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evennia/src/commands/objmanip.py
Griatch 66095a0b16 Implemented locks. 
The main command to use is @lock, which accept three types of locks at the moment, and three types of keys:
 Locks: DefaultLock, UseLock, EnterLock
 Keys: ObjectIDs, Groups, Permissions
This offers the most useful functionality - stopping people from picking up things, blocking exits and stopping
anyone from using an object.
If the attributes lock_msg, use_lock_msg and enter_lock_msg are defined on the locked object, these will be used
as error messages instead of a standard one (so "the door is locked" instead of "you cannot traverse that exit").

Behind the scenes, there is a new module, src/locks.py that defines Keys and Locks. A Locks object is a collection
of Lock types. This is stored in the LOCKS attribute on objects. Each Lock contains a set of Keys that might be
of mixed type and which the player must match in order to pass the lock.
/Griatch
2009-10-05 20:04:15 +00:00

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"""
These commands typically are to do with building or modifying Objects.
"""
from django.contrib.auth.models import Permission, Group
from src.objects.models import Object, Attribute
# We'll import this as the full path to avoid local variable clashes.
import src.flags
from src import locks
from src import ansi
from src.cmdtable import GLOBAL_CMD_TABLE
from src import defines_global
from src import logger
def cmd_teleport(command):
"""
Teleports an object somewhere.
"""
source_object = command.source_object
if not command.command_argument:
source_object.emit_to("Usage: @teleport[/switches] [<obj> =] <target_loc>|home")
return
eq_args = command.command_argument.split('=', 1)
# The quiet switch suppresses leaving and arrival messages.
if "quiet" in command.command_switches:
tel_quietly = True
else:
tel_quietly = False
# If we have more than one entry in our '=' delimited argument list,
# then we're doing a @tel <victim>=<location>. If not, we're doing
# a direct teleport, @tel <destination>.
if len(eq_args) > 1:
# Equal sign teleport.
victim = source_object.search_for_object(eq_args[0])
# Use search_for_object to handle duplicate/nonexistant results.
if not victim:
return
destination = source_object.search_for_object(eq_args[1])
# Use search_for_object to handle duplicate/nonexistant results.
if not destination:
return
if victim.is_room():
source_object.emit_to("You can't teleport a room.")
return
if victim == destination:
source_object.emit_to("You can't teleport an object inside of itself!")
return
source_object.emit_to("Teleported.")
victim.move_to(destination, quiet=tel_quietly)
else:
# Direct teleport (no equal sign)
target_obj = source_object.search_for_object(command.command_argument)
# Use search_for_object to handle duplicate/nonexistant results.
if not target_obj:
return
if target_obj == source_object:
source_object.emit_to("You can't teleport inside yourself!")
return
source_object.emit_to("Teleported.")
source_object.move_to(target_obj, quiet=tel_quietly)
GLOBAL_CMD_TABLE.add_command("@teleport", cmd_teleport,
priv_tuple=("objects.teleport",))
def cmd_alias(command):
"""
Assigns an alias to a player object for ease of paging, etc.
"""
source_object = command.source_object
if not command.command_argument:
source_object.emit_to("Usage: @alias <player = <alias>")
return
eq_args = command.command_argument.split('=', 1)
if len(eq_args) < 2:
source_object.emit_to("Alias missing.")
return
target_string = eq_args[0]
new_alias = eq_args[1]
# An Object instance for the victim.
target = source_object.search_for_object(target_string)
# Use search_for_object to handle duplicate/nonexistant results.
if not target:
source_object.emit_to("I can't find that player.")
return
if not new_alias.isalnum():
source_object.emit_to("Aliases must be alphanumeric.")
return
old_alias = target.get_attribute_value('ALIAS', default='')
#print "ALIAS", old_alias
duplicates = Object.objects.player_alias_search(source_object, new_alias)
if not duplicates or old_alias.lower() == new_alias.lower():
# Either no duplicates or just changing the case of existing alias.
if source_object.controls_other(target):
target.set_attribute('ALIAS', new_alias)
source_object.emit_to("Alias '%s' set for %s." % (new_alias,
target.get_name()))
else:
source_object.emit_to("You do not have access to set an alias for %s." %
(target.get_name(),))
else:
# Duplicates were found.
source_object.emit_to("Alias '%s' is already in use." % (new_alias,))
return
GLOBAL_CMD_TABLE.add_command("@alias", cmd_alias)
def cmd_wipe(command):
"""
Wipes an object's attributes, or optionally only those matching a search
string.
