f1e63dc6d851c6ea924f9e76b5a3904ce3fff676
3 isl format: basic set: ("{[x, y] : x >= 0 and x < 5 and y >= 0 and y < x+4 }")
6 import ctypes
, ctypes
.util
14 from decimal
import Decimal
15 from fractions
import Fraction
16 from functools
import wraps
18 libisl
= ctypes
.CDLL(ctypes
.util
.find_library('isl'))
20 libisl
.isl_printer_get_str
.restype
= ctypes
.c_char_p
22 def _polymorphic_method(func
):
23 @functools.wraps(func
)
24 def wrapper(self
, other
):
25 if isinstance(other
, Value
):
26 return func(self
, other
)
27 if isinstance(other
, numbers
.Rational
):
28 other
= Value(self
.context
, other
)
29 return func(self
, other
)
30 raise TypeError('operand should be a Value or a Rational')
38 self
._ic
= libisl
.isl_ctx_alloc()
41 def _as_parameter_(self
):
44 #comment out so does not delete itself after being created
46 # libisl.isl_ctx_free(self)
48 def __eq__(self
, other
):
49 if not isinstance(other
, Context
):
51 return self
._ic
== other
._ic
58 return super().__new
__(cls
, iv
)
60 return '{}({})'.format(self
.__class
__.__name
__, self
)
62 _RE_NONFINITE
= re
.compile(
63 r
'^\s*(?P<sign>[-+])?((?P<inf>Inf(inity)?)|(?P<nan>NaN))\s*$',
66 _RE_FRACTION
= re
.compile(r
'^(?P<num>[-+]?\d+)(/(?P<den>\d+))?$')
68 __slots__
= ('context', '_iv', '_numerator', '_denominator')
70 def __new__(cls
, context
, numerator
=0, denominator
=None):
71 self
= super().__new
__(cls
)
72 if not isinstance(context
, Context
):
73 raise TypeError('first argument should be a context')
74 self
.context
= context
75 if isinstance(numerator
, cls
._ptr
):
76 assert denominator
is None
78 if libisl
.isl_val_is_rat(self
):
79 # retrieve numerator and denominator as strings to avoid integer
81 ip
= libisl
.isl_printer_to_str(self
.context
)
82 ip
= libisl
.isl_printer_print_val(ip
, self
)
83 string
= libisl
.isl_printer_get_str(ip
).decode()
84 libisl
.isl_printer_free(ip
)
85 m
= self
._RE
_FRACTION
.match(string
)
87 self
._numerator
= int(m
.group('num'))
88 self
._denominator
= int(m
.group('den')) if m
.group('den') else 1
90 self
._numerator
= None
91 self
._denominator
= None
93 if isinstance(numerator
, str) and denominator
is None:
94 m
= self
._RE
_NONFINITE
.match(numerator
)
96 self
._numerator
= None
97 self
._denominator
= None
99 if m
.group('sign') == '-':
100 self
._iv
= libisl
.isl_val_neginfty(context
)
102 self
._iv
= libisl
.isl_val_infty(context
)
104 assert m
.group('nan')
105 self
._iv
= libisl
.isl_val_nan(context
)
108 frac
= Fraction(numerator
, denominator
)
110 raise ValueError('invalid literal for {}: {!r}'.format(
111 cls
.__name
__, numerator
))
112 self
._numerator
= frac
.numerator
113 self
._denominator
= frac
.denominator
114 # values passed as strings to avoid integer overflows
115 if frac
.denominator
== 1:
116 numerator
= str(frac
.numerator
).encode()
117 self
._iv
= libisl
.isl_val_read_from_str(context
, numerator
)
119 numerator
= str(frac
.numerator
).encode()
120 numerator
= libisl
.isl_val_read_from_str(context
, numerator
)
121 denominator
= str(frac
.denominator
).encode()
122 denominator
= libisl
.isl_val_read_from_str(context
, denominator
)
123 self
._iv
= libisl
.isl_val_div(numerator
, denominator
)
128 def _as_parameter_(self
):
133 for constraint
in self
.constraints():
134 s
.update(constraint
