| | """A bottom-up tree matching algorithm implementation meant to speed |
| | up 2to3's matching process. After the tree patterns are reduced to |
| | their rarest linear path, a linear Aho-Corasick automaton is |
| | created. The linear automaton traverses the linear paths from the |
| | leaves to the root of the AST and returns a set of nodes for further |
| | matching. This reduces significantly the number of candidate nodes.""" |
| |
|
| | __author__ = "George Boutsioukis <gboutsioukis@gmail.com>" |
| |
|
| | import logging |
| | import itertools |
| | from collections import defaultdict |
| |
|
| | from . import pytree |
| | from .btm_utils import reduce_tree |
| |
|
| | class BMNode(object): |
| | """Class for a node of the Aho-Corasick automaton used in matching""" |
| | count = itertools.count() |
| | def __init__(self): |
| | self.transition_table = {} |
| | self.fixers = [] |
| | self.id = next(BMNode.count) |
| | self.content = '' |
| |
|
| | class BottomMatcher(object): |
| | """The main matcher class. After instantiating the patterns should |
| | be added using the add_fixer method""" |
| |
|
| | def __init__(self): |
| | self.match = set() |
| | self.root = BMNode() |
| | self.nodes = [self.root] |
| | self.fixers = [] |
| | self.logger = logging.getLogger("RefactoringTool") |
| |
|
| | def add_fixer(self, fixer): |
| | """Reduces a fixer's pattern tree to a linear path and adds it |
| | to the matcher(a common Aho-Corasick automaton). The fixer is |
| | appended on the matching states and called when they are |
| | reached""" |
| | self.fixers.append(fixer) |
| | tree = reduce_tree(fixer.pattern_tree) |
| | linear = tree.get_linear_subpattern() |
| | match_nodes = self.add(linear, start=self.root) |
| | for match_node in match_nodes: |
| | match_node.fixers.append(fixer) |
| |
|
| | def add(self, pattern, start): |
| | "Recursively adds a linear pattern to the AC automaton" |
| | |
| | if not pattern: |
| | |
| | return [start] |
| | if isinstance(pattern[0], tuple): |
| | |
| | |
| | match_nodes = [] |
| | for alternative in pattern[0]: |
| | |
| | |
| | end_nodes = self.add(alternative, start=start) |
| | for end in end_nodes: |
| | match_nodes.extend(self.add(pattern[1:], end)) |
| | return match_nodes |
| | else: |
| | |
| | |
| | if pattern[0] not in start.transition_table: |
| | |
| | next_node = BMNode() |
| | start.transition_table[pattern[0]] = next_node |
| | else: |
| | |
| | next_node = start.transition_table[pattern[0]] |
| |
|
| | if pattern[1:]: |
| | end_nodes = self.add(pattern[1:], start=next_node) |
| | else: |
| | end_nodes = [next_node] |
| | return end_nodes |
| |
|
| | def run(self, leaves): |
| | """The main interface with the bottom matcher. The tree is |
| | traversed from the bottom using the constructed |
| | automaton. Nodes are only checked once as the tree is |
| | retraversed. When the automaton fails, we give it one more |
| | shot(in case the above tree matches as a whole with the |
| | rejected leaf), then we break for the next leaf. There is the |
| | special case of multiple arguments(see code comments) where we |
| | recheck the nodes |
| | |
| | Args: |
| | The leaves of the AST tree to be matched |
| | |
| | Returns: |
| | A dictionary of node matches with fixers as the keys |
| | """ |
| | current_ac_node = self.root |
| | results = defaultdict(list) |
| | for leaf in leaves: |
| | current_ast_node = leaf |
| | while current_ast_node: |
| | current_ast_node.was_checked = True |
| | for child in current_ast_node.children: |
| | |
| | if isinstance(child, pytree.Leaf) and child.value == ";": |
| | current_ast_node.was_checked = False |
| | break |
| | if current_ast_node.type == 1: |
| | |
| | node_token = current_ast_node.value |
| | else: |
| | node_token = current_ast_node.type |
| |
|
| | if node_token in current_ac_node.transition_table: |
| | |
| | current_ac_node = current_ac_node.transition_table[node_token] |
| | for fixer in current_ac_node.fixers: |
| | results[fixer].append(current_ast_node) |
| | else: |
| | |
| | current_ac_node = self.root |
| | if (current_ast_node.parent is not None |
| | and current_ast_node.parent.was_checked): |
| | |
| | break |
| |
|
| | |
| | if node_token in current_ac_node.transition_table: |
| | |
| | current_ac_node = current_ac_node.transition_table[node_token] |
| | for fixer in current_ac_node.fixers: |
| | results[fixer].append(current_ast_node) |
| |
|
| | current_ast_node = current_ast_node.parent |
| | return results |
| |
|
| | def print_ac(self): |
| | "Prints a graphviz diagram of the BM automaton(for debugging)" |
| | print("digraph g{") |
| | def print_node(node): |
| | for subnode_key in node.transition_table.keys(): |
| | subnode = node.transition_table[subnode_key] |
| | print("%d -> %d [label=%s] //%s" % |
| | (node.id, subnode.id, type_repr(subnode_key), str(subnode.fixers))) |
| | if subnode_key == 1: |
| | print(subnode.content) |
| | print_node(subnode) |
| | print_node(self.root) |
| | print("}") |
| |
|
| | |
| | _type_reprs = {} |
| | def type_repr(type_num): |
| | global _type_reprs |
| | if not _type_reprs: |
| | from .pygram import python_symbols |
| | |
| | |
| | for name, val in python_symbols.__dict__.items(): |
| | if type(val) == int: _type_reprs[val] = name |
| | return _type_reprs.setdefault(type_num, type_num) |
| |
|