"""
source_object = command.source_object
attr_search = False
if not command.command_argument:
source_object.emit_to("Usage: @wipe <object>[/attribute-wildcard]")
return
# Look for a slash in the input, indicating an attribute wipe.
attr_split = command.command_argument.split("/", 1)
# If the splitting by the "/" character returns a list with more than 1
# entry, it's an attribute match.
if len(attr_split) > 1:
attr_search = True
# Strip the object search string from the input with the
# object/attribute pair.
searchstr = attr_split[1]
else:
searchstr = command.command_argument
target_obj = source_object.search_for_object(attr_split[0])
# Use search_for_object to handle duplicate/nonexistant results.
if not target_obj:
return
if attr_search:
# User has passed an attribute wild-card string. Search for name matches
# and wipe.
attr_matches = target_obj.attribute_namesearch(searchstr,
exclude_noset=True)
if attr_matches:
for attr in attr_matches:
target_obj.clear_attribute(attr.get_name())
source_object.emit_to("%s - %d attributes wiped." % (
target_obj.get_name(),
len(attr_matches)))
else:
source_object.emit_to("No matching attributes found.")
else:
# User didn't specify a wild-card string, wipe entire object.
attr_matches = target_obj.attribute_namesearch("*", exclude_noset=True)
for attr in attr_matches:
target_obj.clear_attribute(attr.get_name())
source_object.emit_to("%s - %d attributes wiped." % (target_obj.get_name(),
len(attr_matches)))
GLOBAL_CMD_TABLE.add_command("@wipe", cmd_wipe,priv_tuple=("objects.wipe",))
def cmd_set(command):
"""
Sets flags or attributes on objects.
"""
source_object = command.source_object
args = command.command_argument
if not args:
source_object.emit_to("Usage: @set obj=attr:value or @set obj=flag. Use empty value or !flag to clear.")
return
# Break into target and value by the equal sign.
eq_args = args.split('=')
if len(eq_args) < 2 or not eq_args[1]:
# Equal signs are not optional for @set.
source_object.emit_to("Set what?")
return
target_name = eq_args[0].strip()
target = source_object.search_for_object(eq_args[0])
# Use search_for_object to handle duplicate/nonexistant results.
if not target:
return
#check permission.
if not source_object.controls_other(target):
source_object.emit_to(defines_global.NOCONTROL_MSG)
return
attrib_args = eq_args[1].split(':', 1)
if len(attrib_args) > 1:
# We're dealing with an attribute/value pair.
attrib_name = attrib_args[0].strip()
splicenum = eq_args[1].find(':') + 1
attrib_value = (eq_args[1][splicenum:]).strip()
if not attrib_name:
source_object.emit_to("Cannot set an empty attribute name.")
return
if not Attribute.objects.is_modifiable_attrib(attrib_name):
# In global_defines.py, see NOSET_ATTRIBS for protected attribute names.
source_object.emit_to("You can't modify that attribute.")
return
if attrib_value:
# An attribute value was specified, create or set the attribute.
target.set_attribute(attrib_name, attrib_value)
s = "Attribute %s=%s set to '%s'" % (target_name, attrib_name, attrib_value)
else:
# No value was given, this means we delete the attribute.
ok = target.clear_attribute(attrib_name)
if ok:
s = 'Attribute %s=%s deleted.' % (target_name,attrib_name)
else:
s = "Attribute %s=%s not found, so not cleared. \nIf it is a flag, use '@set %s:!%s' to clear it." % \
(target_name, attrib_name, target_name, attrib_name)
source_object.emit_to(s)
else:
# Flag manipulation form.
flag_list = eq_args[1].split()
s = ""
for flag in flag_list:
flag = flag.upper().strip()
if flag[0] == '!':
# We're un-setting the flag.
flag = flag[1:]
if not src.flags.is_modifiable_flag(flag):
s += "\nYou can't set/unset the flag %s." % flag
continue
if not target.has_flag(flag):
s += "\nFlag %s=%s already cleared." % (target_name,flag)
continue
s += "\nFlag %s=%s cleared." % (target_name, flag.upper())
target.unset_flag(flag)
else:
# We're setting the flag.
if not src.flags.is_modifiable_flag(flag):
s += "\nYou can't set/unset the flag %s." % flag
continue
if target.has_flag(flag):
s += "\nFlag %s=%s already set." % (target_name, flag)
continue
else:
s += '\nFlag %s=%s set.' % (target_name, flag.upper())
target.set_flag(flag, True)
source_object.emit_to(s[1:])
GLOBAL_CMD_TABLE.add_command("@set", cmd_set, priv_tuple=("objects.modify_attributes",))
def cmd_cpattr(command):
"""
copy an attribute to another object
@cpattr <obj>/<attr> = <obj1>/<attr1> [,<obj2>/<attr2>,<obj3>/<attr3>,...]
@cpattr <obj>/<attr> = <obj1> [,<obj2>,<obj3>,...]
@cpattr <attr> = <obj1>/<attr1> [,<obj2>/<attr2>,<obj3>/<attr3>,...]
@cpattr <attr> = <obj1>[,<obj2>,<obj3>,...]
"""
source_object = command.source_object
args = command.command_argument
if not args or not '=' in args:
s = """Usage:
@cpattr <obj>/<attr> = <obj1>/<attr1> [,<obj2>/<attr2>,<obj3>/<attr3>,...]
@cpattr <obj>/<attr> = <obj1> [,<obj2>,<obj3>,...]
@cpattr <attr> = <obj1>/<attr1> [,<obj2>/<attr2>,<obj3>/<attr3>,...]
