taskflow.engines.action_engine.traversal

Source code for taskflow.engines.action_engine.traversal

# -*- coding: utf-8 -*-

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#    Licensed under the Apache License, Version 2.0 (the "License"); you may
#    not use this file except in compliance with the License. You may obtain
#    a copy of the License at
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#         http://www.apache.org/licenses/LICENSE-2.0
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#    Unless required by applicable law or agreed to in writing, software
#    distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
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import collections
import enum

from taskflow.engines.action_engine import compiler as co


[docs]class Direction(enum.Enum): """Traversal direction enum.""" #: Go through successors. FORWARD = 1 #: Go through predecessors. BACKWARD = 2
def _extract_connectors(execution_graph, starting_node, direction, through_flows=True, through_retries=True, through_tasks=True): if direction == Direction.FORWARD: connected_iter = execution_graph.successors_iter else: connected_iter = execution_graph.predecessors_iter connected_to_functors = {} if through_flows: connected_to_functors[co.FLOW] = connected_iter connected_to_functors[co.FLOW_END] = connected_iter if through_retries: connected_to_functors[co.RETRY] = connected_iter if through_tasks: connected_to_functors[co.TASK] = connected_iter return connected_iter(starting_node), connected_to_functors
[docs]def breadth_first_iterate(execution_graph, starting_node, direction, through_flows=True, through_retries=True, through_tasks=True): """Iterates connected nodes in execution graph (from starting node). Does so in a breadth first manner. Jumps over nodes with ``noop`` attribute (does not yield them back). """ initial_nodes_iter, connected_to_functors = _extract_connectors( execution_graph, starting_node, direction, through_flows=through_flows, through_retries=through_retries, through_tasks=through_tasks) q = collections.deque(initial_nodes_iter) while q: node = q.popleft() node_attrs = execution_graph.node[node] if not node_attrs.get('noop'): yield node try: node_kind = node_attrs['kind'] connected_to_functor = connected_to_functors[node_kind] except KeyError: pass else: q.extend(connected_to_functor(node))
[docs]def depth_first_iterate(execution_graph, starting_node, direction, through_flows=True, through_retries=True, through_tasks=True): """Iterates connected nodes in execution graph (from starting node). Does so in a depth first manner. Jumps over nodes with ``noop`` attribute (does not yield them back). """ initial_nodes_iter, connected_to_functors = _extract_connectors( execution_graph, starting_node, direction, through_flows=through_flows, through_retries=through_retries, through_tasks=through_tasks) stack = list(initial_nodes_iter) while stack: node = stack.pop() node_attrs = execution_graph.node[node] if not node_attrs.get('noop'): yield node try: node_kind = node_attrs['kind'] connected_to_functor = connected_to_functors[node_kind] except KeyError: pass else: stack.extend(connected_to_functor(node))
[docs]def depth_first_reverse_iterate(node, start_from_idx=-1): """Iterates connected (in reverse) **tree** nodes (from starting node). Jumps through nodes with ``noop`` attribute (does not yield them back). """ # Always go left to right, since right to left is the pattern order # and we want to go backwards and not forwards through that ordering... if start_from_idx == -1: # All of them... children_iter = node.reverse_iter() else: children_iter = reversed(node[0:start_from_idx]) for child in children_iter: if child.metadata.get('noop'): # Jump through these... for grand_child in child.dfs_iter(right_to_left=False): if grand_child.metadata['kind'] in co.ATOMS: yield grand_child.item else: yield child.item
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