2022-03-28 09:13:50 +00:00
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# cython: infer_types=True, binding=True
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2023-09-12 06:49:41 +00:00
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# cython: profile=False
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2022-03-28 09:13:50 +00:00
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from cython.operator cimport dereference as deref
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2023-06-14 15:48:41 +00:00
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from libc.stdint cimport UINT32_MAX, uint32_t
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2022-03-28 09:13:50 +00:00
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from libc.string cimport memset
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from libcpp.pair cimport pair
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from libcpp.vector cimport vector
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from ...typedefs cimport hash_t
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from ... import util
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from ...errors import Errors
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from ...strings import StringStore
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from .schemas import validate_edit_tree
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NULL_TREE_ID = UINT32_MAX
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cdef LCS find_lcs(str source, str target):
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"""
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Find the longest common subsequence (LCS) between two strings. If there are
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multiple LCSes, only one of them is returned.
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source (str): The first string.
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target (str): The second string.
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RETURNS (LCS): The spans of the longest common subsequences.
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"""
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cdef Py_ssize_t target_len = len(target)
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cdef size_t longest_align = 0
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cdef int source_idx, target_idx
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cdef LCS lcs
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cdef Py_UCS4 source_cp, target_cp
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memset(&lcs, 0, sizeof(lcs))
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2023-07-19 10:03:31 +00:00
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cdef vector[size_t] prev_aligns = vector[size_t](target_len)
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cdef vector[size_t] cur_aligns = vector[size_t](target_len)
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for (source_idx, source_cp) in enumerate(source):
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for (target_idx, target_cp) in enumerate(target):
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if source_cp == target_cp:
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if source_idx == 0 or target_idx == 0:
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cur_aligns[target_idx] = 1
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else:
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cur_aligns[target_idx] = prev_aligns[target_idx - 1] + 1
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# Check if this is the longest alignment and replace previous
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# best alignment when this is the case.
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if cur_aligns[target_idx] > longest_align:
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longest_align = cur_aligns[target_idx]
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lcs.source_begin = source_idx - longest_align + 1
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lcs.source_end = source_idx + 1
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lcs.target_begin = target_idx - longest_align + 1
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lcs.target_end = target_idx + 1
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else:
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# No match, we start with a zero-length alignment.
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cur_aligns[target_idx] = 0
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swap(prev_aligns, cur_aligns)
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return lcs
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cdef class EditTrees:
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"""Container for constructing and storing edit trees."""
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def __init__(self, strings: StringStore):
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"""Create a container for edit trees.
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strings (StringStore): the string store to use."""
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self.strings = strings
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cpdef uint32_t add(self, str form, str lemma):
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"""Add an edit tree that rewrites the given string into the given lemma.
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RETURNS (int): identifier of the edit tree in the container.
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"""
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# Treat two empty strings as a special case. Generating an edit
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# tree for identical strings results in a match node. However,
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# since two empty strings have a zero-length LCS, a substitution
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# node would be created. Since we do not want to clutter the
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# recursive tree construction with logic for this case, handle
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# it in this wrapper method.
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if len(form) == 0 and len(lemma) == 0:
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tree = edittree_new_match(0, 0, NULL_TREE_ID, NULL_TREE_ID)
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return self._tree_id(tree)
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return self._add(form, lemma)
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cdef uint32_t _add(self, str form, str lemma):
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cdef LCS lcs = find_lcs(form, lemma)
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cdef EditTreeC tree
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cdef uint32_t prefix_tree, suffix_tree
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if lcs_is_empty(lcs):
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tree = edittree_new_subst(self.strings.add(form), self.strings.add(lemma))
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else:
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# If we have a non-empty LCS, such as "gooi" in "ge[gooi]d" and "[gooi]en",
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# create edit trees for the prefix pair ("ge"/"") and the suffix pair ("d"/"en").
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prefix_tree = NULL_TREE_ID
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if lcs.source_begin != 0 or lcs.target_begin != 0:
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prefix_tree = self.add(form[:lcs.source_begin], lemma[:lcs.target_begin])
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suffix_tree = NULL_TREE_ID
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if lcs.source_end != len(form) or lcs.target_end != len(lemma):
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suffix_tree = self.add(form[lcs.source_end:], lemma[lcs.target_end:])
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tree = edittree_new_match(lcs.source_begin, len(form) - lcs.source_end, prefix_tree, suffix_tree)
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return self._tree_id(tree)
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cdef uint32_t _tree_id(self, EditTreeC tree):
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# If this tree has been constructed before, return its identifier.
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cdef hash_t hash = edittree_hash(tree)
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cdef unordered_map[hash_t, uint32_t].iterator iter = self.map.find(hash)
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if iter != self.map.end():
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return deref(iter).second
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# The tree hasn't been seen before, store it.
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cdef uint32_t tree_id = self.trees.size()
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self.trees.push_back(tree)
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self.map.insert(pair[hash_t, uint32_t](hash, tree_id))
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return tree_id
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cpdef str apply(self, uint32_t tree_id, str form):
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"""Apply an edit tree to a form.
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tree_id (uint32_t): the identifier of the edit tree to apply.
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form (str): the form to apply the edit tree to.
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RETURNS (str): the transformer form or None if the edit tree
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could not be applied to the form.