@cpattr <attr> = <obj1>[,<obj2>,<obj3>,...]"""
source_object.emit_to(s)
return
arg1, arg2 = args.split("=")
#parsing arg1 (left of =)
if not arg1:
source_object.emit_to("You must specify <obj> or <obj>/<attr>.")
return
if '/' in arg1:
from_objname, from_attr = arg1.split('/',1)
from_attr = from_attr.strip()
from_obj = source_object.search_for_object(from_objname.strip())
else:
from_attr = arg1.strip()
from_obj = source_object
from_objname = from_obj.get_name(show_dbref=False)
if not from_obj:
source_object.emit_to("Source object not found.")
return
from_value = from_obj.get_attribute_value(from_attr)
if from_value==None:
source_object.emit_to("Attribute %s=%s not found." % \
(from_objname,from_attr))
return
#parsing arg2 (right of =)
if not arg2:
source_object.emit_to("You must specify target objects and attributes.")
return
pairlist = arg2.split(',')
pairdict = {}
for pair in pairlist:
if '/' in pair:
objname, attrname = pair.split("/",1)
pairdict[objname.strip()] = attrname.strip()
else:
pairdict[pair.strip()] = None
#copy to all targets
s = "Copying %s=%s (with value %s) ..." % (from_objname,
from_attr,from_value)
for to_objname, to_attr in pairdict.items():
to_obj = source_object.search_for_object(to_objname.strip())
if not to_obj:
s += "\nCould not find object '%s'" % to_objname
continue
if not source_object.controls_other(to_obj):
s += "\n You cannot modify object '%s'" % to_objname
return
if to_attr == None:
to_attr = from_attr
if not to_attr:
s += "\nCan not copy to %s= (empty attribute name)" % to_objname
continue
if not Attribute.objects.is_modifiable_attrib(to_attr):
s += "\nCan not copy to %s=%s (cannot be modified)" % (to_objname,
to_attr)
continue
to_obj.set_attribute(to_attr, from_value)
s += "\nCopied %s=%s -> %s=%s" % (from_objname,from_attr,
to_objname, to_attr)
source_object.emit_to(s)
GLOBAL_CMD_TABLE.add_command("@cpattr", cmd_cpattr,
priv_tuple=("objects.modify_attributes",))
def cmd_mvattr(command):
"""
@mvattr <object>=<old>,<new>[,<copy1>[, <copy2 ...]]
Move attributes around on an object
"""
source_object = command.source_object
arg = command.command_argument
#split arguments
if not arg or not '=' in arg:
source_object.emit_to("Usage: @mvattr <object>=<old>,<new>[,<copy1>[, copy2 ...]]")
return
objname,attrs = arg.split('=')
attrs = attrs.split(",")
oldattr = attrs[0].strip()
if len(attrs)<2:
source_object.emit_to("You must give both the old- and new name of the attribute.")
return
#find target object
target_obj = source_object.search_for_object(objname)
if not target_obj:
source_object.emit_to("Object '%s' not found." % objname)
return
#check so old attribute exists.
value = target_obj.get_attribute_value(oldattr)
if value == None:
source_object.emit_to("Attribute '%s' does not exist." % oldattr)
return
#check permission to modify object
if not source_object.controls_other(target_obj):
source_object.emit_to(defines_global.NOCONTROL_MSG)
return
#we should now be good to go. Start the copying.
s = "Moving %s=%s (with value %s) ..." % (objname,oldattr,value)
delete_original = True
for attr in attrs[1:]:
attr = attr.strip()
if not attr:
s += "\nCan not copy to empty attribute name."
continue
if not Attribute.objects.is_modifiable_attrib(attr):
s += "\nDid not copy to '%s' (cannot be modified)" % attr
continue
if attr == oldattr:
s += "\nKept '%s' (moved into itself)" % attr
delete_original = False
continue
target_obj.set_attribute(attr, value)
s += "\nCopied %s -> %s" % (oldattr,attr)
#if we can, delete the old attribute
if not Attribute.objects.is_modifiable_attrib(oldattr):
s += "\nCould not remove old attribute '%s' (cannot be modified)" % oldattr
elif delete_original:
target_obj.clear_attribute(oldattr)
s += "\nRemoved '%s'." % (oldattr)
source_object.emit_to(s)
GLOBAL_CMD_TABLE.add_command("@mvattr", cmd_mvattr,
priv_tuple=("objects.modify_attributes",))
def cmd_find(command):
"""
Searches for an object of a particular name.
"""
source_object = command.source_object
can_find = source_object.has_perm("genperms.builder")
if not command.command_argument:
source_object.emit_to("Usage: @find <name>")
return
searchstring = command.command_argument
results = Object.objects.global_object_name_search(searchstring)
if len(results) > 0:
source_object.emit_to("Name matches for: %s" % (searchstring,))
s = ""
for result in results:
s += " %s\n\r" % (result.get_name(fullname=True),)
s += "%d matches returned." % (len(results),)
source_object.emit_to(s)
else:
source_object.emit_to("No name matches found for: %s" % (searchstring,))
GLOBAL_CMD_TABLE.add_command("@find", cmd_find,
priv_tuple=("objects.info",))
def cmd_create(command):
"""
@create
Usage: @create[/drop] objname [:parent]
switch:
drop - automatically drop the new object into your current location (this is not echoed)
Creates a new object. If parent is given, the object is created as a child of this
parent. The parent script is assumed to be located under game/gamesrc/parents
and any further directory structure is given in Python notation. So if you
have a correct parent object defined in parents/examples/red_button.py, you would
load create a new object inheriting from this parent like this:
@create button:examples.red_button
"""
source_object = command.source_object
if not command.command_argument:
source_object.emit_to("Usage: @create[/drop] <newname> [:path_to_script_parent]")
return
eq_args = command.command_argument.split(':', 1)
target_name = eq_args[0].strip()
#check if we want to set a custom parent
script_parent = None
if len(eq_args) > 1:
script_parent = eq_args[1].strip()
