def test_nodes_with_the_same_name_are_disallowed(self):
importance_map = ImportanceScoreMap(DetailLevel.medium)
builder = DotBuilderWrapper(importance_map, True, True)
builder.add_node("n1", Node("Java", {}, {}))
builder.add_node("n2", Node("Java", {}, {}))
with pytest.raises(Exception):
builder.add_node("n1", "Java", Node({}, {}))
def __init__(self,
detail_level,
show_input_ports,
show_output_ports,
vertical_orientation=True):
"""Args:
detail_level (DetailLevel): level of presentation details
show_input_ports (bool):
show_output_ports (bool):
vertical_orientation (bool): True if the graph should be drawn
from top to bottom, False if it should be drawn from left to
right.
"""
score_map = ImportanceScoreMap(detail_level)
self.__b = DotBuilderWrapper(score_map, show_input_ports,
show_output_ports, vertical_orientation)
self.__low_score_nodes_remover = LowScoreNodesRemover(score_map)
self.__input_created = False
self.__output_created = False
self.__already_run = False
def test_nodes_with_the_same_name_are_disallowed(self):
importance_map = ImportanceScoreMap(DetailLevel.medium)
builder = DotBuilderWrapper(importance_map, True, True)
builder.add_node('n1', Node('Java', {}, {}))
builder.add_node('n2', Node('Java', {}, {}))
with pytest.raises(Exception):
builder.add_node('n1', 'Java', Node({}, {}))
def __init__(self, detail_level, show_input_ports, show_output_ports,
vertical_orientation=True):
"""Args:
detail_level (DetailLevel): level of presentation details
show_input_ports (bool):
show_output_ports (bool):
vertical_orientation (bool): True if the graph should be drawn
from top to bottom, False if it should be drawn from left to
right.
"""
score_map = ImportanceScoreMap(detail_level)
self.__b = DotBuilderWrapper(
score_map, show_input_ports, show_output_ports,
vertical_orientation)
self.__low_score_nodes_remover = LowScoreNodesRemover(score_map)
self.__input_created = False
self.__output_created = False
self.__already_run = False
class Converter:
"""Convert Pipeline to its visualization in GraphViz dot format."""
def __init__(self,
detail_level,
show_input_ports,
show_output_ports,
vertical_orientation=True):
"""Args:
detail_level (DetailLevel): level of presentation details
show_input_ports (bool):
show_output_ports (bool):
vertical_orientation (bool): True if the graph should be drawn
from top to bottom, False if it should be drawn from left to
right.
"""
score_map = ImportanceScoreMap(detail_level)
self.__b = DotBuilderWrapper(score_map, show_input_ports,
show_output_ports, vertical_orientation)
self.__low_score_nodes_remover = LowScoreNodesRemover(score_map)
self.__input_created = False
self.__output_created = False
self.__already_run = False
def run(self, pipeline):
"""
Convert Pipeline to its visualization in GraphViz dot format
Args:
pipeline (Pipeline): input Pipeline.
Return:
string: dot format
"""
assert not self.__already_run
self.__already_run = True
clean_pipeline = self.__low_score_nodes_remover.run(pipeline)
# We sort the collection to obtain the same order of output elements
# every time. That is, we remove non-determinism of the output.
for (name, node) in \
sorted(clean_pipeline.nodes.items(), key=lambda x: x[0]):
self.__b.add_node(name, node)
pipeline_data = PipelineData.from_pipeline(clean_pipeline)
# We sort the collection to obtain the same order of output elements
# every time. That is, we remove non-determinism of the output.
for data_id in sorted(pipeline_data.get_ids()):
info = pipeline_data.get_info(data_id)
start = self.__get_data_start(data_id, info.producers)
ends = self.__get_data_ends(data_id, info.consumers)
if start is not None and ends is not None:
for end in ends:
self.__b.add_edge(start, end)
return self.__b.get_result()
def __get_data_start(self, data_id, data_producers):
if len(data_producers) == 0:
return None
elif len(data_producers) > 1:
self.__b.add_data_node(data_id)
for address in data_producers:
self.__b.add_edge(address, DataAddress(data_id, None))
return DataAddress(data_id, None)
else:
assert len(data_producers) == 1
# Take an element from the set
for e in data_producers:
break
return e
def __get_data_ends(self, data_id, data_consumers):
if len(data_consumers) == 0:
return None
else:
return [address for address in data_consumers]
class Converter:
"""Convert Pipeline to its visualization in GraphViz dot format."""
def __init__(self, detail_level, show_input_ports, show_output_ports,
vertical_orientation=True):
"""Args:
detail_level (DetailLevel): level of presentation details
show_input_ports (bool):
show_output_ports (bool):
vertical_orientation (bool): True if the graph should be drawn
from top to bottom, False if it should be drawn from left to
right.
"""
score_map = ImportanceScoreMap(detail_level)
self.__b = DotBuilderWrapper(
score_map, show_input_ports, show_output_ports,
vertical_orientation)
self.__low_score_nodes_remover = LowScoreNodesRemover(score_map)
self.__input_created = False
self.__output_created = False
self.__already_run = False
def run(self, pipeline):
"""
Convert Pipeline to its visualization in GraphViz dot format
Args:
pipeline (Pipeline): input Pipeline.
Return:
string: dot format
"""
assert not self.__already_run
self.__already_run = True
clean_pipeline = self.__low_score_nodes_remover.run(pipeline)
# We sort the collection to obtain the same order of output elements
# every time. That is, we remove non-determinism of the output.
for (name, node) in \
sorted(clean_pipeline.nodes.items(), key=lambda x: x[0]):
self.__b.add_node(name, node)
pipeline_data = PipelineData.from_pipeline(clean_pipeline)
# We sort the collection to obtain the same order of output elements
# every time. That is, we remove non-determinism of the output.
for data_id in sorted(pipeline_data.get_ids()):
info = pipeline_data.get_info(data_id)
start = self.__get_data_start(data_id, info.producers)
ends = self.__get_data_ends(data_id, info.consumers)
if start is not None and ends is not None:
for end in ends:
self.__b.add_edge(start, end)
return self.__b.get_result()
def __get_data_start(self, data_id, data_producers):
if len(data_producers) == 0:
return None
elif len(data_producers) > 1:
self.__b.add_data_node(data_id)
for address in data_producers:
self.__b.add_edge(address, DataAddress(data_id, None))
return DataAddress(data_id, None)
else:
assert len(data_producers) == 1
# Take an element from the set
for e in data_producers:
break
return e
def __get_data_ends(self, data_id, data_consumers):
if len(data_consumers) == 0:
return None
else:
return [address for address in data_consumers]
