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94 lines
3.4 KiB
Cython
94 lines
3.4 KiB
Cython
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from libc.stdint cimport uint32_t, uint64_t
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from libcpp.unordered_map cimport unordered_map
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from libcpp.vector cimport vector
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from ...typedefs cimport attr_t, hash_t, len_t
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from ...strings cimport StringStore
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cdef extern from "<algorithm>" namespace "std" nogil:
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void swap[T](T& a, T& b) except + # Only available in Cython 3.
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# An edit tree (Müller et al., 2015) is a tree structure that consists of
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# edit operations. The two types of operations are string matches
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# and string substitutions. Given an input string s and an output string t,
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# subsitution and match nodes should be interpreted as follows:
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#
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# * Substitution node: consists of an original string and substitute string.
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# If s matches the original string, then t is the substitute. Otherwise,
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# the node does not apply.
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# * Match node: consists of a prefix length, suffix length, prefix edit tree,
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# and suffix edit tree. If s is composed of a prefix, middle part, and suffix
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# with the given suffix and prefix lengths, then t is the concatenation
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# prefix_tree(prefix) + middle + suffix_tree(suffix).
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#
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# For efficiency, we represent strings in substitution nodes as integers, with
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# the actual strings stored in a StringStore. Subtrees in match nodes are stored
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# as tree identifiers (rather than pointers) to simplify serialization.
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cdef uint32_t NULL_TREE_ID
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cdef struct MatchNodeC:
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len_t prefix_len
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len_t suffix_len
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uint32_t prefix_tree
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uint32_t suffix_tree
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cdef struct SubstNodeC:
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attr_t orig
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attr_t subst
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cdef union NodeC:
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MatchNodeC match_node
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SubstNodeC subst_node
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cdef struct EditTreeC:
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bint is_match_node
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NodeC inner
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cdef inline EditTreeC edittree_new_match(len_t prefix_len, len_t suffix_len,
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uint32_t prefix_tree, uint32_t suffix_tree):
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cdef MatchNodeC match_node = MatchNodeC(prefix_len=prefix_len,
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suffix_len=suffix_len, prefix_tree=prefix_tree,
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suffix_tree=suffix_tree)
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cdef NodeC inner = NodeC(match_node=match_node)
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return EditTreeC(is_match_node=True, inner=inner)
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cdef inline EditTreeC edittree_new_subst(attr_t orig, attr_t subst):
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cdef EditTreeC node
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cdef SubstNodeC subst_node = SubstNodeC(orig=orig, subst=subst)
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cdef NodeC inner = NodeC(subst_node=subst_node)
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return EditTreeC(is_match_node=False, inner=inner)
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cdef inline uint64_t edittree_hash(EditTreeC tree):
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cdef MatchNodeC match_node
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cdef SubstNodeC subst_node
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if tree.is_match_node:
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match_node = tree.inner.match_node
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return hash((match_node.prefix_len, match_node.suffix_len, match_node.prefix_tree, match_node.suffix_tree))
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else:
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subst_node = tree.inner.subst_node
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return hash((subst_node.orig, subst_node.subst))
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cdef struct LCS:
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int source_begin
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int source_end
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int target_begin
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int target_end
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cdef inline bint lcs_is_empty(LCS lcs):
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return lcs.source_begin == 0 and lcs.source_end == 0 and lcs.target_begin == 0 and lcs.target_end == 0
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cdef class EditTrees:
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cdef vector[EditTreeC] trees
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cdef unordered_map[hash_t, uint32_t] map
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cdef StringStore strings
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cpdef uint32_t add(self, str form, str lemma)
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cpdef str apply(self, uint32_t tree_id, str form)
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cpdef unicode tree_to_str(self, uint32_t tree_id)
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cdef uint32_t _add(self, str form, str lemma)
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cdef _apply(self, uint32_t tree_id, str form_part, list lemma_pieces)
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cdef uint32_t _tree_id(self, EditTreeC tree)
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