# Create and set the object up.
new_object = Object.objects.create_object(target_name,
defines_global.OTYPE_THING,
source_object,
source_object,
script_parent=script_parent)
if script_parent:
if new_object.get_script_parent() == script_parent:
source_object.emit_to("You create %s as a child of %s." %
(new_object, script_parent))
else:
source_object.emit_to("'%s' is not a valid parent. Using default." %
script_parent)
else:
source_object.emit_to("You create a new thing: %s" % (new_object,))
if "drop" in command.command_switches:
new_object.move_to(source_object.get_location(),quiet=True)
GLOBAL_CMD_TABLE.add_command("@create", cmd_create,
priv_tuple=("objects.create",),auto_help=True,staff_help=True)
def cmd_copy(command):
"""Usage:
@copy[/reset] <original obj> [new_name] [, new_location]
switch:
reset - make a 'clean' copy, without any changes that might have happened to the
original since it was first created.
Create an identical copy of an object.
"""
source_object = command.source_object
args = command.command_argument
switches = command.command_switches
if not args:
source_object.emit_to("Usage: @copy <obj> [=new_name] [, new_location]")
return
reset = False
if "reset" in switches:
reset = True
objname = None
new_objname = None
new_location = None
new_location_name = None
arglist = args.split("=",1)
if len(arglist) == 1:
objname = args.strip()
else:
objname, args = arglist[0].strip(), arglist[1]
arglist = args.split(",",1)
if len(arglist) == 1:
new_objname = args.strip()
else:
new_objname, new_location_name = arglist[0].strip(), arglist[1].strip()
original_object = source_object.search_for_object(objname)
if not original_object:
return
if new_location_name:
new_location = source_object.search_for_object(new_location_name)
if not new_location:
return
if original_object.is_player():
source_object.emit_to("You cannot copy a player.")
return
if not source_object.controls_other(original_object,builder_override=True):
source_object.emit_to("You don't have permission to do that.")
return
#we are good to go, perform the copying.
new_object = Object.objects.copy_object(original_object, new_name=new_objname,
new_location=new_location, reset=reset)
name_text = ""
if new_objname:
name_text = " to '%s'" % new_objname
loc_text = ""
if new_location:
loc_text = " in %s" % new_location_name
reset_text = ""
if reset:
reset_text = " (using default attrs/flags)"
source_object.emit_to("Copied object '%s'%s%s%s." % (objname,name_text,loc_text,reset_text))
GLOBAL_CMD_TABLE.add_command("@copy", cmd_copy,
priv_tuple=("objects.create",),auto_help=True,staff_help=True)
def cmd_nextfree(command):
"""Usage:
@nextfree
Returns the next free object number.
"""
nextfree = Object.objects.get_nextfree_dbnum()
command.source_object.emit_to("Next free object number: #%s" % nextfree)
GLOBAL_CMD_TABLE.add_command("@nextfree", cmd_nextfree,
priv_tuple=("objects.info",),auto_help=True,staff_help=True)
def cmd_open(command):
"""
Handle the opening of exits.
Forms:
@open <Name>
@open <Name>=<Dbref>
@open <Name>=<Dbref>,<Name>
"""
source_object = command.source_object
if not command.command_argument:
source_object.emit_to("Usage: @open <name> [=dbref [,<name>]]")
return
eq_args = command.command_argument.split('=', 1)
exit_name = eq_args[0]
if len(exit_name) == 0:
source_object.emit_to("You must supply an exit name.")
return
# If we have more than one entry in our '=' delimited argument list,
# then we're doing a @open <Name>=<Dbref>[,<Name>]. If not, we're doing
# an un-linked exit, @open <Name>.
if len(eq_args) > 1:
# Opening an exit to another location via @open <Name>=<Dbref>[,<Name>].
comma_split = eq_args[1].split(',', 1)
# Use search_for_object to handle duplicate/nonexistant results.
destination = source_object.search_for_object(comma_split[0])
if not destination:
return
if destination.is_exit():
source_object.emit_to("You can't open an exit to an exit!")
return
new_object = Object.objects.create_object(exit_name,
defines_global.OTYPE_EXIT,
source_object.get_location(),
source_object,
destination)
source_object.emit_to("You open the an exit - %s to %s" % (
new_object.get_name(),
destination.get_name()))
if len(comma_split) > 1:
second_exit_name = ','.join(comma_split[1:])
#odat = {"name": second_exit_name,
# "type": defines_global.OTYPE_EXIT,
# "location": destination,
# "owner": source_object,
# "home": source_object.get_location()}
new_object = Object.objects.create_object(second_exit_name,
defines_global.OTYPE_EXIT,
destination,
source_object,
source_object.get_location())
source_object.emit_to("You open the an exit - %s to %s" % (
new_object.get_name(),
source_object.get_location().get_name()))
else:
# Create an un-linked exit.
new_object = Object.objects.create_object(exit_name,
defines_global.OTYPE_EXIT,
source_object.get_location(),
source_object,
None)
source_object.emit_to("You open an unlinked exit - %s" % new_object)
GLOBAL_CMD_TABLE.add_command("@open", cmd_open,
priv_tuple=("objects.dig",))
def cmd_chown(command):
"""
Changes the ownership of an object. The new owner specified must be a
player object.
