# cython: profile=True from .lexeme cimport * cimport cython POS = 0 ENTITY = 0 DEF PADDING = 5 cdef int bounds_check(int i, int length, int padding) except -1: if (i + padding) < 0: raise IndexError if (i - padding) >= length: raise IndexError cdef class Tokens: """A sequence of references to Lexeme objects. The Tokens class provides fast and memory-efficient access to lexical features, and can efficiently export the data to a numpy array. Specific languages create their own Tokens subclasses, to provide more convenient access to language-specific features. >>> from spacy.en import EN >>> tokens = EN.tokenize('An example sentence.') >>> tokens.string(0) 'An' >>> tokens.prob(0) > tokens.prob(1) True >>> tokens.can_noun(0) False >>> tokens.can_noun(1) True """ def __init__(self, StringStore string_store, string_length=0): self._string_store = string_store if string_length >= 3: size = int(string_length / 3.0) else: size = 5 self.mem = Pool() # Guarantee self.lex[i-x], for any i >= 0 and x < padding is in bounds # However, we need to remember the true starting places, so that we can # realloc. self._lex_ptr = self.mem.alloc(size + (PADDING*2), sizeof(Lexeme*)) self._idx_ptr = self.mem.alloc(size + (PADDING*2), sizeof(int)) self._pos_ptr = self.mem.alloc(size + (PADDING*2), sizeof(int)) self._ner_ptr = self.mem.alloc(size + (PADDING*2), sizeof(int)) self.lex = self._lex_ptr self.idx = self._idx_ptr self.pos = self._pos_ptr self.ner = self._ner_ptr cdef int i for i in range(size + (PADDING*2)): self.lex[i] = &EMPTY_LEXEME self.lex += PADDING self.idx += PADDING self.pos += PADDING self.ner += PADDING self.max_length = size self.length = 0 def __getitem__(self, i): bounds_check(i, self.length, PADDING) return Token(self._string_store, i, self.idx[i], self.pos[i], self.ner[i], self.lex[i][0]) def __iter__(self): for i in range(self.length): yield self[i] def __len__(self): return self.length cdef int push_back(self, int idx, const Lexeme* lexeme) except -1: if self.length == self.max_length: self._realloc(self.length * 2) self.lex[self.length] = lexeme self.idx[self.length] = idx self.pos[self.length] = 0 self.ner[self.length] = 0 self.length += 1 return idx + lexeme.length cdef int extend(self, int idx, const Lexeme* const* lexemes, int n) except -1: cdef int i if lexemes == NULL: return idx elif n == 0: i = 0 while lexemes[i] != NULL: idx = self.push_back(idx, lexemes[i]) i += 1 else: for i in range(n): idx = self.push_back(idx, lexemes[i]) return idx cpdef int set_tag(self, int i, int tag_type, int tag) except -1: if tag_type == POS: self.pos[i] = tag elif tag_type == ENTITY: self.ner[i] = tag cpdef np.ndarray[atom_t, ndim=2] get_array(self, list features): cdef int i, j cdef np.ndarray[atom_t, ndim=2] output output = np.ndarray(shape=(self.length, len(features)), dtype=int) for i in range(self.length): for j, feature in enumerate(features): output[i, j] = get_attr(self.lex[i], feature) return output def _realloc(self, new_size): self.max_length = new_size n = new_size + (PADDING * 2) self._lex_ptr = self.mem.realloc(self._lex_ptr, n * sizeof(Lexeme*)) self._idx_ptr = self.mem.realloc(self._idx_ptr, n * sizeof(int)) self._pos_ptr = self.mem.realloc(self._pos_ptr, n * sizeof(int)) self._ner_ptr = self.mem.realloc(self._ner_ptr, n * sizeof(int)) self.lex = self._lex_ptr + PADDING self.idx = self._idx_ptr + PADDING self.pos = self._pos_ptr + PADDING self.ner = self._ner_ptr + PADDING for i in range(self.length, self.max_length + PADDING): self.lex[i] = &EMPTY_LEXEME @cython.freelist(64) cdef class Token: def __init__(self, StringStore string_store, int i, int idx, int pos, int ner, dict lex): self._string_store = string_store self.idx = idx self.pos = pos self.ner = ner self.i = i self.id = lex['id'] self.cluster = lex['cluster'] self.length = lex['length'] self.postype = lex['pos_type'] self.sensetype = lex['sense_type'] self.sic = lex['sic'] self.norm = lex['norm'] self.shape = lex['shape'] self.suffix = lex['asciied'] self.prefix = lex['prefix'] self.prob = lex['prob'] self.flags = lex['flags'] property string: def __get__(self): if self.sic == 0: return '' cdef bytes utf8string = self._string_store[self.sic] return utf8string.decode('utf8')