Source code for pm4py.algo.discovery.batches.variants.log

'''
    PM4Py – A Process Mining Library for Python
Copyright (C) 2024 Process Intelligence Solutions UG (haftungsbeschränkt)

This program is free software: you can redistribute it and/or modify
it under the terms of the GNU Affero General Public License as
published by the Free Software Foundation, either version 3 of the
License, or any later version.

This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU Affero General Public License for more details.

You should have received a copy of the GNU Affero General Public License
along with this program.  If not, see this software project's root or
visit <https://www.gnu.org/licenses/>.

Website: https://processintelligence.solutions
Contact: info@processintelligence.solutions
'''
from enum import Enum
from typing import Optional, Dict, Any, List, Tuple, Union

from pm4py.algo.discovery.batches.utils import detection
from pm4py.objects.conversion.log import converter as log_converter
from pm4py.objects.log.obj import EventLog
from pm4py.util import exec_utils, constants, xes_constants




[docs]
class Parameters(Enum):
    ACTIVITY_KEY = constants.PARAMETER_CONSTANT_ACTIVITY_KEY
    RESOURCE_KEY = constants.PARAMETER_CONSTANT_RESOURCE_KEY
    START_TIMESTAMP_KEY = constants.PARAMETER_CONSTANT_START_TIMESTAMP_KEY
    TIMESTAMP_KEY = constants.PARAMETER_CONSTANT_TIMESTAMP_KEY
    CASE_ID_KEY = constants.PARAMETER_CONSTANT_CASEID_KEY
    MERGE_DISTANCE = "merge_distance"
    MIN_BATCH_SIZE = "min_batch_size"






[docs]
def apply(
    log: EventLog,
    parameters: Optional[Dict[Union[str, Parameters], Any]] = None,
) -> List[Tuple[Tuple[str, str], int, Dict[str, Any]]]:
    """
    Provided an event log, returns
    a list having as elements the activity-resources with the batches that are detected, divided in:
    - Simultaneous (all the events in the batch have identical start and end timestamps)
    - Batching at start (all the events in the batch have identical start timestamp)
    - Batching at end (all the events in the batch have identical end timestamp)
    - Sequential batching (for all the consecutive events, the end of the first is equal to the start of the second)
    - Concurrent batching (for all the consecutive events that are not sequentially matched)

    The approach has been described in the following paper:
    Martin, N., Swennen, M., Depaire, B., Jans, M., Caris, A., & Vanhoof, K. (2015, December). Batch Processing:
    Definition and Event Log Identification. In SIMPDA (pp. 137-140).

    Parameters
    -------------------
    log
        Event log object
    parameters
        Parameters of the algorithm:
        - ACTIVITY_KEY => the attribute that should be used as activity
        - RESOURCE_KEY => the attribute that should be used as resource
        - START_TIMESTAMP_KEY => the attribute that should be used as start timestamp
        - TIMESTAMP_KEY => the attribute that should be used as timestamp
        - CASE_ID_KEY => the attribute that should be used as case identifier
        - MERGE_DISTANCE => the maximum time distance between non-overlapping intervals in order for them to be
            considered belonging to the same batch (default: 15*60   15 minutes)
        - MIN_BATCH_SIZE => the minimum number of events for a batch to be considered (default: 2)

    Returns
    ------------------
    list_batches
        A (sorted) list containing tuples. Each tuple contain:
        - Index 0: the activity-resource for which at least one batch has been detected
        - Index 1: the number of batches for the given activity-resource
        - Index 2: a list containing all the batches. Each batch is described by:
            # The start timestamp of the batch
            # The complete timestamp of the batch
            # The list of events that are executed in the batch
    """
    if parameters is None:
        parameters = {}

    activity_key = exec_utils.get_param_value(
        Parameters.ACTIVITY_KEY, parameters, xes_constants.DEFAULT_NAME_KEY
    )
    resource_key = exec_utils.get_param_value(
        Parameters.RESOURCE_KEY, parameters, xes_constants.DEFAULT_RESOURCE_KEY
    )
    start_timestamp_key = exec_utils.get_param_value(
        Parameters.START_TIMESTAMP_KEY,
        parameters,
        xes_constants.DEFAULT_TIMESTAMP_KEY,
    )
    timestamp_key = exec_utils.get_param_value(
        Parameters.TIMESTAMP_KEY,
        parameters,
        xes_constants.DEFAULT_TIMESTAMP_KEY,
    )
    case_id_key = exec_utils.get_param_value(
        Parameters.CASE_ID_KEY, parameters, constants.CASE_CONCEPT_NAME
    )

    events = log_converter.apply(
        log, variant=log_converter.Variants.TO_EVENT_STREAM
    )

    actres_grouping = {}

    for ev in events:
        case = ev[case_id_key]
        activity = ev[activity_key]
        resource = ev[resource_key]
        st = ev[start_timestamp_key].timestamp()
        et = ev[timestamp_key].timestamp()

        if (activity, resource) not in actres_grouping:
            actres_grouping[(activity, resource)] = []

        actres_grouping[(activity, resource)].append((st, et, case))

    return detection.detect(actres_grouping, parameters=parameters)