Forms:
@chown <Object>=<NewOwner>
"""
source_object = command.source_object
if not command.command_argument:
source_object.emit_to("Usage: @chown <object> = <newowner>")
return
eq_args = command.command_argument.split('=', 1)
target_name = eq_args[0]
owner_name = eq_args[1]
if len(target_name) == 0:
source_object.emit_to("Change the ownership of what?")
return
if len(eq_args) > 1:
target_obj = source_object.search_for_object(target_name)
# Use search_for_object to handle duplicate/nonexistant results.
if not target_obj:
return
if not source_object.controls_other(target_obj) and not source_object.has_perm("objects.admin_ownership"):
source_object.emit_to(defines_global.NOCONTROL_MSG)
return
owner_obj = source_object.search_for_object(owner_name)
# Use search_for_object to handle duplicate/nonexistant results.
if not owner_obj:
return
if not owner_obj.is_player():
source_object.emit_to("Only players may own objects.")
return
if target_obj.is_player():
source_object.emit_to("You may not change the ownership of player objects.")
return
target_obj.set_owner(owner_obj)
source_object.emit_to("%s now owns %s." % (owner_obj, target_obj))
else:
# We haven't provided a target.
source_object.emit_to("Who should be the new owner of the object?")
return
GLOBAL_CMD_TABLE.add_command("@chown", cmd_chown, priv_tuple=("objects.modify_attributes","objects.admin_ownership"))
def cmd_chzone(command):
"""
Changes an object's zone. The specified zone may be of any object type, but
will typically be a THING.
Forms:
@chzone <Object>=<NewZone>
"""
source_object = command.source_object
if not command.command_argument:
source_object.emit_to("Usage: @chzone <object> = <newzone>")
return
eq_args = command.command_argument.split('=', 1)
target_name = eq_args[0]
zone_name = eq_args[1]
if len(target_name) == 0:
source_object.emit_to("Change the zone of what?")
return
if len(eq_args) > 1:
target_obj = source_object.search_for_object(target_name)
# Use search_for_object to handle duplicate/nonexistant results.
if not target_obj:
return
if not source_object.controls_other(target_obj):
source_object.emit_to(defines_global.NOCONTROL_MSG)
return
# Allow the clearing of a zone
if zone_name.lower() == "none":
target_obj.set_zone(None)
source_object.emit_to("%s is no longer zoned." % (target_obj))
return
zone_obj = source_object.search_for_object(zone_name)
# Use search_for_object to handle duplicate/nonexistant results.
if not zone_obj:
return
target_obj.set_zone(zone_obj)
source_object.emit_to("%s is now in zone %s." % (target_obj, zone_obj))
else:
# We haven't provided a target zone.
source_object.emit_to("What should the object's zone be set to?")
return
GLOBAL_CMD_TABLE.add_command("@chzone", cmd_chzone, priv_tuple=("objects.dig",))
def cmd_link(command):
"""
Sets an object's home or an exit's destination.
Forms:
@link <Object>=<Target>
"""
source_object = command.source_object
if not command.command_argument:
source_object.emit_to("Usage: @link <object> = <target>")
return
eq_args = command.command_argument.split('=', 1)
target_name = eq_args[0]
dest_name = eq_args[1]
if len(target_name) == 0:
source_object.emit_to("What do you want to link?")
return
if len(eq_args) > 1:
target_obj = source_object.search_for_object(target_name)
# Use search_for_object to handle duplicate/nonexistant results.
if not target_obj:
return
if not source_object.controls_other(target_obj):
source_object.emit_to(defines_global.NOCONTROL_MSG)
return
# If we do something like "@link blah=", we unlink the object.
if len(dest_name) == 0:
target_obj.set_home(None)
source_object.emit_to("You have unlinked %s." % (target_obj,))
return
destination = source_object.search_for_object(dest_name)
# Use search_for_object to handle duplicate/nonexistant results.
if not destination:
return
target_obj.set_home(destination)
source_object.emit_to("You link %s to %s." % (target_obj, destination))
else:
# We haven't provided a target.
source_object.emit_to("You must provide a destination to link to.")
return
GLOBAL_CMD_TABLE.add_command("@link", cmd_link,
priv_tuple=("objects.dig",))
def cmd_unlink(command):
"""
Unlinks an object.
