def clean_out_map(self, out_map):
clean_out_map = {}
clean_out_map['outcome'] = out_map['outcome']
clean_conditions = dict(
(clean_variable(k), v) for k, v in out_map['condition'].items())
clean_out_map['condition'] = clean_conditions
return clean_out_map
def clean_out_map(self, out_map):
clean_out_map = {}
clean_out_map['outcome'] = out_map['outcome']
clean_conditions = dict((clean_variable(k), v)
for k, v in out_map['condition'].items())
clean_out_map['condition'] = clean_conditions
return clean_out_map
def add_internal_state(self, label, class_decl):
"""
Add an internal state to this concurrent state.
Internal states are the classes that run in parallel.
label: the name by which this internal state is referred to.
class_decl: the class declaration for code generation. e.g. 'Foo()'
"""
clean_label = clean_variable(label)
if clean_label not in self.internal_states:
self.internal_states[clean_label] = class_decl
def add_internal_state(self, label, class_decl):
"""
Add an internal state to this concurrent state.
Internal states are the classes that run in parallel.
label: the name by which this internal state is referred to.
class_decl: the class declaration for code generation. e.g. 'Foo()'
"""
clean_label = clean_variable(label)
if clean_label not in self.internal_states:
self.internal_states[clean_label] = class_decl
def get_outcome_name(self, is_concurrent, state_name, condition):
"""Returns a name needed to transition to the next state.
is_concurrent: Boolean, which equals if this state is a concurrent
state.
state_name: The name of the next state in the automaton (e.g. "0")
condition: A map from proposition to value needed for this outcome
to happen.
If it's a concurrent state, combine the conditions in a meaningful way.
"""
if not is_concurrent:
(k, v) = condition.items()[0]
return v
# Output format is "key1_value1__key2_value2__key3_value3__..."
outcome_str = "__".join(["{0}_{1}".format(clean_variable(k), v)
for (k, v) in condition.items()])
return outcome_str
def modify_names(all_out_vars, automata):
"""
Make the state names human readable.
We append "_X" to the state name for each output variable X that is true.
"""
for state in automata:
state.name = str(state.name) # sometimes they're ints
old_name_to_new_name = {}
for state in automata:
new_name = state.name
for i, val in enumerate(state.output_valuation):
if val:
new_name += "_" + clean_variable(all_out_vars[i])
old_name_to_new_name[state.name] = new_name
for state in automata:
state.name = old_name_to_new_name[state.name]
state.transitions = [old_name_to_new_name[n]
for n in state.transitions]
return automata
def modify_names(all_out_vars, automata):
"""
Make the state names human readable.
We append "_X" to the state name for each output variable X that is true.
"""
for state in automata:
state.name = str(state.name) # sometimes they're ints
old_name_to_new_name = {}
for state in automata:
new_name = state.name
for i, val in enumerate(state.output_valuation):
if val:
new_name += "_" + clean_variable(all_out_vars[i])
old_name_to_new_name[state.name] = new_name
for state in automata:
state.name = old_name_to_new_name[state.name]
state.transitions = [
old_name_to_new_name[n] for n in state.transitions
]
return automata
