# Generated by Snowball 2.0.0 - https://snowballstem.org/ from .basestemmer import BaseStemmer from .among import Among class DutchStemmer(BaseStemmer): ''' This class implements the stemming algorithm defined by a snowball script. Generated by Snowball 2.0.0 - https://snowballstem.org/ ''' a_0 = [ Among(u"", -1, 6), Among(u"\u00E1", 0, 1), Among(u"\u00E4", 0, 1), Among(u"\u00E9", 0, 2), Among(u"\u00EB", 0, 2), Among(u"\u00ED", 0, 3), Among(u"\u00EF", 0, 3), Among(u"\u00F3", 0, 4), Among(u"\u00F6", 0, 4), Among(u"\u00FA", 0, 5), Among(u"\u00FC", 0, 5) ] a_1 = [ Among(u"", -1, 3), Among(u"I", 0, 2), Among(u"Y", 0, 1) ] a_2 = [ Among(u"dd", -1, -1), Among(u"kk", -1, -1), Among(u"tt", -1, -1) ] a_3 = [ Among(u"ene", -1, 2), Among(u"se", -1, 3), Among(u"en", -1, 2), Among(u"heden", 2, 1), Among(u"s", -1, 3) ] a_4 = [ Among(u"end", -1, 1), Among(u"ig", -1, 2), Among(u"ing", -1, 1), Among(u"lijk", -1, 3), Among(u"baar", -1, 4), Among(u"bar", -1, 5) ] a_5 = [ Among(u"aa", -1, -1), Among(u"ee", -1, -1), Among(u"oo", -1, -1), Among(u"uu", -1, -1) ] g_v = [17, 65, 16, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 128] g_v_I = [1, 0, 0, 17, 65, 16, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 128] g_v_j = [17, 67, 16, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 128] I_p2 = 0 I_p1 = 0 B_e_found = False def __r_prelude(self): # (, line 41 # test, line 42 v_1 = self.cursor # repeat, line 42 while True: v_2 = self.cursor try: # (, line 42 # [, line 43 self.bra = self.cursor # substring, line 43 among_var = self.find_among(DutchStemmer.a_0) if among_var == 0: raise lab0() # ], line 43 self.ket = self.cursor if among_var == 1: # (, line 45 # <-, line 45 if not self.slice_from(u"a"): return False elif among_var == 2: # (, line 47 # <-, line 47 if not self.slice_from(u"e"): return False elif among_var == 3: # (, line 49 # <-, line 49 if not self.slice_from(u"i"): return False elif among_var == 4: # (, line 51 # <-, line 51 if not self.slice_from(u"o"): return False elif among_var == 5: # (, line 53 # <-, line 53 if not self.slice_from(u"u"): return False elif among_var == 6: # (, line 54 # next, line 54 if self.cursor >= self.limit: raise lab0() self.cursor += 1 continue except lab0: pass self.cursor = v_2 break self.cursor = v_1 # try, line 57 v_3 = self.cursor try: # (, line 57 # [, line 57 self.bra = self.cursor # literal, line 57 if not self.eq_s(u"y"): self.cursor = v_3 raise lab1() # ], line 57 self.ket = self.cursor # <-, line 57 if not self.slice_from(u"Y"): return False except lab1: pass # repeat, line 58 while True: v_4 = self.cursor try: # goto, line 58 try: while True: v_5 = self.cursor try: # (, line 58 if not self.in_grouping(DutchStemmer.g_v, 97, 232): raise lab4() # [, line 59 self.bra = self.cursor # or, line 59 try: v_6 = self.cursor try: # (, line 59 # literal, line 59 if not self.eq_s(u"i"): raise lab6() # ], line 59 self.ket = self.cursor if not self.in_grouping(DutchStemmer.g_v, 97, 232): raise lab6() # <-, line 59 if not self.slice_from(u"I"): return False raise lab5() except lab6: pass self.cursor = v_6 # (, line 60 # literal, line 60 if not self.eq_s(u"y"): raise lab4() # ], line 60 self.ket = self.cursor # <-, line 60 if not self.slice_from(u"Y"): return False except lab5: pass self.cursor = v_5 raise lab3() except lab4: pass self.cursor = v_5 if self.cursor >= self.limit: raise lab2() self.cursor += 1 except lab3: pass continue except lab2: pass self.cursor = v_4 break return True def __r_mark_regions(self): # (, line 64 self.I_p1 = self.limit self.I_p2 = self.limit # gopast grouping v, line 69 if not self.go_out_grouping(DutchStemmer.g_v, 97, 232): return False self.cursor += 1 # gopast non v, line 69 if not self.go_in_grouping(DutchStemmer.g_v, 97, 232): return False self.cursor += 1 # setmark p1, line 69 self.I_p1 = self.cursor # try, line 70 try: # (, line 70 if not self.I_p1 < 3: raise lab0() self.I_p1 = 3 except lab0: pass # gopast grouping v, line 71 if not self.go_out_grouping(DutchStemmer.g_v, 97, 232): return False self.cursor += 1 # gopast non v, line 71 if not self.go_in_grouping(DutchStemmer.g_v, 97, 232): return False self.cursor += 1 # setmark p2, line 71 self.I_p2 = self.cursor return True def __r_postlude(self): # repeat, line 75 while True: v_1 = self.cursor try: # (, line 75 # [, line 77 self.bra = self.cursor # substring, line 77 among_var = self.find_among(DutchStemmer.a_1) if among_var == 0: raise lab0() # ], line 77 self.ket = self.cursor if among_var == 1: # (, line 78 # <-, line 78 if not self.slice_from(u"y"): return False elif among_var == 2: # (, line 79 # <-, line 79 if not self.slice_from(u"i"): return False elif among_var == 3: # (, line 80 # next, line 80 if self.cursor >= self.limit: raise lab0() self.cursor += 1 continue except lab0: pass self.cursor = v_1 break return True def __r_R1(self): if not self.I_p1 <= self.cursor: return False return True def __r_R2(self): if not self.I_p2 <= self.cursor: return False return True def __r_undouble(self): # (, line 90 # test, line 91 v_1 = self.limit - self.cursor # among, line 91 if self.find_among_b(DutchStemmer.a_2) == 0: return False self.cursor = self.limit - v_1 # [, line 91 self.ket = self.cursor # next, line 91 if self.cursor <= self.limit_backward: return False self.cursor -= 1 # ], line 91 self.bra = self.cursor # delete, line 91 if not self.slice_del(): return False return True def __r_e_ending(self): # (, line 94 # unset e_found, line 95 self.B_e_found = False # [, line 96 self.ket = self.cursor # literal, line 96 if not self.eq_s_b(u"e"): return False # ], line 96 self.bra = self.cursor # call R1, line 96 if not self.__r_R1(): return False # test, line 96 v_1 = self.limit - self.cursor if not self.out_grouping_b(DutchStemmer.g_v, 97, 232): return False self.cursor = self.limit - v_1 # delete, line 96 if not self.slice_del(): return False # set e_found, line 97 self.B_e_found = True # call undouble, line 98 if not self.__r_undouble(): return False return True def __r_en_ending(self): # (, line 101 # call R1, line 102 if not self.__r_R1(): return False # and, line 102 v_1 = self.limit - self.cursor if not self.out_grouping_b(DutchStemmer.g_v, 97, 232): return False self.cursor = self.limit - v_1 # not, line 102 v_2 = self.limit - self.cursor try: # literal, line 102 if not self.eq_s_b(u"gem"): raise lab0() return False except lab0: pass self.cursor = self.limit - v_2 # delete, line 102 if not self.slice_del(): return False # call undouble, line 103 if not self.__r_undouble(): return False return True def __r_standard_suffix(self): # (, line 106 # do, line 107 v_1 = self.limit - self.cursor try: # (, line 107 # [, line 108 self.ket = self.cursor # substring, line 108 among_var = self.find_among_b(DutchStemmer.a_3) if among_var == 0: raise lab0() # ], line 108 self.bra = self.cursor if among_var == 1: # (, line 110 # call R1, line 110 if not self.__r_R1(): raise lab0() # <-, line 110 if not self.slice_from(u"heid"): return False elif among_var == 2: # (, line 113 # call en_ending, line 113 if not self.__r_en_ending(): raise lab0() elif among_var == 3: # (, line 116 # call R1, line 116 if not self.__r_R1(): raise lab0() if not self.out_grouping_b(DutchStemmer.g_v_j, 97, 232): raise lab0() # delete, line 116 if not self.slice_del(): return False except lab0: pass self.cursor = self.limit - v_1 # do, line 120 v_2 = self.limit - self.cursor # call e_ending, line 120 self.__r_e_ending() self.cursor = self.limit - v_2 # do, line 122 v_3 = self.limit - self.cursor try: # (, line 122 # [, line 122 self.ket = self.cursor # literal, line 122 if not self.eq_s_b(u"heid"): raise lab1() # ], line 122 self.bra = self.cursor # call R2, line 122 if not self.