.symbols
)
138 libisl
.isl_val_free(self
)
139 self
.context
# prevents context from being GC'ed before the value
143 if self
._numerator
is None:
144 raise ValueError('not a rational number')
145 return self
._numerator
148 def denominator(self
):
149 if self
._denominator
is None:
150 raise ValueError('not a rational number')
151 return self
._denominator
154 return not bool(libisl
.isl_val_is_zero(self
))
157 def __lt__(self
, other
):
158 return bool(libisl
.isl_val_lt(self
, other
))
161 def __le__(self
, other
):
162 return bool(libisl
.isl_val_le(self
, other
))
165 def __gt__(self
, other
):
166 return bool(libisl
.isl_val_gt(self
, other
))
169 def __ge__(self
, other
):
170 return bool(libisl
.isl_val_ge(self
, other
))
173 def __eq__(self
, other
):
174 return bool(libisl
.isl_val_eq(self
, other
))
176 # __ne__ is not implemented, ISL semantics does not match Python's on
180 val
= libisl
.isl_val_copy(self
)
181 val
= libisl
.isl_val_abs(val
)
182 return self
.__class
__(self
.context
, self
._ptr
(val
))
188 val
= libisl
.isl_val_copy(self
)
189 val
= libisl
.isl_val_neg(val
)
190 return self
.__class
__(self
.context
, self
._ptr
(val
))
193 val
= libisl
.isl_val_copy(self
)
194 val
= libisl
.isl_val_floor(val
)
195 return self
.__class
__(self
.context
, self
._ptr
(val
))
198 val
= libisl
.isl_val_copy(self
)
199 val
= libisl
.isl_val_ceil(val
)
200 return self
.__class
__(self
.context
, self
._ptr
(val
))
203 val
= libisl
.isl_val_copy(self
)
204 val
= libisl
.isl_val_trunc(val
)
205 return self
.__class
__(self
.context
, self
._ptr
(val
))
208 def __add__(self
, other
):
209 val1
= libisl
.isl_val_copy(self
)
210 val2
= libisl
.isl_val_copy(other
)
211 val
= libisl
.isl_val_add(val1
, val2
)
212 return self
.__class
__(self
.context
, self
._ptr
(val
))
217 def __sub__(self
, other
):
218 val1
= libisl
.isl_val_copy(self
)
219 val2
= libisl
.isl_val_copy(other
)
220 val
= libisl
.isl_val_sub(val1
, val2
)
221 return self
.__class
__(self
.context
, self
._ptr
(val
))
226 def __mul__(self
, other
):
227 val1
= libisl
.isl_val_copy(self
)
228 val2
= libisl
.isl_val_copy(other
)
229 val
= libisl
.isl_val_mul(val1
, val2
)
230 return self
.__class
__(self
.context
, self
._ptr
(val
))
235 def __truediv__(self
, other
):
236 val1
= libisl
.isl_val_copy(self
)
237 val2
= libisl
.isl_val_copy(other
)
238 val
= libisl
.isl_val_div(val1
, val2
)
239 return self
.__class
__(self
.context
, self
._ptr
(val
))
241 __rtruediv__
= __truediv__
244 if libisl
.isl_val_is_rat(self
):
245 return self
.numerator
/ self
.denominator
246 elif libisl
.isl_val_is_infty(self
):
248 elif libisl
.isl_val_is_neginfty(self
):
251 assert libisl
.isl_val_is_nan(self
)
255 return bool(libisl
.isl_val_is_rat(self
))
257 def is_infinite(self
):
258 return bool(libisl
.isl_val_is_infty(self
) or
259 libisl
.isl_val_is_neginfty(self
))
262 return bool(libisl
.isl_val_is_nan(self
))
265 if libisl
.isl_val_is_rat(self
):
266 if self
.denominator
== 1:
267 return '{}'.format(self
.numerator
)
269 return '{}/{}'.format(self
.numerator
, self
.denominator
)
270 elif libisl
.isl_val_is_infty(self
):
272 elif libisl
.isl_val_is_neginfty(self
):
275 assert libisl
.isl_val_is_nan(self
)
279 return '{}({!r})'.format(self
.__class
__.__name
__, str(self
))