X-Git-Url: https://plomlompom.com/repos/?a=blobdiff_plain;f=plomrogue-server.py;h=fda9b29df5d5e42dfa9821f6f97b63ef885e4bcb;hb=662f4a0dcde66d10c5676fa53b45e84a26437855;hp=cae9d902fddcad86b0d0c5980c9e8622f9deb931;hpb=9cf1709315a5935ccbb329066189d09e227bfde8;p=plomrogue diff --git a/plomrogue-server.py b/plomrogue-server.py index cae9d90..fda9b29 100755 --- a/plomrogue-server.py +++ b/plomrogue-server.py @@ -6,6 +6,13 @@ import shutil import time +def strong_write(file, string): + """Apply write(string), flush(), and os.fsync() to file.""" + file.write(string) + file.flush() + os.fsync(file) + + def setup_server_io(): """Fill IO files DB with proper file( path)s. Write process IO test string. @@ -25,8 +32,7 @@ def setup_server_io(): io_db["teststring"] = str(os.getpid()) + " " + str(time.time()) os.makedirs(io_db["path_server"], exist_ok=True) io_db["file_out"] = open(io_db["path_out"], "w") - io_db["file_out"].write(io_db["teststring"] + "\n") - io_db["file_out"].flush() + strong_write(io_db["file_out"], io_db["teststring"] + "\n") if os.access(io_db["path_in"], os.F_OK): os.remove(io_db["path_in"]) io_db["file_in"] = open(io_db["path_in"], "w") @@ -54,10 +60,11 @@ def cleanup_server_io(): def obey(command, prefix, replay=False, do_record=False): """Call function from commands_db mapped to command's first token. - The command string is tokenized by shlex.split(comments=True). If replay is - set, a non-meta command from the commands_db merely triggers obey() on the - next command from the records file. If not, and do do_record is set, - non-meta commands are recorded via record(), and save_world() is called. + Tokenize command string with shlex.split(comments=True). If replay is set, + a non-meta command from the commands_db merely triggers obey() on the next + command from the records file. If not, non-meta commands set + io_db["worldstate_updateable"] to world_db["WORLD_EXISTS"], and, if + do_record is set, are recorded via record(), and save_world() is called. The prefix string is inserted into the server's input message between its beginning 'input ' & ':'. All activity is preceded by a server_test() call. """ @@ -69,9 +76,9 @@ def obey(command, prefix, replay=False, do_record=False): print("Can't tokenize command string: " + str(err) + ".") return if len(tokens) > 0 and tokens[0] in commands_db \ - and len(tokens) >= commands_db[tokens[0]][0] + 1: + and len(tokens) == commands_db[tokens[0]][0] + 1: if commands_db[tokens[0]][1]: - commands_db[tokens[0]][2]() + commands_db[tokens[0]][2](*tokens[1:]) elif replay: print("Due to replay mode, reading command as 'go on in record'.") line = io_db["file_record"].readline() @@ -86,7 +93,8 @@ def obey(command, prefix, replay=False, do_record=False): if do_record: record(command) save_world() - else: + io_db["worldstate_updateable"] = world_db["WORLD_ACTIVE"] + elif 0 != len(tokens): print("Invalid command/argument, or bad number of tokens.") @@ -99,9 +107,7 @@ def atomic_write(path, text, do_append=False): if os.access(path, os.F_OK): shutil.copyfile(path, path_tmp) file = open(path_tmp, mode) - file.write(text) - file.flush() - os.fsync(file.fileno()) + strong_write(file, text) file.close() if os.access(path, os.F_OK): os.remove(path) @@ -117,12 +123,67 @@ def record(command): def save_world(): - # Dummy for saving all commands to reconstruct current world state. - # Misses same optimizations as record() from the original record(). - atomic_write(io_db["path_save"], - "TURN " + str(world_db["TURN"]) + "\n" + - "SEED_RANDOMNESS " + str(world_db["SEED_RANDOMNESS"]) + "\n" + - "SEED_MAP " + str(world_db["SEED_MAP"]) + "\n") + """Save all commands needed to reconstruct current world state.""" + # TODO: Misses same optimizations as record() from the original record(). + + def quote(string): + string = string.replace("\u005C", '\u005C\u005C') + return '"' + string.replace('"', '\u005C"') + '"' + + def mapsetter(key): + def helper(id): + string = "" + if world_db["Things"][id][key]: + map = world_db["Things"][id][key] + length = world_db["MAP_LENGTH"] + for i in range(length): + line = map[i * length:(i * length) + length].decode() + string = string + key + " " + str(i) + " " + quote(line) \ + + "\n" + return string + return helper + + def memthing(id): + string = "" + for memthing in world_db["Things"][id]["T_MEMTHING"]: + string = string + "T_MEMTHING " + str(memthing[0]) + " " + \ + str(memthing[1]) + " " + str(memthing[2]) + "\n" + return string + + def helper(category, id_string, special_keys={}): + string = "" + for id in world_db[category]: + string = string + id_string + " " + str(id) + "\n" + for key in world_db[category][id]: + if not key in special_keys: + x = world_db[category][id][key] + argument = quote(x) if str == type(x) else str(x) + string = string + key + " " + argument + "\n" + elif special_keys[key]: + string = string + special_keys[key](id) + return string + + string = "" + for key in world_db: + if dict != type(world_db[key]) and key != "MAP": + string = string + key + " " + str(world_db[key]) + "\n" + string = string + helper("ThingActions", "TA_ID") + string = string + helper("ThingTypes", "TT_ID", {"TT_CORPSE_ID": False}) + for id in world_db["ThingTypes"]: + string = string + "TT_ID " + str(id) + "\n" + "TT_CORPSE_ID " + \ + str(world_db["ThingTypes"][id]["TT_CORPSE_ID"]) + "\n" + string = string + helper("Things", "T_ID", + {"T_CARRIES": False, "carried": False, + "T_MEMMAP": mapsetter("T_MEMMAP"), + "T_MEMTHING": memthing, "fovmap": False, + "T_MEMDEPTHMAP": mapsetter("T_MEMDEPTHMAP")}) + for id in world_db["Things"]: + if [] != world_db["Things"][id]["T_CARRIES"]: + string = string + "T_ID " + str(id) + "\n" + for carried_id in world_db["Things"][id]["T_CARRIES"]: + string = string + "T_CARRIES " + str(carried_id) + "\n" + string = string + "WORLD_ACTIVE " + str(world_db["WORLD_ACTIVE"]) + atomic_write(io_db["path_save"], string) def obey_lines_in_file(path, name, do_record=False): @@ -190,12 +251,75 @@ def read_command(): return command +def try_worldstate_update(): + """Write worldstate file if io_db["worldstate_updateable"] is set.""" + if io_db["worldstate_updateable"]: + + def draw_visible_Things(map, run): + for id in world_db["Things"]: + type = world_db["Things"][id]["T_TYPE"] + consumable = world_db["ThingTypes"][type]["TT_CONSUMABLE"] + alive = world_db["ThingTypes"][type]["TT_LIFEPOINTS"] + if (0 == run and not consumable and not alive) \ + or (1 == run and consumable and not alive) \ + or (2 == run and alive): + y = world_db["Things"][id]["T_POSY"] + x = world_db["Things"][id]["T_POSX"] + fovflag = world_db["Things"][0]["fovmap"][(y * length) + x] + if 'v' == chr(fovflag): + c = world_db["ThingTypes"][type]["TT_SYMBOL"] + map[(y * length) + x] = ord(c) + + def write_map(string, map): + for i in range(length): + line = map[i * length:(i * length) + length].decode() + string = string + line + "\n" + return string + + inventory = "" + if [] == world_db["Things"][0]["T_CARRIES"]: + inventory = "(none)\n" + else: + for id in world_db["Things"][0]["T_CARRIES"]: + type_id = world_db["Things"][id]["T_TYPE"] + name = world_db["ThingTypes"][type_id]["TT_NAME"] + inventory = inventory + name + "\n" + string = str(world_db["TURN"]) + "\n" + \ + str(world_db["Things"][0]["T_LIFEPOINTS"]) + "\n" + \ + str(world_db["Things"][0]["T_SATIATION"]) + "\n" + \ + inventory + "%\n" + \ + str(world_db["Things"][0]["T_POSY"]) + "\n" + \ + str(world_db["Things"][0]["T_POSX"]) + "\n" + \ + str(world_db["MAP_LENGTH"]) + "\n" + length = world_db["MAP_LENGTH"] + fov = bytearray(b' ' * (length ** 2)) + for pos in range(length ** 2): + if 'v' == chr(world_db["Things"][0]["fovmap"][pos]): + fov[pos] = world_db["MAP"][pos] + for i in range(3): + draw_visible_Things(fov, i) + string = write_map(string, fov) + mem = world_db["Things"][0]["T_MEMMAP"][:] + for i in range(2): + for memthing in world_db["Things"][0]["T_MEMTHING"]: + type = world_db["Things"][memthing[0]]["T_TYPE"] + consumable = world_db["ThingTypes"][type]["TT_CONSUMABLE"] + if (i == 0 and not consumable) or (i == 1 and consumable): + c = world_db["ThingTypes"][type]["TT_SYMBOL"] + mem[(memthing[1] * length) + memthing[2]] = ord(c) + string = write_map(string, mem) + atomic_write(io_db["path_worldstate"], string) + strong_write(io_db["file_out"], "WORLD_UPDATED\n") + io_db["worldstate_updateable"] = False + + def replay_game(): """Replay game from record file. Use opts.replay as breakpoint turn to which to replay automatically before switching to manual input by non-meta commands in server input file triggering further reads of record file. Ensure opts.replay is at least 1. + Run try_worldstate_update() before each interactive obey()/read_command(). """ if opts.replay < 1: opts.replay = 1 @@ -206,7 +330,7 @@ def replay_game(): io_db["file_record"] = open(io_db["path_record"], "r") io_db["file_record"].prefix = "record file line " io_db["file_record"].line_n = 1 - while world_db["turn"] < opts.replay: + while world_db["TURN"] < opts.replay: line = io_db["file_record"].readline() if "" == line: break @@ -214,6 +338,7 @@ def replay_game(): + str(io_db["file_record"].line_n)) io_db["file_record"].line_n = io_db["file_record"].line_n + 1 while True: + try_worldstate_update() obey(read_command(), "in file", replay=True) @@ -222,7 +347,8 @@ def play_game(): If no save file is found, a new world is generated from the commands in the world config plus a 'MAKE WORLD [current Unix timestamp]'. Record this - command and all that follow via the server input file. + command and all that follow via the server input file. Run + try_worldstate_update() before each interactive obey()/read_command(). """ if os.access(io_db["path_save"], os.F_OK): obey_lines_in_file(io_db["path_save"], "save") @@ -234,13 +360,189 @@ def play_game(): do_record=True) obey("MAKE_WORLD " + str(int(time.time())), "in file", do_record=True) while True: + try_worldstate_update() obey(read_command(), "in file", do_record=True) +def remake_map(): + # DUMMY map creator. + world_db["MAP"] = bytearray(b'.' * (world_db["MAP_LENGTH"] ** 2)) + + +def update_map_memory(t): + """Update t's T_MEMMAP with what's in its FOV now,age its T_MEMMEPTHMAP.""" + if not t["T_MEMMAP"]: + t["T_MEMMAP"] = bytearray(b' ' * (world_db["MAP_LENGTH"] ** 2)) + if not t["T_MEMDEPTHMAP"]: + t["T_MEMDEPTHMAP"] = bytearray(b' ' * (world_db["MAP_LENGTH"] ** 2)) + for pos in range(world_db["MAP_LENGTH"] ** 2): + if "v" == chr(t["fovmap"][pos]): + t["T_MEMDEPTHMAP"][pos] = ord("0") + if " " == chr(t["T_MEMMAP"][pos]): + t["T_MEMMAP"][pos] = world_db["MAP"][pos] + continue + # TODO: Aging of MEMDEPTHMAP. + for memthing in t["T_MEMTHING"]: + y = world_db["Things"][memthing[0]]["T_POSY"] + x = world_db["Things"][memthing[1]]["T_POSY"] + if "v" == chr(t["fovmap"][(y * world_db["MAP_LENGTH"]) + x]): + t["T_MEMTHING"].remove(memthing) + for id in world_db["Things"]: + type = world_db["Things"][id]["T_TYPE"] + if not world_db["ThingTypes"][type]["TT_LIFEPOINTS"]: + y = world_db["Things"][id]["T_POSY"] + x = world_db["Things"][id]["T_POSY"] + if "v" == chr(t["fovmap"][(y * world_db["MAP_LENGTH"]) + x]): + t["T_MEMTHING"].append((type, y, x)) + + +def set_world_inactive(): + """Set world_db["WORLD_ACTIVE"] to 0 and remove worldstate file.""" + server_test() + if os.access(io_db["path_worldstate"], os.F_OK): + os.remove(io_db["path_worldstate"]) + world_db["WORLD_ACTIVE"] = 0 + + +def integer_test(val_string, min, max): + """Return val_string if possible integer >= min and <= max, else None.""" + try: + val = int(val_string) + if val < min or val > max: + raise ValueError + return val + except ValueError: + print("Ignoring: Please use integer >= " + str(min) + " and <= " + + str(max) + ".") + return None + + +def setter(category, key, min, max): + """Build setter for world_db([category + "s"][id])[key] to >=min/<=max.""" + if category is None: + def f(val_string): + val = integer_test(val_string, min, max) + if None != val: + world_db[key] = val + else: + if category == "Thing": + id_store = command_tid + decorator = test_Thing_id + elif category == "ThingType": + id_store = command_ttid + decorator = test_ThingType_id + elif category == "ThingAction": + id_store = command_taid + decorator = test_ThingAction_id + + @decorator + def f(val_string): + val = integer_test(val_string, min, max) + if None != val: + world_db[category + "s"][id_store.id][key] = val + return f + + +def build_fov_map(t): + """Build Thing's FOV map.""" + t["fovmap"] = bytearray(b'v' * (world_db["MAP_LENGTH"] ** 2)) + # DUMMY so far. Just builds an all-visible map. + + +def turn_over(): + """Run game world and its inhabitants until new player input expected.""" + id = 0 + whilebreaker = False + while world_db["Things"][0]["T_LIFEPOINTS"]: + for id in [id for id in world_db["Things"] + if not world_db["Things"][id]["carried"] + if world_db["Things"][id]["T_LIFEPOINTS"]]: + Thing = world_db["Things"][id] + if Thing["T_LIFEPOINTS"]: + if not Thing["T_COMMAND"]: + update_map_memory(Thing) + if 0 == id: + whilebreaker = True + break + # DUMMY: ai(thing) + Thing["T_COMMAND"] = 1 + # DUMMY: try_healing + Thing["T_PROGRESS"] += 1 + taid = [a for a in world_db["ThingActions"] + if a == Thing["T_COMMAND"]][0] + ThingAction = world_db["ThingActions"][taid] + if Thing["T_PROGRESS"] == ThingAction["TA_EFFORT"]: + # run_thing_action(action["TA_NAME"]) + Thing["T_COMMAND"] = 0 + Thing["T_PROGRESS"] = 0 + # DUMMY: hunger + # DUMMY: thingproliferation + if whilebreaker: + break + world_db["TURN"] += 1 + + +def new_Thing(type): + """Return Thing of type T_TYPE, with fovmap if alive and world active.""" + thing = { + "T_LIFEPOINTS": world_db["ThingTypes"][type]["TT_LIFEPOINTS"], + "T_ARGUMENT": 0, + "T_PROGRESS": 0, + "T_SATIATION": 0, + "T_COMMAND": 0, + "T_TYPE": type, + "T_POSY": 0, + "T_POSX": 0, + "T_CARRIES": [], + "carried": False, + "T_MEMTHING": [], + "T_MEMMAP": False, + "T_MEMDEPTHMAP": False, + "fovmap": False + } + if world_db["WORLD_ACTIVE"] and thing["T_LIFEPOINTS"]: + build_fov_map(thing) + return thing + + +def id_setter(id, category, id_store=False, start_at_1=False): + """Set ID of object of category to manipulate ID unused? Create new one. + + The ID is stored as id_store.id (if id_store is set). If the integer of the + input is valid (if start_at_1, >= 0 and <= 255, else >= -32768 and <= + 32767), but <0 or (if start_at_1) <1, calculate new ID: lowest unused ID + >=0 or (if start_at_1) >= 1, and <= 255. None is always returned when no + new object is created, otherwise the new object's ID. + """ + min = 0 if start_at_1 else -32768 + max = 255 if start_at_1 else 32767 + if str == type(id): + id = integer_test(id, min, max) + if None != id: + if id in world_db[category]: + if id_store: + id_store.id = id + return None + else: + if (start_at_1 and 0 == id) \ + or ((not start_at_1) and (id < 0 or id > 255)): + id = -1 + while 1: + id = id + 1 + if id not in world_db[category]: + break + if id > 255: + print("Ignoring: " + "No unused ID available to add to ID list.") + return None + if id_store: + id_store.id = id + return id + + def command_ping(): """Send PONG line to server output file.""" - io_db["file_out"].write("PONG\n") - io_db["file_out"].flush() + strong_write(io_db["file_out"], "PONG\n") def command_quit(): @@ -248,55 +550,459 @@ def command_quit(): raise SystemExit("received QUIT command") -def command_turn(turn_string): - """Set turn to what's described in turn_string.""" - min = 0 - max = 65535 - try: - turn = int(turn_string) - if turn < min or turn > max: - raise ValueError - world_db["TURN"] = turn - except ValueError: - print("Ignoring: Please use integer >= " + str(min) + " and <= " + - "str(max)+ '.") +def command_thingshere(str_y, str_x): + """Write to out file list of Things known to player at coordinate y, x.""" + def write_thing_if_here(): + if y == world_db["Things"][id]["T_POSY"] \ + and x == world_db["Things"][id]["T_POSX"]: + type = world_db["Things"][id]["T_TYPE"] + name = world_db["ThingTypes"][type]["TT_NAME"] + strong_write(io_db["file_out"], name + "\n") + if world_db["WORLD_ACTIVE"]: + y = integer_test(str_y, 0, 255) + x = integer_test(str_x, 0, 255) + length = world_db["MAP_LENGTH"] + if None != y and None != x and y < length and x < length: + pos = (y * world_db["MAP_LENGTH"]) + x + strong_write(io_db["file_out"], "THINGS_HERE START\n") + if "v" == chr(world_db["Things"][0]["fovmap"][pos]): + for id in world_db["Things"]: + write_thing_if_here() + else: + for id in world_db["Things"]["T_MEMTHING"]: + write_thing_if_here() + strong_write(io_db["file_out"], "THINGS_HERE END\n") + else: + print("Ignoring: Invalid map coordinates.") + else: + print("Ignoring: Command only works on existing worlds.") + + +def play_commander(action, args=False): + """Setter for player's T_COMMAND and T_ARGUMENT, then calling turn_over(). + + T_ARGUMENT is set to direction char if action=="wait",or 8-bit int if args. + """ + + def set_command(): + id = [x for x in world_db["ThingActions"] + if world_db["ThingActions"][x]["TA_NAME"] == action][0] + world_db["Things"][0]["T_COMMAND"] = id + turn_over() + # TODO: call turn_over() + + def set_command_and_argument_int(str_arg): + val = integer_test(str_arg, 0, 255) + if None != val: + world_db["Things"][0]["T_ARGUMENT"] = val + set_command() + else: + print("Ignoring: Argument must be integer >= 0 <=255.") + + def set_command_and_argument_movestring(str_arg): + dirs = {"east": "d", "south-east": "c", "south-west": "x", + "west": "s", "north-west": "w", "north-east": "e"} + if str_arg in dirs: + world_db["Things"][0]["T_ARGUMENT"] = dirs[str_arg] + set_command() + else: + print("Ignoring: Argument must be valid direction string.") + + if action == "move": + return set_command_and_argument_movestring + elif args: + return set_command_and_argument_int + else: + return set_command + + +def command_seedmap(seed_string): + """Set world_db["SEED_MAP"] to int(seed_string), then (re-)make map.""" + setter(None, "SEED_MAP", 0, 4294967295)(seed_string) + remake_map() def command_makeworld(seed_string): - # Mere dummy so far. - min = 0 - max = 4294967295 - try: - seed = int(seed_string) - if seed < min or seed > max: - raise ValueError - world_db["SEED_RANDOMNESS"] = seed - world_db["SEED_MAP"] = seed - except ValueError: - print("Ignoring: Please use integer >= " + str(min) + " and <= " + - "str(max) '.") + """(Re-)build game world, i.e. map, things, to a new turn 1 from seed. + + Make seed world_db["SEED_RANDOMNESS"] and world_db["SEED_MAP"]. Do more + only with a "wait" ThingAction and world["PLAYER_TYPE"] matching ThingType + of TT_START_NUMBER > 0. Then, world_db["Things"] emptied, call remake_map() + and set world_db["WORLD_ACTIVE"], world_db["TURN"] to 1. Build new Things + according to ThingTypes' TT_START_NUMBERS, with Thing of ID 0 to ThingType + of ID = world["PLAYER_TYPE"]. Place Things randomly, and actors not on each + other. Init player's memory map. Write "NEW_WORLD" line to out file. + """ + setter(None, "SEED_RANDOMNESS", 0, 4294967295)(seed_string) + setter(None, "SEED_MAP", 0, 4294967295)(seed_string) + player_will_be_generated = False + playertype = world_db["PLAYER_TYPE"] + for ThingType in world_db["ThingTypes"]: + if playertype == ThingType: + if 0 < world_db["ThingTypes"][ThingType]["TT_START_NUMBER"]: + player_will_be_generated = True + break + if not player_will_be_generated: + print("Ignoring beyond SEED_MAP: " + + "No player type with start number >0 defined.") + return + wait_action = False + for ThingAction in world_db["ThingActions"]: + if "wait" == world_db["ThingActions"][ThingAction]["TA_NAME"]: + wait_action = True + if not wait_action: + print("Ignoring beyond SEED_MAP: " + + "No thing action with name 'wait' defined.") + return + world_db["Things"] = {} + remake_map() + world_db["WORLD_ACTIVE"] = 1 + world_db["TURN"] = 1 + for i in range(world_db["ThingTypes"][playertype]["TT_START_NUMBER"]): + id = id_setter(-1, "Things") + world_db["Things"][id] = new_Thing(playertype) + # TODO: Positioning. + update_map_memory(world_db["Things"][0]) + for type in world_db["ThingTypes"]: + for i in range(world_db["ThingTypes"][type]["TT_START_NUMBER"]): + if type != playertype: + id = id_setter(-1, "Things") + world_db["Things"][id] = new_Thing(type) + # TODO: Positioning. + strong_write(io_db["file_out"], "NEW_WORLD\n") + + +def command_maplength(maplength_string): + """Redefine map length. Invalidate map, therefore lose all things on it.""" + set_world_inactive() + world_db["Things"] = {} + setter(None, "MAP_LENGTH", 1, 256)(maplength_string) + + +def command_worldactive(worldactive_string): + """Toggle world_db["WORLD_ACTIVE"] if possible. + + An active world can always be set inactive. An inactive world can only be + set active with a "wait" ThingAction, and a player Thing (of ID 0). On + activation, rebuild all Things' FOVs, and the player's map memory. + """ + # In original version, map existence was also tested (unnecessarily?). + val = integer_test(worldactive_string, 0, 1) + if val: + if 0 != world_db["WORLD_ACTIVE"]: + if 0 == val: + set_world_inactive() + else: + print("World already active.") + elif 0 == world_db["WORLD_ACTIVE"]: + wait_exists = False + for ThingAction in world_db["ThingActions"]: + if "wait" == world_db["ThingActions"][ThingAction]["TA_NAME"]: + wait_exists = True + break + player_exists = False + for Thing in world_db["Things"]: + if 0 == Thing: + player_exists = True + break + if wait_exists and player_exists: + for id in world_db["Things"]: + if world_db["Things"][id]["T_LIFEPOINTS"]: + build_fov_map(world_db["Things"][id]) + if 0 == id: + update_map_memory(world_db["Things"][id]) + world_db["WORLD_ACTIVE"] = 1 + + +def test_for_id_maker(object, category): + """Return decorator testing for object having "id" attribute.""" + def decorator(f): + def helper(*args): + if hasattr(object, "id"): + f(*args) + else: + print("Ignoring: No " + category + + " defined to manipulate yet.") + return helper + return decorator + + +def command_tid(id_string): + """Set ID of Thing to manipulate. ID unused? Create new one. + + Default new Thing's type to the first available ThingType, others: zero. + """ + id = id_setter(id_string, "Things", command_tid) + if None != id: + if world_db["ThingTypes"] == {}: + print("Ignoring: No ThingType to settle new Thing in.") + return + type = list(world_db["ThingTypes"].keys())[0] + world_db["Things"][id] = new_Thing(type) + + +test_Thing_id = test_for_id_maker(command_tid, "Thing") + + +@test_Thing_id +def command_tcommand(str_int): + """Set T_COMMAND of selected Thing.""" + val = integer_test(str_int, 0, 255) + if None != val: + if 0 == val or val in world_db["ThingActions"]: + world_db["Things"][command_tid.id]["T_COMMAND"] = val + else: + print("Ignoring: ThingAction ID belongs to no known ThingAction.") + + +@test_Thing_id +def command_ttype(str_int): + """Set T_TYPE of selected Thing.""" + val = integer_test(str_int, 0, 255) + if None != val: + if val in world_db["ThingTypes"]: + world_db["Things"][command_tid.id]["T_TYPE"] = val + else: + print("Ignoring: ThingType ID belongs to no known ThingType.") + + +@test_Thing_id +def command_tcarries(str_int): + """Append int(str_int) to T_CARRIES of selected Thing. + + The ID int(str_int) must not be of the selected Thing, and must belong to a + Thing with unset "carried" flag. Its "carried" flag will be set on owning. + """ + val = integer_test(str_int, 0, 255) + if None != val: + if val == command_tid.id: + print("Ignoring: Thing cannot carry itself.") + elif val in world_db["Things"] \ + and not world_db["Things"][val]["carried"]: + world_db["Things"][command_tid.id]["T_CARRIES"].append(val) + world_db["Things"][val]["carried"] = True + else: + print("Ignoring: Thing not available for carrying.") + # Note that the whole carrying structure is different from the C version: + # Carried-ness is marked by a "carried" flag, not by Things containing + # Things internally. + + +@test_Thing_id +def command_tmemthing(str_t, str_y, str_x): + """Add (int(str_t), int(str_y), int(str_x)) to selected Thing's T_MEMTHING. + + The type must fit to an existing ThingType, and the position into the map. + """ + type = integer_test(str_t, 0, 255) + posy = integer_test(str_y, 0, 255) + posx = integer_test(str_x, 0, 255) + if None != type and None != posy and None != posx: + if type not in world_db["ThingTypes"] \ + or posy >= world_db["MAP_LENGTH"] or posx >= world_db["MAP_LENGTH"]: + print("Ignoring: Illegal value for thing type or position.") + else: + memthing = (type, posy, posx) + world_db["Things"][command_tid.id]["T_MEMTHING"].append(memthing) + + +def setter_map(maptype): + """Set selected Thing's map of maptype's int(str_int)-th line to mapline. + + If Thing has no map of maptype yet, initialize it with ' ' bytes first. + """ + @test_Thing_id + def helper(str_int, mapline): + val = integer_test(str_int, 0, 255) + if None != val: + if val >= world_db["MAP_LENGTH"]: + print("Illegal value for map line number.") + elif len(mapline) != world_db["MAP_LENGTH"]: + print("Map line length is unequal map width.") + else: + length = world_db["MAP_LENGTH"] + map = None + if not world_db["Things"][command_tid.id][maptype]: + map = bytearray(b' ' * (length ** 2)) + else: + map = world_db["Things"][command_tid.id][maptype] + map[val * length:(val * length) + length] = mapline.encode() + world_db["Things"][command_tid.id][maptype] = map + return helper + + +def setter_tpos(axis): + """Generate setter for T_POSX or T_POSY of selected Thing. + + If world is active, rebuilds animate things' fovmap, player's memory map. + """ + @test_Thing_id + def helper(str_int): + val = integer_test(str_int, 0, 255) + if None != val: + if val < world_db["MAP_LENGTH"]: + world_db["Things"][command_tid.id]["T_POS" + axis] = val + if world_db["WORLD_ACTIVE"] \ + and world_db["Things"][command_tid.id]["T_LIFEPOINTS"]: + build_fov_map(world_db["Things"][command_tid.id]) + if 0 == command_tid.id: + update_map_memory(world_db["Things"][command_tid.id]) + else: + print("Ignoring: Position is outside of map.") + return helper + + +def command_ttid(id_string): + """Set ID of ThingType to manipulate. ID unused? Create new one. + + Default new ThingType's TT_SYMBOL to "?", TT_CORPSE_ID to self, others: 0. + """ + id = id_setter(id_string, "ThingTypes", command_ttid) + if None != id: + world_db["ThingTypes"][id] = { + "TT_NAME": "(none)", + "TT_CONSUMABLE": 0, + "TT_LIFEPOINTS": 0, + "TT_PROLIFERATE": 0, + "TT_START_NUMBER": 0, + "TT_SYMBOL": "?", + "TT_CORPSE_ID": id + } + + +test_ThingType_id = test_for_id_maker(command_ttid, "ThingType") + + +@test_ThingType_id +def command_ttname(name): + """Set TT_NAME of selected ThingType.""" + world_db["ThingTypes"][command_ttid.id]["TT_NAME"] = name + + +@test_ThingType_id +def command_ttsymbol(char): + """Set TT_SYMBOL of selected ThingType. """ + if 1 == len(char): + world_db["ThingTypes"][command_ttid.id]["TT_SYMBOL"] = char + else: + print("Ignoring: Argument must be single character.") + + +@test_ThingType_id +def command_ttcorpseid(str_int): + """Set TT_CORPSE_ID of selected ThingType.""" + val = integer_test(str_int, 0, 255) + if None != val: + if val in world_db["ThingTypes"]: + world_db["ThingTypes"][command_ttid.id]["TT_CORPSE_ID"] = val + else: + print("Ignoring: Corpse ID belongs to no known ThignType.") + + +def command_taid(id_string): + """Set ID of ThingAction to manipulate. ID unused? Create new one. + + Default new ThingAction's TA_EFFORT to 1, its TA_NAME to "wait". + """ + id = id_setter(id_string, "ThingActions", command_taid, True) + if None != id: + world_db["ThingActions"][id] = { + "TA_EFFORT": 1, + "TA_NAME": "wait" + } + + +test_ThingAction_id = test_for_id_maker(command_taid, "ThingAction") + + +@test_ThingAction_id +def command_taname(name): + """Set TA_NAME of selected ThingAction. + + The name must match a valid thing action function. If after the name + setting no ThingAction with