def execute_script():
# read an event log
log = pm4py.read_xes("../tests/compressed_input_data/02_teleclaims.xes.gz")
# log = pm4py.read_xes("../tests/input_data/receipt.xes")
print("number of variants of the original log ->", len(pm4py.get_variants(log)))
# discover a process model
tree = pm4py.discover_tree_inductive(log)
# simulate a log out of the model (to have another log that is similar to the original)
aa = time.time()
min_trace_length = bottomup_discovery.get_min_trace_length(tree)
simulated_log = tree_playout.apply(tree, variant=tree_playout.Variants.EXTENSIVE,
parameters={"max_trace_length": min_trace_length + 2})
print("number of variants of the simulated log -> ", len(simulated_log))
# apply the alignments between this log and the model
bb = time.time()
aligned_traces = logs_alignment.apply(log, simulated_log)
cc = time.time()
print(aligned_traces[0])
print("playout time", bb - aa)
print("alignments time", cc - bb)
print("TOTAL", cc - aa)
print(alignment_based.evaluate(aligned_traces))
# apply the anti alignments between this log and the model
dd = time.time()
anti_aligned_traces = logs_alignment.apply(log, simulated_log,
parameters={
logs_alignment.Variants.EDIT_DISTANCE.value.Parameters.PERFORM_ANTI_ALIGNMENT: True})
ee = time.time()
print(anti_aligned_traces[0])
print("anti alignments time", ee - dd)
print(alignment_based.evaluate(anti_aligned_traces))
def apply(tree, parameters=None):
"""
Footprints detection on process tree
Parameters
-----------------
tree
Process tree
parameters
Parameters of the algorithm
Returns
-----------------
footprints
Footprints
"""
if parameters is None:
parameters = {}
all_footprints = get_all_footprints(tree, parameters=parameters)
root_node_footprints = all_footprints[tree]
min_trace_length = bottomup_disc.get_min_trace_length(tree, parameters=parameters)
root_node_footprints[Outputs.MIN_TRACE_LENGTH.value] = min_trace_length
return root_node_footprints
def apply(tree, parameters=None):
"""
Performs an extensive playout of the process tree
Parameters
-------------
tree
Process tree
parameters
Possible parameters, including:
- Parameters.MAX_TRACE_LENGTH => maximum length of a trace (default: min_allowed_trace_length)
- Parameters.MAX_LOOP_OCC => maximum number of occurrences for a loop (default: MAX_TRACE_LENGTH)
- Parameters.ACTIVITY_KEY => activity key
- Parameters.MAX_LIMIT_NUM_TRACES => maximum number to the limit of traces; the playout shall stop when the number is reached (default: sys.maxsize)
Returns
-------------
log_skeleton
Event log_skeleton
"""
if parameters is None:
parameters = {}
activity_key = exec_utils.get_param_value(Parameters.ACTIVITY_KEY, parameters, xes_constants.DEFAULT_NAME_KEY)
# to save memory in the returned log_skeleton, allocate each activity once. to know the list of activities of the
# process tree, use the footprints module
fp_tree = fp_discovery.apply(tree, parameters=parameters)
activities = fp_tree["activities"]
activities = {act: Event({activity_key: act}) for act in activities}
min_allowed_trace_length = bottomup_discovery.get_min_trace_length(tree, parameters=parameters)
max_trace_length = exec_utils.get_param_value(Parameters.MAX_TRACE_LENGTH, parameters, min_allowed_trace_length)
max_loop_occ = exec_utils.get_param_value(Parameters.MAX_LOOP_OCC, parameters, int(max_trace_length/2))
max_limit_num_traces = exec_utils.get_param_value(Parameters.MAX_LIMIT_NUM_TRACES, parameters, 100000)
return_set_strings = exec_utils.get_param_value(Parameters.RETURN_SET_STRINGS, parameters, False)
bottomup = bottomup_discovery.get_bottomup_nodes(tree, parameters=parameters)
min_rem_dict = bottomup_discovery.get_min_rem_dict(tree, parameters=parameters)
playout_dictio = {}
for i in range(len(bottomup)):
get_playout(bottomup[i], playout_dictio, max_trace_length, max_loop_occ, min_rem_dict, max_limit_num_traces)
tree_playout_traces = playout_dictio[tree][TRACES]
if return_set_strings:
return tree_playout_traces
log = EventLog()
for tr0 in tree_playout_traces:
trace = Trace()
for act in tr0:
trace.append(activities[act])
log.append(trace)
return log