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This repo contains code to mirror other repos. It also contains the code that is getting mirrored.
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gitmirror/lark/tree.py

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  1. try:

  2.     from future_builtins import filter

  3. except ImportError:

  4.     pass

  5. 

  6. from copy import deepcopy

  7. 

  8. from .utils import inline_args

  9. 

  10. class Tree(object):

  11.     def __init__(self, data, children):

  12.         self.data = data

  13.         self.children = list(children)

  14. 

  15.     def __repr__(self):

  16.         return 'Tree(%s, %s)' % (self.data, self.children)

  17. 

  18.     def _pretty_label(self):

  19.         return self.data

  20. 

  21.     def _pretty(self, level, indent_str):

  22.         if len(self.children) == 1 and not isinstance(self.children[0], Tree):

  23.             return [ indent_str*level, self._pretty_label(), '\t', '%s' % self.children[0], '\n']

  24. 

  25.         l = [ indent_str*level, self._pretty_label(), '\n' ]

  26.         for n in self.children:

  27.             if isinstance(n, Tree):

  28.                 l += n._pretty(level+1, indent_str)

  29.             else:

  30.                 l += [ indent_str*(level+1), '%s' % n, '\n' ]

  31. 

  32.         return l

  33. 

  34.     def pretty(self, indent_str='  '):

  35.         return ''.join(self._pretty(0, indent_str))

  36. 

  37.     def expand_kids_by_index(self, *indices):

  38.         for i in sorted(indices, reverse=True): # reverse so that changing tail won't affect indices

  39.             kid = self.children[i]

  40.             self.children[i:i+1] = kid.children

  41. 

  42.     def __eq__(self, other):

  43.         try:

  44.             return self.data == other.data and self.children == other.children

  45.         except AttributeError:

  46.             return False

  47. 

  48.     def __ne__(self, other):

  49.         return not (self == other)

  50. 

  51.     def __hash__(self):

  52.         return hash((self.data, tuple(self.children)))

  53. 

  54.     def find_pred(self, pred):

  55.         return filter(pred, self.iter_subtrees())

  56. 

  57.     def find_data(self, data):

  58.         return self.find_pred(lambda t: t.data == data)

  59. 

  60.     def scan_values(self, pred):

  61.         for c in self.children:

  62.             if isinstance(c, Tree):

  63.                 for t in c.scan_values(pred):

  64.                     yield t

  65.             else:

  66.                 if pred(c):

  67.                     yield c

  68. 

  69.     def iter_subtrees(self):

  70.         # TODO: Re-write as a more efficient version

  71. 

  72.         visited = set()

  73.         q = [self]

  74. 

  75.         l = []

  76.         while q:

  77.             subtree = q.pop()

  78.             l.append( subtree )

  79.             if id(subtree) in visited:

  80.                 continue    # already been here from another branch

  81.             visited.add(id(subtree))

  82.             q += [c for c in subtree.children if isinstance(c, Tree)]

  83. 

  84.         seen = set()

  85.         for x in reversed(l):

  86.             if id(x) not in seen:

  87.                 yield x

  88.                 seen.add(id(x))

  89. 

  90. 

  91.     def __deepcopy__(self, memo):

  92.         return type(self)(self.data, deepcopy(self.children, memo))

  93. 

  94.     def copy(self):

  95.         return type(self)(self.data, self.children)

  96.     def set(self, data, children):

  97.         self.data = data

  98.         self.children = children

  99. 

  100. 

  101. 

  102. class Transformer(object):

  103.     def _get_func(self, name):

  104.         return getattr(self, name)

  105. 

  106.     def transform(self, tree):

  107.         items = []

  108.         for c in tree.children:

  109.             if isinstance(c, Tree):

  110.                 try:

  111.                     items.append(self.transform(c))

  112.                 except Discard:

  113.                     pass

  114.         try:

  115.             f = self._get_func(tree.data)

  116.         except AttributeError:

  117.             return self.__default__(tree.data, items)

  118.         else:

  119.             return f(items)

  120. 

  121.     def __default__(self, data, children):

  122.         return Tree(data, children)

  123. 

  124.     def __mul__(self, other):

  125.         return TransformerChain(self, other)

  126. 

  127. 

  128. class Discard(Exception):

  129.     pass

  130. 

  131. class TransformerChain(object):

  132.     def __init__(self, *transformers):

  133.         self.transformers = transformers

  134. 

  135.     def transform(self, tree):

  136.         for t in self.transformers:

  137.             tree = t.transform(tree)

  138.         return tree

  139. 

  140.     def __mul__(self, other):

  141.         return TransformerChain(*self.transformers + (other,))

  142.         

  143. 

  144. 

  145. class InlineTransformer(Transformer):

  146.     def _get_func(self, name):  # use super()._get_func

  147.         return inline_args(getattr(self, name)).__get__(self)

  148. 

  149. 

  150. class Visitor(object):

  151.     def visit(self, tree):

  152.         for child in tree.children:

  153.             if isinstance(child, Tree):

  154.                 self.visit(child)

  155. 

  156.         f = getattr(self, tree.data, self.__default__)

  157.         f(tree)

  158.         return tree

  159. 

  160.     def __default__(self, tree):

  161.         pass

  162. 

  163. 

  164. class Visitor_NoRecurse(Visitor):

  165.     def visit(self, tree):

  166.         subtrees = list(tree.iter_subtrees())

  167. 

  168.         for subtree in (subtrees):

  169.             getattr(self, subtree.data, self.__default__)(subtree)

  170.         return tree

  171. 

  172. 

  173. class Transformer_NoRecurse(Transformer):

  174.     def transform(self, tree):

  175.         subtrees = list(tree.iter_subtrees())

  176. 

  177.         def _t(t):

  178.             # Assumes t is already transformed

  179.             try:

  180.                 f = self._get_func(t.data)

  181.             except AttributeError:

  182.                 return self.__default__(t)

  183.             else:

  184.                 return f(t)

  185. 

  186.         for subtree in (subtrees):

  187.             children = []

  188.             for c in subtree.children:

  189.                 if isinstance(c, Tree):

  190.                     try:

  191.                         children.append(_t(c))

  192.                     except Discard:

  193.                         pass

  194.                 else:

  195.                     children.append(c)

  196.             subtree.children = children

  197. 

  198.         return _t(tree)

  199. 

  200.     def __default__(self, t):

  201.         return t

  202. 

  203. 

  204. def pydot__tree_to_png(tree, filename):

  205.     import pydot

  206.     graph = pydot.Dot(graph_type='digraph', rankdir="LR")

  207. 

  208.     i = [0]

  209. 

  210.     def new_leaf(leaf):

  211.         node = pydot.Node(i[0], label=repr(leaf))

  212.         i[0] += 1

  213.         graph.add_node(node)

  214.         return node

  215. 

  216.     def _to_pydot(subtree):

  217.         color = hash(subtree.data) & 0xffffff

  218.         color |= 0x808080

  219. 

  220.         subnodes = [_to_pydot(child) if isinstance(child, Tree) else new_leaf(child)

  221.                     for child in subtree.children]

  222.         node = pydot.Node(i[0], style="filled", fillcolor="#%x"%color, label=subtree.data)

  223.         i[0] += 1

  224.         graph.add_node(node)

  225. 

  226.         for subnode in subnodes:

  227.             graph.add_edge(pydot.Edge(node, subnode))

  228. 

  229.         return node

  230. 

  231.     _to_pydot(tree)

  232.     graph.write_png(filename)