return self.base._bindings
def zexpr(self):
return self.base._zexpr
def goalsym(self):
return self.base._goalsym
def kind_string(self):
return "Do"
def find_tframes(self, agent):
return self.base._imp.tframes(agent, self, self.base._bindings, self.base._zexpr)
def getParams(self):
"Get the OAA parameters supplied with the goal"
return self.base.getParams()
installConstructor(ESEvent)
class ExternalSolve(External):
__slots__ = (
"_oaa",
"_iclgoal",
"_params",
"_id",
"_zexpr",
"_bindings",
"_answerlist",
"_goalsym",
"_imp",
)
def __init__(self, oaa, iclgoal, params, restartGoalSymbol=None):
pass
# bindings methods
def bTermEval(self, agent, zitem):
return zitem
def bTermEvalP(self, agent, zitem):
return True
def bTermMatch(self, agent, zitem, value):
return zitem == value
constructor_mode = ""
installConstructor(ValuesBindings)
VALUES_BINDING = ValuesBindings()
def values_binding():
return VALUES_BINDING
def valuesBZ(values):
return (VALUES_BINDING, values)
################################################################
class BasicFun(_Basic, FunImpInt):
__slots__ = ()
def __init__(self, mode, fun):
_Basic.__init__(self, mode, fun)
if self._output_indices: #len(self._output_indices) > 0:
raise LowError("Mode string %r is not valid for a function", mode)
def call(self, agent, bindings, zexpr):
args = self.generate_args(agent, bindings, zexpr)
return self._function(*args)
def match_inverse(self, agent, bindings, zexpr, obj):
raise LowError("Trying to match non-invertible function")
installConstructor(BasicFun)
class ReversibleFun(BasicFun):
__slots__ = (
"_inverse",
)
def __init__(self, mode, fun, inverse):
BasicFun.__init__(self, mode, fun)
self._inverse = make_callable(inverse)
def match_inverse(self, agent, bindings, zexpr, obj):
inverse = self._inverse
# If the function requires the agent, so will the inverse
if self._input_agent_p:
result = self._inverse(agent, obj)
class ProcClosureBindings(ClosureBindings): # used by {proc [<args] ...}
__slots__ = ()
def rebindVariables(self, agent):
vdict = self._variables
for varname in vdict:
if isinstance(varname, basestring): # constraint
value = vdict.get(Variable(varname))
if value is not None:
con = vdict[varname]
matchValueToConstraint(agent, value, con, False)
installConstructor(ProcClosureBindings)
class ProcedureBindings(ProcClosureBindings): # used by {defprocedure ...}
__slots__ = ()
def bformals(self, agent, bindings, zexpr, match):
# non-standard
fzitem = self._closureValue.closed_zexpr.keyget0("cue:")[0][0]
if formals(agent, self, fzitem, bindings, zexpr, match):
#print "cue matched", fzitem, self._variables
return self
else:
return None
def level(self):
return self._level
def setLevel(self, level):
self._level = level
################
# ConstructibleValue methods
def constructor_args(self):
return [self._closureValue, self._level]
constructor_mode = "VV"
installConstructor(ClosureBindings)
################################################################
# Task closure
class TaskClosureBindings(ClosureBindings):
__slots__ = ()
installConstructor(TaskClosureBindings)
class TaskClosureValue(ClosureValue, ActImpInt):
__slots__ = ()
make_bindings_class = TaskClosureBindings
pass
# bindings methods
def bTermEval(self, agent, zitem):
return zitem
def bTermEvalP(self, agent, zitem):
return True
def bTermMatch(self, agent, zitem, value):
return zitem == value
constructor_mode = ""
installConstructor(ValuesBindings)
VALUES_BINDING = ValuesBindings()
def values_binding():
return VALUES_BINDING
def valuesBZ(values):
return (VALUES_BINDING, values)
################################################################
################
def goalsym(self):
return self.base._goalsym
def kind_string(self):
return "Do"