name "wait" remains, call set_world_inactive(). + """ + if name == "wait" or name == "move" or name == "use" or name == "drop" \ + or name == "pick_up": + world_db["ThingActions"][command_taid.id]["TA_NAME"] = name + if 1 == world_db["WORLD_ACTIVE"]: + wait_defined = False + for id in world_db["ThingActions"]: + if "wait" == world_db["ThingActions"][id]["TA_NAME"]: + wait_defined = True + break + if not wait_defined: + set_world_inactive() + else: + print("Ignoring: Invalid action name.") + # In contrast to the original,naming won't map a function to a ThingAction. """Commands database. -Map command start tokens to ([0]) minimum number of expected command arguments, -([1]) the command's meta-ness (i.e. is it to be written to the record file, is -it to be ignored in replay mode if read from server input file), and ([2]) a -function to be called on it. +Map command start tokens to ([0]) number of expected command arguments, ([1]) +the command's meta-ness (i.e. is it to be written to the record file, is it to +be ignored in replay mode if read from server input file), and ([2]) a function +to be called on it. """ commands_db = { "QUIT": (0, True, command_quit), "PING": (0, True, command_ping), + "THINGS_HERE": (2, True, command_thingshere), "MAKE_WORLD": (1, False, command_makeworld), - "TURN": (1, False, command_turn) + "SEED_MAP": (1, False, command_seedmap), + "SEED_RANDOMNESS": (1, False, setter(None, "SEED_RANDOMNESS", + 0, 4294967295)), + "TURN": (1, False, setter(None, "TURN", 0, 65535)), + "PLAYER_TYPE": (1, False, setter(None, "PLAYER_TYPE", 0, 255)), + "MAP_LENGTH": (1, False, command_maplength), + "WORLD_ACTIVE": (1, False, command_worldactive), + "TA_ID": (1, False, command_taid), + "TA_EFFORT": (1, False, setter("ThingAction", "TA_EFFORT", 0, 255)), + "TA_NAME": (1, False, command_taname), + "TT_ID": (1, False, command_ttid), + "TT_NAME": (1, False, command_ttname), + "TT_SYMBOL": (1, False, command_ttsymbol), + "TT_CORPSE_ID": (1, False, command_ttcorpseid), + "TT_CONSUMABLE": (1, False, setter("ThingType", "TT_CONSUMABLE", + 0, 65535)), + "TT_START_NUMBER": (1, False, setter("ThingType", "TT_START_NUMBER", + 0, 255)), + "TT_PROLIFERATE": (1, False, setter("ThingType", "TT_PROLIFERATE", + 0, 255)), + "TT_LIFEPOINTS": (1, False, setter("ThingType", "TT_LIFEPOINTS", 0, 255)), + "T_ID": (1, False, command_tid), + "T_ARGUMENT": (1, False, setter("Thing", "T_ARGUMENT", 0, 255)), + "T_PROGRESS": (1, False, setter("Thing", "T_PROGRESS", 0, 255)), + "T_LIFEPOINTS": (1, False, setter("Thing", "T_LIFEPOINTS", 0, 255)), + "T_SATIATION": (1, False, setter("Thing", "T_SATIATION", -32768, 32767)), + "T_COMMAND": (1, False, command_tcommand), + "T_TYPE": (1, False, command_ttype), + "T_CARRIES": (1, False, command_tcarries), + "T_MEMMAP": (2, False, setter_map("T_MEMMAP")), + "T_MEMDEPTHMAP": (2, False, setter_map("T_MEMDEPTHMAP")), + "T_MEMTHING": (3, False, command_tmemthing), + "T_POSY": (1, False, setter_tpos("Y")), + "T_POSX": (1, False, setter_tpos("X")), + "wait": (0, False, play_commander("wait")), + "move": (1, False, play_commander("move")), + "pick_up": (0, False, play_commander("pick_up")), + "drop": (1, False, play_commander("drop", True)), + "use": (1, False, play_commander("use", True)), } -"""World state database,""" +"""World state database. With sane default values.""" world_db = { "TURN": 0, "SEED_MAP": 0, - "SEED_RANDOMNESS": 0 + "SEED_RANDOMNESS": 0, + "PLAYER_TYPE": 0, + "MAP_LENGTH": 64, + "WORLD_ACTIVE": 0, + "ThingActions": {}, + "ThingTypes": {}, + "Things": {} } @@ -310,14 +1016,14 @@ io_db = { "path_out": "server/out", "path_worldstate": "server/worldstate", "tmp_suffix": "_tmp", - "kicked_by_rival": False + "kicked_by_rival": False, + "worldstate_updateable": False } try: opts = parse_command_line_arguments() setup_server_io() - # print("DUMMY: Run game.") if None != opts.replay: replay_game() else: @@ -329,4 +1035,3 @@ except: raise finally: cleanup_server_io() - # print("DUMMY: (Clean up C heap.)")