__r_R2(): raise lab1() # not, line 122 v_4 = self.limit - self.cursor try: # literal, line 122 if not self.eq_s_b(u"c"): raise lab2() raise lab1() except lab2: pass self.cursor = self.limit - v_4 # delete, line 122 if not self.slice_del(): return False # [, line 123 self.ket = self.cursor # literal, line 123 if not self.eq_s_b(u"en"): raise lab1() # ], line 123 self.bra = self.cursor # call en_ending, line 123 if not self.__r_en_ending(): raise lab1() except lab1: pass self.cursor = self.limit - v_3 # do, line 126 v_5 = self.limit - self.cursor try: # (, line 126 # [, line 127 self.ket = self.cursor # substring, line 127 among_var = self.find_among_b(DutchStemmer.a_4) if among_var == 0: raise lab3() # ], line 127 self.bra = self.cursor if among_var == 1: # (, line 129 # call R2, line 129 if not self.__r_R2(): raise lab3() # delete, line 129 if not self.slice_del(): return False # or, line 130 try: v_6 = self.limit - self.cursor try: # (, line 130 # [, line 130 self.ket = self.cursor # literal, line 130 if not self.eq_s_b(u"ig"): raise lab5() # ], line 130 self.bra = self.cursor # call R2, line 130 if not self.__r_R2(): raise lab5() # not, line 130 v_7 = self.limit - self.cursor try: # literal, line 130 if not self.eq_s_b(u"e"): raise lab6() raise lab5() except lab6: pass self.cursor = self.limit - v_7 # delete, line 130 if not self.slice_del(): return False raise lab4() except lab5: pass self.cursor = self.limit - v_6 # call undouble, line 130 if not self.__r_undouble(): raise lab3() except lab4: pass elif among_var == 2: # (, line 133 # call R2, line 133 if not self.__r_R2(): raise lab3() # not, line 133 v_8 = self.limit - self.cursor try: # literal, line 133 if not self.eq_s_b(u"e"): raise lab7() raise lab3() except lab7: pass self.cursor = self.limit - v_8 # delete, line 133 if not self.slice_del(): return False elif among_var == 3: # (, line 136 # call R2, line 136 if not self.__r_R2(): raise lab3() # delete, line 136 if not self.slice_del(): return False # call e_ending, line 136 if not self.__r_e_ending(): raise lab3() elif among_var == 4: # (, line 139 # call R2, line 139 if not self.__r_R2(): raise lab3() # delete, line 139 if not self.slice_del(): return False elif among_var == 5: # (, line 142 # call R2, line 142 if not self.__r_R2(): raise lab3() # Boolean test e_found, line 142 if not self.B_e_found: raise lab3() # delete, line 142 if not self.slice_del(): return False except lab3: pass self.cursor = self.limit - v_5 # do, line 146 v_9 = self.limit - self.cursor try: # (, line 146 if not self.out_grouping_b(DutchStemmer.g_v_I, 73, 232): raise lab8() # test, line 148 v_10 = self.limit - self.cursor # (, line 148 # among, line 149 if self.find_among_b(DutchStemmer.a_5) == 0: raise lab8() if not self.out_grouping_b(DutchStemmer.g_v, 97, 232): raise lab8() self.cursor = self.limit - v_10 # [, line 152 self.ket = self.cursor # next, line 152 if self.cursor <= self.limit_backward: raise lab8() self.cursor -= 1 # ], line 152 self.bra = self.cursor # delete, line 152 if not self.slice_del(): return False except lab8: pass self.cursor = self.limit - v_9 return True def _stem(self): # (, line 157 # do, line 159 v_1 = self.cursor # call prelude, line 159 self.__r_prelude() self.cursor = v_1 # do, line 160 v_2 = self.cursor # call mark_regions, line 160 self.__r_mark_regions() self.cursor = v_2 # backwards, line 161 self.limit_backward = self.cursor self.cursor = self.limit # do, line 162 # call standard_suffix, line 162 self.__r_standard_suffix() self.cursor = self.limit_backward # do, line 163 v_4 = self.cursor # call postlude, line 163 self.__r_postlude() self.cursor = v_4 return True class lab0(BaseException): pass class lab1(BaseException): pass class lab2(BaseException): pass class lab3(BaseException): pass class lab4(BaseException): pass class lab5(BaseException): pass class lab6(BaseException): pass class lab7(BaseException): pass class lab8(BaseException): pass