def find_tframes(self, agent):
return self.base._imp.tframes(agent, self, self.base._bindings,
self.base._zexpr)
def getParams(self):
"Get the OAA parameters supplied with the goal"
return self.base.getParams()
installConstructor(ESEvent)
class ExternalSolve(External):
__slots__ = (
"_oaa",
"_iclgoal",
"_params",
"_id",
"_zexpr",
"_bindings",
"_answerlist",
"_goalsym",
"_imp",
)
raise Unimplemented()
class ProcClosureBindings(ClosureBindings): # used by {proc [<args] ...}
__slots__ = ()
def rebindVariables(self, agent):
vdict = self._variables
for varname in vdict:
if isinstance(varname, basestring): # constraint
value = vdict.get(Variable(varname))
if value is not None:
con = vdict[varname]
matchValueToConstraint(agent, value, con, False)
installConstructor(ProcClosureBindings)
class ProcedureBindings(ProcClosureBindings): # used by {defprocedure ...}
__slots__ = ()
def bformals(self, agent, bindings, zexpr, match):
# non-standard
fzitem = self._closureValue.closed_zexpr.keyget0("cue:")[0][0]
if formals(agent, self, fzitem, bindings, zexpr, match):
#print "cue matched", fzitem, self._variables
return self
else:
return None
installConstructor(ProcedureBindings)
if formals(agent, self, fzitem, bindings, zexpr, match):
return self
else:
return None
def level(self):
return self._level
def setLevel(self, level):
self._level = level
################
# ConstructibleValue methods
def constructor_args(self):
return [self._closureValue, self._level]
constructor_mode = "VV"
installConstructor(ClosureBindings)
################################################################
# Task closure
class TaskClosureBindings(ClosureBindings):
__slots__ = ()
installConstructor(TaskClosureBindings)
class TaskClosureValue(ClosureValue, ActImpInt):
__slots__ = ()
make_bindings_class = TaskClosureBindings
def tframes(self, agent, event, bindings, zexpr):
b = self.make_bindings(agent, bindings, zexpr)
#XXX needs a better name. update (kwc): using agent.nextid() now
#ADVICE = Symbol("spark.builtin.Advice")
ADVICE_WEIGHT = {"strong_prefer":10000,
"strong_avoid":-10000,
"prefer":100,
"avoid":-100,
"weak_prefer":1,
"weak_avoid":-1}
class AppliedAdviceEvent(GoalMetaEvent):
__slots__ = ()
numargs = 2
event_type = APPLIED_ADVICE
installConstructor(AppliedAdviceEvent)
def calc_weight(kind):
if isinstance(kind, IntType):
weight = kind
else:
weight = ADVICE_WEIGHT[kind.id]
return weight
def resolveAdvice(agent, tframes, advice, event):
#print "resolveAdvice", (agent, tframes, advice, event)
values = {}
for tframe in tframes:
values[tframe] = 0
for (tf, label, kind) in advice:
values[tf] = values[tf] + calc_weight(kind)
facts = agent.factslist1(P_Features, sym)
if facts:
return facts[0][1]
else:
return ()
except:
NEWPM.displayError()
return ()
def constructor_args(self):
return [self._name]
constructor_mode = "V"
installConstructor(SparkEvent)
class ObjectiveEvent(SparkEvent):
__slots__ = ("base", )
name_base = "Objective"
cvcategory = "EO"
def __init__(self, base):
SparkEvent.__init__(self, None)
self.base = base
def constructor_args(self):
return [self.base]
constructor_mode = "I"
if sym.modname is None: # DNM - Hack for @exteval
return ()
facts = agent.factslist1(P_Features, sym)
if facts:
return facts[0][1]
else:
return ()
except:
NEWPM.displayError()
return ()
def constructor_args(self):
return [self._name]
constructor_mode = "V"
installConstructor(SparkEvent)
class ObjectiveEvent(SparkEvent):
__slots__ = ("base",)
name_base = "Objective"
cvcategory = "EO"
def __init__(self, base):
SparkEvent.__init__(self, None)
self.base = base
def constructor_args(self):
return [self.base]
constructor_mode = "I"
def e_sync_parent(self):
# This is an asynchronous event
self.zexpr = zexpr
def constructor_args(self):
