Source code for pm4py.visualization.process_tree.visualizer
from pm4py.visualization.common import gview
from pm4py.visualization.common import save as gsave
from pm4py.visualization.process_tree.variants import (
wo_decoration,
symbolic,
frequency_annotation,
)
from enum import Enum
from pm4py.util import exec_utils
from pm4py.visualization.common.gview import serialize, serialize_dot
from typing import Optional, Dict, Any
from pm4py.objects.process_tree.obj import ProcessTree
import graphviz
[docs]
class Variants(Enum):
WO_DECORATION = wo_decoration
SYMBOLIC = symbolic
FREQUENCY_ANNOTATION = frequency_annotation
DEFAULT_VARIANT = Variants.WO_DECORATION
[docs]
def apply(
tree0: ProcessTree,
parameters: Optional[Dict[Any, Any]] = None,
variant=DEFAULT_VARIANT,
) -> graphviz.Graph:
"""
Method for Process Tree representation
Parameters
-----------
tree
Process tree
parameters
Possible parameters of the algorithm:
Parameters.FORMAT -> Format of the image (PDF, PNG, SVG; default PNG)
Parameters.BGCOLOR -> Background color to be used (i.e., 'white' or 'transparent')
Parameters.RANKDIR -> Direction of the graph ("LR" for left-to-right; "TB" for top-to-bottom)
variant
Variant of the algorithm to use:
- Variants.WO_DECORATION
Returns
-----------
gviz
GraphViz object
"""
return exec_utils.get_variant(variant).apply(tree0, parameters=parameters)
[docs]
def save(gviz: graphviz.Graph, 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: graphviz.Graph, parameters=None):
"""
View the diagram
Parameters
-----------
gviz
GraphViz diagram
"""
return gview.view(gviz, parameters=parameters)
[docs]
def matplotlib_view(gviz: graphviz.Graph, parameters=None):
"""
Views the diagram using Matplotlib
Parameters
---------------
gviz
Graphviz
"""
return gview.matplotlib_view(gviz, parameters=parameters)
