# self file was generated automatically by the Snowball to Python interpreter from .basestemmer import BaseStemmer from .among import Among class DanishStemmer(BaseStemmer): ''' self class was automatically generated by a Snowball to Python interpreter It implements the stemming algorithm defined by a snowball script. ''' serialVersionUID = 1 a_0 = [ Among(u"hed", -1, 1), Among(u"ethed", 0, 1), Among(u"ered", -1, 1), Among(u"e", -1, 1), Among(u"erede", 3, 1), Among(u"ende", 3, 1), Among(u"erende", 5, 1), Among(u"ene", 3, 1), Among(u"erne", 3, 1), Among(u"ere", 3, 1), Among(u"en", -1, 1), Among(u"heden", 10, 1), Among(u"eren", 10, 1), Among(u"er", -1, 1), Among(u"heder", 13, 1), Among(u"erer", 13, 1), Among(u"s", -1, 2), Among(u"heds", 16, 1), Among(u"es", 16, 1), Among(u"endes", 18, 1), Among(u"erendes", 19, 1), Among(u"enes", 18, 1), Among(u"ernes", 18, 1), Among(u"eres", 18, 1), Among(u"ens", 16, 1), Among(u"hedens", 24, 1), Among(u"erens", 24, 1), Among(u"ers", 16, 1), Among(u"ets", 16, 1), Among(u"erets", 28, 1), Among(u"et", -1, 1), Among(u"eret", 30, 1) ] a_1 = [ Among(u"gd", -1, -1), Among(u"dt", -1, -1), Among(u"gt", -1, -1), Among(u"kt", -1, -1) ] a_2 = [ Among(u"ig", -1, 1), Among(u"lig", 0, 1), Among(u"elig", 1, 1), Among(u"els", -1, 1), Among(u"l\u00F8st", -1, 2) ] g_v = [17, 65, 16, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 48, 0, 128] g_s_ending = [239, 254, 42, 3, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 16] I_x = 0 I_p1 = 0 S_ch = "" def copy_from(self, other): self.I_x = other.I_x self.I_p1 = other.I_p1 self.S_ch = other.S_ch super.copy_from(other) def r_mark_regions(self): # (, line 29 self.I_p1 = self.limit; # test, line 33 v_1 = self.cursor # (, line 33 # hop, line 33 c = self.cursor + 3 if 0 > c or c > self.limit: return False self.cursor = c # setmark x, line 33 self.I_x = self.cursor self.cursor = v_1 # goto, line 34 try: while True: v_2 = self.cursor try: if not self.in_grouping(DanishStemmer.g_v, 97, 248): raise lab1() self.cursor = v_2 raise lab0() except lab1: pass self.cursor = v_2 if self.cursor >= self.limit: return False self.cursor += 1 except lab0: pass # gopast, line 34 try: while True: try: if not self.out_grouping(DanishStemmer.g_v, 97, 248): raise lab3() raise lab2() except lab3: pass if self.cursor >= self.limit: return False self.cursor += 1 except lab2: pass # setmark p1, line 34 self.I_p1 = self.cursor # try, line 35 try: # (, line 35 if not (self.I_p1 < self.I_x): raise lab4() self.I_p1 = self.I_x; except lab4: pass return True def r_main_suffix(self): # (, line 40 # setlimit, line 41 v_1 = self.limit - self.cursor # tomark, line 41 if self.cursor < self.I_p1: return False self.cursor = self.I_p1 v_2 = self.limit_backward self.limit_backward = self.cursor self.cursor = self.limit - v_1 # (, line 41 # [, line 41 self.ket = self.cursor # substring, line 41 among_var = self.find_among_b(DanishStemmer.a_0, 32) if among_var == 0: self.limit_backward = v_2 return False # ], line 41 self.bra = self.cursor self.limit_backward = v_2 if among_var == 0: return False elif among_var == 1: # (, line 48 # delete, line 48 if not self.slice_del(): return False elif among_var == 2: # (, line 50 if not self.in_grouping_b(DanishStemmer.g_s_ending, 97, 229): return False # delete, line 50 if not self.slice_del(): return False return True def r_consonant_pair(self): # (, line 54 # test, line 55 v_1 = self.limit - self.cursor # (, line 55 # setlimit, line 56 v_2 = self.limit - self.cursor # tomark, line 56 if self.cursor < self.I_p1: return False self.cursor = self.I_p1 v_3 = self.limit_backward self.limit_backward = self.cursor self.cursor = self.limit - v_2 # (, line 56 # [, line 56 self.ket = self.cursor # substring, line 56 if self.find_among_b(DanishStemmer.a_1, 4) == 0: self.limit_backward = v_3 return False # ], line 56 self.bra = self.cursor self.limit_backward = v_3 self.cursor = self.limit - v_1 # next, line 62 if self.cursor <= self.limit_backward: return False self.cursor -= 1 # ], line 62 self.bra = self.cursor # delete, line 62 if not self.slice_del(): return False return True def r_other_suffix(self): # (, line 65 # do, line 66 v_1 = self.limit - self.cursor try: # (, line 66 # [, line 66 self.ket = self.cursor # literal, line 66 if not self.eq_s_b(2, u"st"): raise lab0() # ], line 66 self.bra = self.cursor # literal, line 66 if not self.eq_s_b(2, u"ig"): raise lab0() # delete, line 66 if not self.slice_del(): return False except lab0: pass self.cursor = self.limit - v_1 # setlimit, line 67 v_2 = self.limit - self.cursor # tomark, line 67 if self.cursor < self.I_p1: return False self.cursor = self.I_p1 v_3 = self.limit_backward self.limit_backward = self.cursor self.cursor = self.limit - v_2 # (, line 67 # [, line 67 self.ket = self.cursor # substring, line 67 among_var = self.find_among_b(DanishStemmer.a_2, 5) if among_var == 0: self.limit_backward = v_3 return False # ], line 67 self.bra = self.cursor self.limit_backward = v_3 if among_var == 0: return False elif among_var == 1: # (, line 70 # delete, line 70 if not self.slice_del(): return False # do, line 70 v_4 = self.limit - self.cursor try: # call consonant_pair, line 70 if not self.r_consonant_pair(): raise lab1() except lab1: pass self.cursor = self.limit - v_4 elif among_var == 2: # (, line 72 # <-, line 72 if not self.slice_from(u"l\u00F8s"): return False return True def r_undouble(self): # (, line 75 # setlimit, line 76 v_1 = self.limit - self.cursor # tomark, line 76 if self.cursor < self.I_p1: return False self.cursor = self.I_p1 v_2 = self.limit_backward self.limit_backward = self.cursor self.cursor = self.limit - v_1 # (, line 76 # [, line 76 self.ket = self.cursor if not self.out_grouping_b(DanishStemmer.g_v, 97, 248): self.limit_backward = v_2 return False # ], line 76 self.bra = self.cursor # -> ch, line 76 self.S_ch = self.slice_to(self.S_ch) if self.S_ch == '': return False self.limit_backward = v_2 # name ch, line 77 if not self.eq_v_b(self.S_ch): return False # delete, line 78 if not self.slice_del(): return False return True def _stem(self): # (, line 82 # do, line 84 v_1 = self.cursor try: # call mark_regions, line 84 if not self.r_mark_regions(): raise lab0() except lab0: pass self.cursor = v_1 # backwards, line 85 self.limit_backward = self.cursor self.cursor = self.limit # (, line 85 # do, line 86 v_2 = self.limit - self.cursor try: # call main_suffix, line 86 if not self.r_main_suffix(): raise lab1() except lab1: pass self.cursor = self.limit - v_2 # do, line 87 v_3 = self.limit - self.cursor try: # call consonant_pair, line 87 if not self.r_consonant_pair(): raise lab2() except lab2: pass self.cursor = self.limit - v_3 # do, line 88 v_4 = self.limit - self.cursor try: # call other_suffix, line 88 if not self.r_other_suffix(): raise lab3() except lab3: pass self.cursor = self.limit - v_4 # do, line 89 v_5 = self.limit - self.cursor try: # call undouble, line 89 if not self.r_undouble(): raise lab4() except lab4: pass self.cursor = self.limit - v_5 self.cursor = self.limit_backward return True def equals(self, o): return isinstance(o, DanishStemmer) def hashCode(self): return hash("DanishStemmer") class lab0(BaseException): pass class lab1(BaseException): pass class lab2(BaseException): pass class lab3(BaseException): pass class lab4(BaseException): pass