return TFrame.constructor_args(self) + [self.bindings, self.zexpr]
constructor_mode = "VIIV"
def tfcont(self, agent):
result = task_context(self.event())
if result is None:
sf = MessageFailure(self, "GetSelfTask failed")
elif not termMatch(agent, self.bindings, self.zexpr[0], result):
sf = MessageFailure(self, "Result of GetSelfTask did not match output pattern")
else:
sf = SUCCESS
self.tf_set_completed(agent, sf)
installConstructor(GetSelfTaskTFrame)
class GetSelfTask(ActImpInt):
__slots__ = ()
def __init__(self, symbol):
pass
def tframes(self, agent, event, bindings, zexpr):
name = "GetSelfTask%d"%agent.nextid()
return [GetSelfTaskTFrame(name, event, bindings, zexpr)]
getSelfTask = GetSelfTask
class GetSelfProcInstTFrame(TFrame):
__slots__ = ("bindings", "zexpr",)
def rebind_parameters(self, agent):
pass
def constructor_args(self):
return [self._name, self._event]
constructor_mode = "VI"
def state_args(self):
if self._completed is not None:
return (self._completed, )
def set_state(self, ignore_agent, completed):
self._completed = completed
installConstructor(TFrame)
def ancestor_tframes(event_or_tframe):
result = []
if isinstance(event_or_tframe, SparkEvent):
tf = event_or_tframe.e_sync_parent()
elif isinstance(event_or_tframe, TFrame):
tf = event_or_tframe.tf_sync_parent()
else:
raise Exception("Invalid argument to ancestor_tframes: %s" %
event_or_tframe)
while tf is not None:
if not isinstance(tf.event(), PseudoGoalEvent):
result.append(tf)
tf = tf.tf_sync_parent()
pass
def constructor_args(self):
return [self._name, self._event]
constructor_mode = "VI"
def state_args(self):
if self._completed is not None:
return (self._completed,)
def set_state(self, ignore_agent, completed):
self._completed = completed
installConstructor(TFrame)
def ancestor_tframes(event_or_tframe):
result = []
if isinstance(event_or_tframe, SparkEvent):
tf = event_or_tframe.e_sync_parent()
elif isinstance(event_or_tframe, TFrame):
tf = event_or_tframe.tf_sync_parent()
else:
raise Exception("Invalid argument to ancestor_tframes: %s" % event_or_tframe)
while tf is not None:
if not isinstance(tf.event(), PseudoGoalEvent):
result.append(tf)
tf = tf.tf_sync_parent()
return result
self._contents[index] = value
def __contains__(self, elt):
return elt in self._contents
def set(self, seq):
self._contents[:] = seq
def append(self, elt):
self._contents.append(elt)
def remove(self, elt):
return self._contents.remove(elt)
def pop(self, index = -1):
return self._contents.pop(index)
def reverse(self):
self._contents.reverse()
def coerceToSPARKForOAA(self):
return List(self._contents)
installConstructor(Accumulator)
accumulator_append = Accumulator.append
accumulator_getitem = Accumulator.__getitem__
accumulator_setitem = Accumulator.__setitem__
accumulator_delitem = Accumulator.__delitem__
accumulator_set = Accumulator.set
def accumulator_values(acc):
return List(acc[:])
def accumulator_set_key_value(acc, key, value):
"Remove any existing key-value pair for key and add a new key value pair"
contents = acc._contents
newpair = List((key, value))
for i in range(len(contents)):
constructor_mode = "VIIV"
def tfcont(self, agent):
result = task_context(self.event())
if result is None:
sf = MessageFailure(self, "GetSelfTask failed")
elif not termMatch(agent, self.bindings, self.zexpr[0], result):
sf = MessageFailure(
self, "Result of GetSelfTask did not match output pattern")
else:
sf = SUCCESS
self.tf_set_completed(agent, sf)
installConstructor(GetSelfTaskTFrame)
class GetSelfTask(ActImpInt):
__slots__ = ()
def __init__(self, symbol):
pass
def tframes(self, agent, event, bindings, zexpr):
name = "GetSelfTask%d" % agent.nextid()
return [GetSelfTaskTFrame(name, event, bindings, zexpr)]
getSelfTask = GetSelfTask
