1 #!/usr/bin/env python 2 3 """ 4 Integer objects. 5 6 Copyright (C) 2015, 2016, 2017, 2018 Paul Boddie <paul@boddie.org.uk> 7 8 This program is free software; you can redistribute it and/or modify it under 9 the terms of the GNU General Public License as published by the Free Software 10 Foundation; either version 3 of the License, or (at your option) any later 11 version. 12 13 This program is distributed in the hope that it will be useful, but WITHOUT 14 ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS 15 FOR A PARTICULAR PURPOSE. See the GNU General Public License for more 16 details. 17 18 You should have received a copy of the GNU General Public License along with 19 this program. If not, see <http://www.gnu.org/licenses/>. 20 """ 21 22 from __builtins__.unicode import utf8string 23 from native import get_maxint, get_minint, is_int, \ 24 int_add, int_and, int_div, int_eq, int_ge, int_gt, \ 25 int_lshift, int_le, int_lt, int_mod, int_mul, int_ne, \ 26 int_neg, int_not, int_or, int_pow, int_rshift, int_str, \ 27 int_sub, int_xor 28 29 class int: 30 31 "An integer abstraction." 32 33 def __init__(self, number_or_string=None): 34 35 "Initialise the integer with the given 'number_or_string'." 36 37 # NOTE: To be implemented. 38 39 pass 40 41 def __hash__(self): 42 43 "Return a value for hashing purposes." 44 45 return self 46 47 def _binary_op(self, op, other): 48 49 "Perform 'op' on this int and 'other' if appropriate." 50 51 if is_int(other): 52 return op(self, other) 53 else: 54 return NotImplemented 55 56 def _binary_op_rev(self, op, other): 57 58 "Perform 'op' on 'other' and this int if appropriate." 59 60 if is_int(other): 61 return op(other, self) 62 else: 63 return NotImplemented 64 65 def __iadd__(self, other): 66 67 "Return a new int for the addition of this int and 'other'." 68 69 return self._binary_op(int_add, other) 70 71 def __isub__(self, other): 72 73 "Return a new int for the subtraction of this int and 'other'." 74 75 return self._binary_op(int_sub, other) 76 77 def __imul__(self, other): 78 79 "Return a new int for the multiplication of this int and 'other'." 80 81 return self._binary_op(int_mul, other) 82 83 def __idiv__(self, other): 84 85 "Return a new int for the division of this int and 'other'." 86 87 return self._binary_op(int_div, other) 88 89 def __imod__(self, other): 90 91 "Return a new int for the modulo of this int by 'other'." 92 93 return self._binary_op(int_mod, other) 94 95 def __ipow__(self, other): 96 97 "Return a new int for the exponentiation of this int by 'other'." 98 99 return self._binary_op(int_pow, other) 100 101 def __iand__(self, other): 102 103 "Return a new int for the binary-and of this int and 'other'." 104 105 return self._binary_op(int_and, other) 106 107 def __ior__(self, other): 108 109 "Return a new int for the binary-or of this int and 'other'." 110 111 return self._binary_op(int_or, other) 112 113 def __ixor__(self, other): 114 115 "Return a new int for the exclusive-or of this int and 'other'." 116 117 return self._binary_op(int_xor, other) 118 119 def __invert__(self): 120 121 "Return the inversion of this int." 122 123 return int_not(self) 124 125 __add__ = __radd__ = __iadd__ 126 __sub__ = __isub__ 127 128 def __rsub__(self, other): 129 130 "Return a new int for the subtraction of this int from 'other'." 131 132 return self._binary_op_rev(int_sub, other) 133 134 __mul__ = __rmul__ = __imul__ 135 __div__ = __idiv__ 136 137 def __rdiv__(self, other): 138 139 "Return a new int for the division of this int into 'other'." 140 141 return self._binary_op_rev(int_div, other) 142 143 # NOTE: To be implemented. 144 145 def __floordiv__(self, other): pass 146 def __rfloordiv__(self, other): pass 147 def __ifloordiv__(self, other): pass 148 149 __mod__ = __imod__ 150 151 def __rmod__(self, other): 152 153 "Return a new int for the modulo of 'other' by this int." 154 155 return self._binary_op_rev(int_mod, other) 156 157 __pow__ = __ipow__ 158 159 def __rpow__(self, other): 160 161 "Return a new int for the exponentiation of 'other' by this int." 162 163 return self._binary_op_rev(int_pow, other) 164 165 __and__ = __rand__ = __iand__ 166 __or__ = __ror__ = __ior__ 167 __xor__ = __rxor__ = __ixor__ 168 169 def __lshift__(self, other): 170 171 "Return a new int left-shifted by 'other'." 172 173 return self._binary_op(int_lshift, other) 174 175 def __rlshift__(self, other): 176 177 "Return a new int left-shifted by 'other'." 178 179 return self._binary_op_rev(int_lshift, other) 180 181 def __rshift__(self, other): 182 183 "Return a new int right-shifted by 'other'." 184 185 return self._binary_op(int_rshift, other) 186 187 def __rrshift__(self, other): 188 189 "Return a new int right-shifted by 'other'." 190 191 return self._binary_op_rev(int_rshift, other) 192 193 __ilshift__ = __lshift__ 194 __irshift__ = __rshift__ 195 196 def __lt__(self, other): 197 198 "Return whether this int is less than 'other'." 199 200 return self._binary_op(int_lt, other) 201 202 def __gt__(self, other): 203 204 "Return whether this int is greater than 'other'." 205 206 return self._binary_op(int_gt, other) 207 208 def __le__(self, other): 209 210 "Return whether this int is less than or equal to 'other'." 211 212 return self._binary_op(int_le, other) 213 214 def __ge__(self, other): 215 216 "Return whether this int is greater than or equal to 'other'." 217 218 return self._binary_op(int_ge, other) 219 220 def __eq__(self, other): 221 222 "Return whether this int is equal to 'other'." 223 224 return self._binary_op(int_eq, other) 225 226 def __ne__(self, other): 227 228 "Return whether this int is not equal to 'other'." 229 230 return self._binary_op(int_ne, other) 231 232 def __neg__(self): 233 234 "Apply the unary negation operator." 235 236 return int_neg(self) 237 238 def __pos__(self): 239 240 "Apply the unary positive operator." 241 242 return self 243 244 def __str__(self): 245 246 "Return a string representation." 247 248 return utf8string(int_str(self)) 249 250 __repr__ = __str__ 251 252 def __bool__(self): 253 254 "Return whether this int is non-zero." 255 256 return int_ne(self, 0) 257 258 # Limits. 259 260 maxint = get_maxint() 261 minint = get_minint() 262 263 # vim: tabstop=4 expandtab shiftwidth=4