@unlink <Object>
"""
source_object = command.source_object
if not command.command_argument:
source_object.emit_to("Usage: @unlink <object>")
return
else:
target_obj = source_object.search_for_object(command.command_argument)
# Use search_for_object to handle duplicate/nonexistant results.
if not target_obj:
return
if not source_object.controls_other(target_obj):
source_object.emit_to(defines_global.NOCONTROL_MSG)
return
target_obj.set_home(None)
source_object.emit_to("You have unlinked %s." % target_obj.get_name())
GLOBAL_CMD_TABLE.add_command("@unlink", cmd_unlink,
priv_tuple=("objects.dig",))
def cmd_dig(command):
"""
Creates a new room object and optionally connects it to
where you are.
Usage:
@dig[/switches] roomname [:parent] [= exit_to_there [: parent][;alias]] [, exit_to_here [: parent][;alias]]
switches:
teleport - move yourself to the new room
example:
@dig kitchen = north; n, south; s
"""
source_object = command.source_object
args = command.command_argument
switches = command.command_switches
if not args:
source_object.emit_to("Usage: @dig[/teleport] roomname [:parent][= exit_to_there [:parent] [;alias]] [, exit_to_here [:parent] [;alias]]")
return
room_name = None
room_parent = None
exit_names = [None,None]
exit_parents = [None,None]
exit_aliases = [[], []]
#deal with arguments
arg_list = args.split("=",1)
if len(arg_list) < 2:
#just create a room, no exits
room_name = largs[0].strip()
else:
#deal with args left of =
larg = arg_list[0]
try:
room_name, room_parent = [s.strip() for s in larg.split(":",1)]
except ValueError:
room_name = larg.strip()
#deal with args right of =
rarg = arg_list[1]
exits = rarg.split(",",1)
for ie, exi in enumerate(exits):
aliaslist = exi.split(";")
name_and_parent = aliaslist.pop(0) #pops the first index
exit_aliases[ie] = aliaslist #what remains are the aliases
try:
exit_names[ie], exit_parents[ie] = [s.strip() for s in name_and_parent.split(":",1)]
except ValueError:
exit_names[ie] = name_and_parent.strip()
#start creating things.
if not room_name:
source_object.emit_to("You must supply a new room name.")
return
new_room = Object.objects.create_object(room_name,
defines_global.OTYPE_ROOM,
None,
source_object,
script_parent=room_parent)
ptext = ""
if room_parent:
if new_room.get_script_parent() == room_parent:
ptext += " of type '%s'" % room_parent
else:
ptext += " of default type (parent '%s' failed!)" % room_parent
source_object.emit_to("Created a new room '%s'%s." % (new_room, ptext))
if exit_names[0] != None:
#create exits to the new room
destination = new_room
if destination and not destination.is_exit():
#create an exit from this room
location = source_object.get_location()
new_object = Object.objects.create_object(exit_names[0],
defines_global.OTYPE_EXIT,
location,
source_object,
destination)
ptext = ""
if exit_parents[0]:
script_parent = exit_parents[0]
if new_object.get_script_parent() == script_parent:
ptext += " of type %s" % script_parent
else:
ptext += " of default type (parent '%s' failed!)" % script_parent
source_object.emit_to("Created exit%s from %s to %s named '%s'." % (ptext,location,destination,new_object))
#the ALIAS mechanism only works with one ALIAS at this time.
try:
new_object.set_attribute("ALIAS", exit_aliases[0][0])
except IndexError:
pass
if len(exit_names) > 1 and exit_names[1] != None:
#create exit back from new room to this one.
new_object = Object.objects.create_object(exit_names[1],
defines_global.OTYPE_EXIT,
destination,
source_object,
location)
ptext = ""
if exit_parents[1]:
script_parent = exit_parents[1]
if new_object.get_script_parent() == script_parent:
ptext += " of type %s" % script_parent
else:
ptext += " of default type (parent '%s' failed!)" % script_parent
source_object.emit_to("Created exit%s back from %s to %s named '%s'." % \
(ptext, destination, location, new_object))
#the ALIAS mechanism only works with one ALIAS at this time.
try:
new_object.set_attribute("ALIAS", exit_aliases[1][0])
except IndexError:
pass
if 'teleport' in switches:
source_object.move_to(new_room)
GLOBAL_CMD_TABLE.add_command("@dig", cmd_dig,
priv_tuple=("objects.dig",))
def cmd_name(command):
"""
Handle naming an object.
@name <Object>=<Value>
"""
source_object = command.source_object
if not command.command_argument:
source_object.emit_to("Usage: <object> = <newname>")
return
eq_args = command.command_argument.split('=', 1)
if len(eq_args) < 2:
source_object.emit_to("Name it what?")
return
# Only strip spaces from right side in case they want to be silly and
# have a left-padded object name.
new_name = eq_args[1].rstrip()
if len(eq_args) < 2 or eq_args[1] == '':
source_object.emit_to("What would you like to name that object?")
else:
target_obj = source_object.search_for_object(eq_args[0])
# Use search_for_object to handle duplicate/nonexistant results.
if not target_obj:
return
ansi_name = ansi.parse_ansi(new_name, strip_formatting=True)
if Object.objects.filter(name__iexact=new_name,
type=defines_global.OTYPE_PLAYER):
source_object.emit_to("There is already a player with that name.")
return
source_object.emit_to("You have renamed %s to %s." % (target_obj,
ansi_name))
target_obj.set_name(new_name)
GLOBAL_CMD_TABLE.add_command("@name", cmd_name)
def cmd_description(command):
"""
Set an object's description.
