunbeg, tunend, trackname)
return self.connect_equipment_to_racks(self._tunnels, self._tunnel_onpoints)
def join_racks(self): def join_racks(self):
self._racks.join_racks_str() self._racks.join_racks_str()
@@ -481,17 +515,24 @@ class Anlage():
for rname in self.get_rack_names(): for rname in self.get_rack_names():
plist = self.get_points_from_rack(rname) plist = self.get_points_from_rack(rname)
for start, end in pairwise(plist): for start, end in pairwise(plist):
nid_start = self._nodeids.get_id(start) nid_start = self._nodeids.get_id(start)
nid_end = self._nodeids.get_id(end) nid_end = self._nodeids.get_id(end)
weight=start.distance(end)
if re.match("v-.*", rname): if re.match("v-.*", rname):
color = "red" color = "red"
elif re.match("d-.*", rname): elif re.match("d-.*", rname):
color = "blue" color = "blue"
elif re.match("t-.*", rname):
color = "orange"
weight = 3500 # !!! Wert muss noch validiert werden !!!
else: else:
color = "black" color = "black"
G.add_edge(nid_start, nid_end, color=color, weight=start.distance(end))
G.add_edge(nid_start, nid_end, color=color, weight=weight)
return self._node_positions return self._node_positions
def map_distributor_to_sensors(self, dname:str, snamen:list[str]): def map_distributor_to_sensors(self, dname:str, snamen:list[str]):
+23 -5
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@@ -28,7 +28,7 @@ def to_json(d, pretty: bool = True) -> str:
return json.dumps(d, indent=2 if pretty else None, ensure_ascii=False, default=str) #ensure_ascii false für darstellung von "ue" return json.dumps(d, indent=2 if pretty else None, ensure_ascii=False, default=str) #ensure_ascii false für darstellung von "ue"
def create_plant(racks:dict, sensors:dict, distributors:dict, mapping:dict) -> dict: def create_plant(racks:dict, sensors:dict, distributors:dict, mapping:dict, tunnels: dict, tunlength:dict ) -> dict:
# racks = {'Rack_1-0': [Point(0, 0), Point(0, 10)], # racks = {'Rack_1-0': [Point(0, 0), Point(0, 10)],
# 'Rack_2-0': [Point(10, -2), Point(10, 5)], # 'Rack_2-0': [Point(10, -2), Point(10, 5)],
@@ -71,6 +71,12 @@ def create_plant(racks:dict, sensors:dict, distributors:dict, mapping:dict) -> d
an.add_distributors(distributors) an.add_distributors(distributors)
# Verbinde UV mit deren naheliegendsten Racks # Verbinde UV mit deren naheliegendsten Racks
errors_dists = an.connect_distributor_to_racks() errors_dists = an.connect_distributor_to_racks()
# Füge Tunnel hinzu
an.add_tunnels(tunnels)
an.set_tunnel_length(tunlength)
# Verbinde Tunnel mit deren naheliegendsten Racks
errors_tunnels = an.connect_tunnels()
# Verknüpfe Sensoren mit zugehörigem UV # Verknüpfe Sensoren mit zugehörigem UV
an.map_distributors_to_sensors(mapping) an.map_distributors_to_sensors(mapping)
@@ -119,10 +125,22 @@ def prepare_data(rawdata:dict):
ltemp.append(Point(p)) ltemp.append(Point(p))
dracks[rname] = ltemp dracks[rname] = ltemp
mapping = rawdata["mappings"] mapping = rawdata["mapping"]
tunnels = rawdata["tunnel"]
dtunnels = dict()
for tname,lp in tunnels.items():
if tname == "length":
continue
ltemp = list()
for p in lp:
ltemp.append(Point(p))
dtunnels[tname] = ltemp
dtunlength = rawdata["tunnel"]["length"]
return (dracks, dsensors, dsubdists, mapping) return (dracks, dsensors, dsubdists, mapping, dtunnels, dtunlength)
if __name__ == "__main__": if __name__ == "__main__":
@@ -144,7 +162,7 @@ if __name__ == "__main__":
# Einlesen und Vorbereiten der Daten # Einlesen und Vorbereiten der Daten
rawdata = load_json(sensors_path) rawdata = load_json(sensors_path)
(racks, sensors, subdists, mapping) = prepare_data(rawdata) (racks, sensors, subdists, mapping, tunnels, tunlength) = prepare_data(rawdata)
config = configparser.ConfigParser(allow_no_value=True, delimiters=("=")) config = configparser.ConfigParser(allow_no_value=True, delimiters=("="))
config.optionxform = lambda option: option # preserve case for letters config.optionxform = lambda option: option # preserve case for letters
@@ -152,7 +170,7 @@ if __name__ == "__main__":
# virtuelle Anlage erstellen # virtuelle Anlage erstellen
cable_paths = create_plant(racks, sensors, subdists, mapping) cable_paths = create_plant(racks, sensors, subdists, mapping, tunnels, tunlength)
if args.console: if args.console:
print(to_json(cable_paths)) print(to_json(cable_paths))
print("failed sensor:") print("failed sensor:")