#!/usr/bin/env python3 # SPDX-FileCopyrightText: Eric S. Raymond # SPDX-License-Identifier: BSD-2-Clause """\ usage: make-graph.py [-a] -d] [-m] [-s] Make a DOT graph of Colossal Cave. -a = emit graph of entire dungeon -d = emit graph of maze all different -f = emit graph of forest locations -m = emit graph of maze all alike -s = emit graph of non-forest surface locations -v = include internal symbols in room labels """ # pylint: disable=consider-using-f-string,line-too-long,invalid-name,missing-function-docstring,multiple-imports,redefined-outer-name import sys, getopt, yaml def allalike(loc): "Select out loci related to the Maze All Alike" return location_lookup[loc]["conditions"].get("ALLALIKE") def alldifferent(loc): "Select out loci related to the Maze All Alike" return location_lookup[loc]["conditions"].get("ALLDIFFERENT") def surface(loc): "Select out surface locations" return location_lookup[loc]["conditions"].get("ABOVE") def forest(loc): return location_lookup[loc]["conditions"].get("FOREST") def abbreviate(d): m = {"NORTH":"N", "EAST":"E", "SOUTH":"S", "WEST":"W", "UPWAR":"U", "DOWN":"D"} return m.get(d, d) def roomlabel(loc): "Generate a room label from the description, if possible" loc_descriptions = location_lookup[loc]['description'] description = "" if debug: description = loc[4:] longd = loc_descriptions["long"] short = loc_descriptions["maptag"] or loc_descriptions["short"] if short is None and longd is not None and len(longd) < 20: short = loc_descriptions["long"] if short is not None: if short.startswith("You're "): short = short[7:] if short.startswith("You are "): short = short[8 :] if short.startswith("in ") or short.startswith("at ") or short.startswith("on "): short = short[3:] if short.startswith("the "): short = short[4:] if short[:3] in {"n/s", "e/w"}: short = short[:3].upper() + short[3:] elif short[:2] in {"ne", "sw", "se", "nw"}: short = short[:2].upper() + short[2:] else: short = short[0].upper() + short[1:] if debug: description += "\\n" description += short if loc in startlocs: description += "\\n(" + ",".join(startlocs[loc]).lower() + ")" return description # A forwarder is a location that you can't actually stop in - when you go there # it ships some message (which is the point) then shifts you to a next location. # A forwarder has a zero-length array of notion verbs in its travel section. # # Here is an example forwarder declaration: # # - LOC_GRUESOME: # description: # long: 'There is now one more gruesome aspect to the spectacular vista.' # short: !!null # maptag: !!null # conditions: {DEEP: true} # travel: [ # {verbs: [], action: [goto, LOC_NOWHERE]}, # ] def is_forwarder(loc): "Is a location a forwarder?" travel = location_lookup[loc]['travel'] return len(travel) == 1 and len(travel[0]['verbs']) == 0 def forward(loc): "Chase a location through forwarding links." while is_forwarder(loc): loc = location_lookup[loc]["travel"][0]["action"][1] return loc def reveal(objname): "Should this object be revealed when mapping?" if "OBJ_" in objname: return False if objname == "VEND": return True obj = object_lookup[objname] return not obj.get("immovable") if __name__ == "__main__": with open("adventure.yaml", "r", encoding='ascii', errors='surrogateescape') as f: db = yaml.safe_load(f) location_lookup = dict(db["locations"]) object_lookup = dict(db["objects"]) try: (options, arguments) = getopt.getopt(sys.argv[1:], "adfmsv") except getopt.GetoptError as e: print(e) sys.exit(1) subset = allalike debug = False for (switch, val) in options: if switch == '-a': subset = lambda loc: True elif switch == '-d': subset = alldifferent elif switch == '-f': subset = forest elif switch == '-m': subset = allalike elif switch == '-s': subset = surface elif switch == '-v': debug = True else: sys.stderr.write(__doc__) raise SystemExit(1) startlocs = {} for obj in db["objects"]: objname = obj[0] location = obj[1].get("locations") if location != "LOC_NOWHERE" and reveal(objname): if location in startlocs: startlocs[location].append(objname) else: startlocs[location] = [objname] # Compute reachability, using forwards. # Dictionary key is (from, to) iff its a valid link, # value is corresponding motion verbs. links = {} nodes = [] for (loc, attrs) in db["locations"]: nodes.append(loc) travel = attrs["travel"] if len(travel) > 0: for dest in travel: verbs = [abbreviate(x) for x in dest["verbs"]] if len(verbs) == 0: continue action = dest["action"] if action[0] == "goto": dest = forward(action[1]) if not (subset(loc) or subset(dest)): continue links[(loc, dest)] = verbs neighbors = set() for loc in nodes: for (f, t) in links: if f == 'LOC_NOWHERE' or t == 'LOC_NOWHERE': continue if (f == loc and subset(t)) or (t == loc and subset(f)): if loc not in neighbors: neighbors.add(loc) print("digraph G {") for loc in nodes: if not is_forwarder(loc): node_label = roomlabel(loc) if subset(loc): print(' %s [shape=box,label="%s"]' % (loc[4:], node_label)) elif loc in neighbors: print(' %s [label="%s"]' % (loc[4:], node_label)) # Draw arcs for (f, t) in links: arc = "%s -> %s" % (f[4:], t[4:]) label=",".join(links[(f, t)]).lower() if len(label) > 0: arc += ' [label="%s"]' % label print(" " + arc) print("}") # end