"""
source_object = command.source_object
args = command.command_argument
if not args:
source_object.emit_to("Usage: @desc [obj=] <descriptive text>")
return
if not '=' in args:
target_obj = source_object.get_location()
if not target_obj:
return
new_desc = args.strip()
else:
eq_args = command.command_argument.split('=', 1)
target_obj = source_object.search_for_object(eq_args[0].strip())
if not target_obj:
source_object.emit_to("'%s' was not found." % eq_args[0])
return
if len(eq_args) < 2:
source_object.emit_to("You must supply a description too.")
return
new_desc = eq_args[1].strip()
if not source_object.controls_other(target_obj):
source_object.emit_to(defines_global.NOCONTROL_MSG)
return
if not new_desc:
source_object.emit_to("%s - description cleared." % target_obj)
target_obj.set_attribute('desc', 'Nothing special.')
else:
source_object.emit_to("%s - description set." % target_obj)
target_obj.set_attribute('desc', new_desc)
GLOBAL_CMD_TABLE.add_command("@describe", cmd_description)
def cmd_recover(command):
"""
@recover
Recovers @destroyed non-player objects.
Usage:
@recover[/switches] [obj [,obj2, ...]]
switches:
ROOM - recover as ROOM type instead of THING
EXIT - recover as EXIT type instead of THING
If no argument is given, a list of all recoverable objects will be given.
Objects scheduled for destruction with the @destroy command are cleaned out
by the game at regular intervals. Up until the time of the next cleanup you can
recover the object using this command (use @ps to check when the next cleanup is due).
Note that exits linked to @destroyed rooms will not be automatically recovered
to its former state, you have to @recover those manually.
Objects are returned as type THING if the object type is not explicitly set using the
switches. Note that recovering an item as the wrong type will most likely make it
nonfunctional.
"""
source_object = command.source_object
args = command.command_argument
switches = command.command_switches
going_objects = Object.objects.filter(type__exact=defines_global.OTYPE_GOING)
if not args:
s = " Objects scheduled for destruction:"
if going_objects:
for o in going_objects:
s += '\n %s' % o
else:
s += " None."
source_object.emit_to(s)
return
if ',' in args:
objlist = args.split(',')
else:
objlist = [args]
for objname in objlist:
obj = Object.objects.list_search_object_namestr(going_objects, objname)
if len(obj) == 1:
if 'ROOM' in switches:
obj[0].type = defines_global.OTYPE_ROOM
source_object.emit_to("%s recovered as type ROOM." % obj[0])
elif 'EXIT' in switches:
obj[0].type = defines_global.OTYPE_EXIT
source_object.emit_to("%s recovered as type EXIT." % obj[0])
else:
obj[0].type = defines_global.OTYPE_THING
source_object.emit_to("%s recovered as type THING." % obj[0])
obj[0].save()
else:
source_object.emit_to("No (or multiple) matches for %s." % objname)
GLOBAL_CMD_TABLE.add_command("@recover", cmd_recover,
priv_tuple=("objects.create",),auto_help=True,staff_help=True)
def cmd_destroy(command):
"""
@destroy
Destroys one or many objects.
Usage:
@destroy[/<switches>] obj [,obj2, obj3, ...]
switches:
override - The @destroy command will usually avoid accidentally destroying
player objects as well as objects with the SAFE flag. This
switch overrides this safety.
instant|now - Destroy the object immediately, without delay.
The objects are set to GOING and will be permanently destroyed next time the system
does cleanup. Until then non-player objects can still be saved by using the
@recover command. The contents of a room will be moved out before it is destroyed,
and all exits leading to and fro the room will also be destroyed. Note that destroyed
player objects can not be recovered by the @recover command.
"""
source_object = command.source_object
args = command.command_argument
switches = command.command_switches
if not args:
source_object.emit_to("Usage: @destroy[/switches] obj [,obj2, obj3, ...]")
return
if ',' in args:
targetlist = args.split(',')
else:
targetlist = [args]
# Safety feature. Switch required to delete players and SAFE objects.
switch_override = False
if "override" in switches:
switch_override = True
for targetname in targetlist:
target_obj = source_object.search_for_object(targetname)
# Use search_for_object to handle duplicate/nonexistant results.
if not target_obj:
return
if target_obj.is_player() or target_obj.has_flag('SAFE'):
if source_object.id == target_obj.id:
source_object.emit_to("You can't destroy yourself.")
return
if not switch_override:
source_object.emit_to("You must use @destroy/override on Players and objects with the SAFE flag set.")
return
if target_obj.is_superuser():
source_object.emit_to("You can't destroy a superuser.")
return
elif target_obj.is_garbage():
source_object.emit_to("That object is already destroyed.")
return
elif target_obj.is_going() and 'instant' not in switches:
source_object.emit_to("That object is already scheduled for destruction.")