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"""
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if tree_id >= self.trees.size():
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raise IndexError(Errors.E1030)
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lemma_pieces = []
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try:
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self._apply(tree_id, form, lemma_pieces)
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except ValueError:
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return None
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return "".join(lemma_pieces)
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cdef _apply(self, uint32_t tree_id, str form_part, list lemma_pieces):
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"""Recursively apply an edit tree to a form, adding pieces to
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the lemma_pieces list."""
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assert tree_id <= self.trees.size()
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cdef EditTreeC tree = self.trees[tree_id]
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cdef MatchNodeC match_node
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cdef int suffix_start
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if tree.is_match_node:
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match_node = tree.inner.match_node
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if match_node.prefix_len + match_node.suffix_len > len(form_part):
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raise ValueError(Errors.E1029)
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suffix_start = len(form_part) - match_node.suffix_len
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if match_node.prefix_tree != NULL_TREE_ID:
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self._apply(match_node.prefix_tree, form_part[:match_node.prefix_len], lemma_pieces)
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lemma_pieces.append(form_part[match_node.prefix_len:suffix_start])
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if match_node.suffix_tree != NULL_TREE_ID:
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self._apply(match_node.suffix_tree, form_part[suffix_start:], lemma_pieces)
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else:
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if form_part == self.strings[tree.inner.subst_node.orig]:
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lemma_pieces.append(self.strings[tree.inner.subst_node.subst])
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else:
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raise ValueError(Errors.E1029)
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cpdef unicode tree_to_str(self, uint32_t tree_id):
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"""Return the tree as a string. The tree tree string is formatted
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like an S-expression. This is primarily useful for debugging. Match
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nodes have the following format:
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(m prefix_len suffix_len prefix_tree suffix_tree)
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Substitution nodes have the following format:
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(s original substitute)
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tree_id (uint32_t): the identifier of the edit tree.
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RETURNS (str): the tree as an S-expression.
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"""
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if tree_id >= self.trees.size():
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raise IndexError(Errors.E1030)
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cdef EditTreeC tree = self.trees[tree_id]
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cdef SubstNodeC subst_node
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if not tree.is_match_node:
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subst_node = tree.inner.subst_node
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return f"(s '{self.strings[subst_node.orig]}' '{self.strings[subst_node.subst]}')"
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cdef MatchNodeC match_node = tree.inner.match_node
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prefix_tree = "()"
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if match_node.prefix_tree != NULL_TREE_ID:
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prefix_tree = self.tree_to_str(match_node.prefix_tree)
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suffix_tree = "()"
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if match_node.suffix_tree != NULL_TREE_ID:
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suffix_tree = self.tree_to_str(match_node.suffix_tree)
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return f"(m {match_node.prefix_len} {match_node.suffix_len} {prefix_tree} {suffix_tree})"
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def from_json(self, trees: list) -> "EditTrees":
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self.trees.clear()
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for tree in trees:
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tree = _dict2tree(tree)
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self.trees.push_back(tree)
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self._rebuild_tree_map()
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def from_bytes(self, bytes_data: bytes, *) -> "EditTrees":
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def deserialize_trees(tree_dicts):
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cdef EditTreeC c_tree
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for tree_dict in tree_dicts:
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c_tree = _dict2tree(tree_dict)
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self.trees.push_back(c_tree)
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deserializers = {}
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deserializers["trees"] = lambda n: deserialize_trees(n)
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util.from_bytes(bytes_data, deserializers, [])
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self._rebuild_tree_map()
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return self
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def to_bytes(self, **kwargs) -> bytes:
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tree_dicts = []
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for tree in self.trees:
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tree = _tree2dict(tree)
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tree_dicts.append(tree)
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serializers = {}
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serializers["trees"] = lambda: tree_dicts
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return util.to_bytes(serializers, [])
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def to_disk(self, path, **kwargs) -> "EditTrees":
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path = util.ensure_path(path)
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with path.open("wb") as file_:
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file_.write(self.to_bytes())
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def from_disk(self, path, **kwargs) -> "EditTrees":
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path = util.ensure_path(path)
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if path.exists():
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with path.open("rb") as file_:
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data = file_.read()
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return self.from_bytes(data)
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return self
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def __getitem__(self, idx):
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return _tree2dict(self.trees[idx])
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def __len__(self):
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return self.trees.size()
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def _rebuild_tree_map(self):
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"""Rebuild the tree hash -> tree id mapping"""
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cdef EditTreeC c_tree
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cdef uint32_t tree_id
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cdef hash_t tree_hash
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self.map.clear()
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for tree_id in range(self.trees.size()):
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c_tree = self.trees[tree_id]
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tree_hash = edittree_hash(c_tree)
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self.map.insert(pair[hash_t, uint32_t](tree_hash, tree_id))
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def __reduce__(self):
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return (unpickle_edittrees, (self.strings, self.to_bytes()))
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def unpickle_edittrees(strings, trees_data):
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return EditTrees(strings).from_bytes(trees_data)
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def _tree2dict(tree):
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if tree["is_match_node"]:
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tree = tree["inner"]["match_node"]
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else:
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tree = tree["inner"]["subst_node"]
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return(dict(tree))
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def _dict2tree(tree):
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errors = validate_edit_tree(tree)
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if errors:
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raise ValueError(Errors.E1026.format(errors="\n".join(errors)))
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tree = dict(tree)
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if "prefix_len" in tree:
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tree = {"is_match_node": True, "inner": {"match_node": tree}}
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else:
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tree = {"is_match_node": False, "inner": {"subst_node": tree}}
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return tree
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