Source code for pm4py.visualization.ocel.ocpn.visualizer
from graphviz import Digraph
from enum import Enum
from pm4py.util import exec_utils
from pm4py.visualization.ocel.ocpn.variants import wo_decoration, brachmann
from typing import Optional, Dict, Any
from pm4py.visualization.common import gview
from pm4py.visualization.common import save as gsave
[docs]
class Variants(Enum):
WO_DECORATION = wo_decoration
BRACHMANN = brachmann
[docs]
def apply(
ocpn: Dict[str, Any],
variant=Variants.WO_DECORATION,
parameters: Optional[Dict[Any, Any]] = None,
) -> Digraph:
"""
Obtains a visualization of the provided object-centric Petri net
Reference paper: van der Aalst, Wil MP, and Alessandro Berti. "Discovering object-centric Petri nets." Fundamenta informaticae 175.1-4 (2020): 1-40.
Parameters
----------------
ocpn
Object-centric Petri net
variant
Variant of the algorithm to be used
parameters
Variant-specific parameters
Returns
---------------
gviz
Graphviz digraph
"""
return exec_utils.get_variant(variant).apply(ocpn, parameters=parameters)
[docs]
def save(gviz: Digraph, output_file_path: str, parameters=None):
"""
Save the diagram
Parameters
-----------
gviz
GraphViz diagram
output_file_path
Path where the GraphViz output should be saved
"""
gsave.save(gviz, output_file_path, parameters=parameters)
return ""
[docs]
def view(gviz: Digraph, parameters=None):
"""
View the diagram
Parameters
-----------
gviz
GraphViz diagram
"""
return gview.view(gviz, parameters=parameters)
[docs]
def matplotlib_view(gviz: Digraph, parameters=None):
"""
Views the diagram using Matplotlib
Parameters
---------------
gviz
Graphviz
"""
return gview.matplotlib_view(gviz, parameters=parameters)