return
# Run any scripted things that happen before destruction.
target_obj.scriptlink.at_object_destruction(pobject=source_object)
#destroy the object (sets it to GOING)
target_obj.destroy()
if 'instant' in switches or 'now' in switches:
#sets to GARBAGE right away (makes dbref available)
target_obj.delete()
source_object.emit_to("You destroy %s." % target_obj.get_name())
else:
source_object.emit_to("You schedule %s for destruction." % target_obj.get_name())
GLOBAL_CMD_TABLE.add_command("@destroy", cmd_destroy,
priv_tuple=("objects.create",),auto_help=True,staff_help=True)
def cmd_lock(command):
"""@lock
Usage:
@lock[/switch] <obj> [:type] [= <key>[,key2,key3,...]]
switches:
add - add a lock (default) from object
del - remove a lock from object
list - view all locks on object (default)
type:
DefaultLock - the default lock type (default)
Locks an object for everyone except those matching the keys.
The keys can be of the following types (and searched in this order):
- a user #dbref (#2, #45 etc)
- a Group name (Builder, Immortal etc, case sensitive)
- a Permission string (genperms.get, etc)
If no keys are given, the object is locked for everyone.
When the lock blocks a user, you may customize which error is given by
storing error messages in an attribute. For DefaultLocks, UseLocks and
EnterLocks, these attributes are called lock_msg, use_lock_msg and
enter_lock_msg respectively.
<<TOPIC:lock types>>
Lock types:
Name: Affects: Effect:
-----------------------------------------------------------------------
DefaultLock: Exits: controls who may traverse the exit to
its destination.
Rooms: controls whether the player sees a failure
message after the room description when
looking at the room.
Players/Things: controls who may 'get' the object.
UseLock: All but Exits: controls who may use commands defined on
the locked object.
EnterLock: Players/Things: controls who may enter/teleport into
the object.
Fail messages echoed to the player are stored in the attributes 'lock_msg',
'use_lock_msg' and 'enter_lock_msg' on the locked object in question. If no
such message is stored, a default will be used (or none at all in some cases).
"""
source_object = command.source_object
arg = command.command_argument
switches = command.command_switches
if not arg:
source_object.emit_to("Usage: @lock[/switch] <obj> [:type] [= <key>[,key2,key3,...]]")
return
keys = ""
#deal with all possible arguments.
try:
lside, keys = arg.split("=",1)
except ValueError:
lside = arg
lside, keys = lside.strip(), keys.strip()
try:
obj_name, ltype = lside.split(":",1)
except:
obj_name = lside
ltype = "DefaultLock"
obj_name, ltype = obj_name.strip(), ltype.strip()
if ltype not in ["DefaultLock","UseLock","EnterLock"]:
source_object.emit_to("Lock type '%s' not recognized." % ltype)
return
obj = source_object.search_for_object(obj_name)
if not obj:
return
obj_locks = obj.get_attribute_value("LOCKS")
if "list" in switches or not switches:
if not obj_locks:
s = "There are no locks on %s." % obj.get_name()
else:
s = "Locks on %s:" % obj.get_name()
s += obj_locks.show()
source_object.emit_to(s)
return
# we are trying to change things. Check permissions.
if not source_object.controls_other(obj):
source_object.emit_to(defines_global.NOCONTROL_MSG)
return
if "del" in switches:
# clear a lock
if obj_locks:
if not obj_locks.has_type(ltype):
source_object.emit_to("No %s set on this object." % ltype)
else:
obj_locks.del_type(ltype)
obj.set_attribute("LOCKS", obj_locks)
source_object.emit_to("Cleared lock %s on %s." % (ltype, obj.get_name()))
else:
source_object.emit_to("No %s set on this object." % ltype)
return
else:
#try to add a lock
if not obj_locks:
obj_locks = locks.Locks()
if not keys:
#add an impassable lock
obj_locks.add_type(ltype, locks.Key())
source_object.emit_to("Added impassable '%s' lock to %s." % (ltype, obj.get_name()))
else:
keys = [k.strip() for k in keys.split(",")]
okeys, gkeys, pkeys = [], [], []
allgroups = [g.name for g in Group.objects.all()]
allperms = ["%s.%s" % (p.content_type.app_label, p.codename) for p in Permission.objects.all()]
for key in keys:
#differentiate different type of keys
if Object.objects.is_dbref(key):
okeys.append(key)
elif key in allgroups:
gkeys.append(key)
elif key in allperms:
pkeys.append(key)
else:
source_object.emit_to("Key '%s' is not recognized as a valid dbref, group or permission." % key)
return
# Create actual key objects from the respective lists
keys = []
if okeys:
keys.append(locks.ObjKey(okeys))
if gkeys:
keys.append(locks.GroupKey(gkeys))
if pkeys:
keys.append(locks.PermKey(pkeys))
#store the keys in the lock
obj_locks.add_type(ltype, keys)
kstring = ""
for key in keys:
kstring += " %s" % key
source_object.emit_to("Added lock '%s' to %s with keys%s." % (ltype, obj.get_name(), kstring))
obj.set_attribute("LOCKS",obj_locks)
GLOBAL_CMD_TABLE.add_command("@lock", cmd_lock, priv_tuple=("objects.create",),auto_help=True, staff_help=True)
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