fd588b743ed4243e1597c190f89139a139ee67d8
3 from . import islhelper
5 from .islhelper
import mainctx
, libisl
, isl_set_basic_sets
14 @functools.total_ordering
23 def __new__(cls
, *polyhedra
):
24 from .polyhedra
import Polyhedron
25 if len(polyhedra
) == 1:
26 polyhedron
= polyhedra
[0]
27 if isinstance(polyhedron
, str):
28 return cls
.fromstring(polyhedron
)
29 elif isinstance(polyhedron
, Polyhedron
):
32 raise TypeError('argument must be a string '
33 'or a Polyhedron instance')
35 for polyhedron
in polyhedra
:
36 if not isinstance(polyhedron
, Polyhedron
):
37 raise TypeError('arguments must be Polyhedron instances')
38 symbols
= cls
._xsymbols
(polyhedra
)
39 islset
= cls
._toislset
(polyhedra
, symbols
)
40 return cls
._fromislset
(islset
, symbols
)
43 def _xsymbols(cls
, iterator
):
45 Return the ordered tuple of symbols present in iterator.
49 symbols
.update(item
.symbols
)
50 return tuple(sorted(symbols
))
54 return self
._polyhedra
62 return self
._dimension
65 islset
= self
._toislset
(self
.polyhedra
, self
.symbols
)
66 islset
= libisl
.isl_set_make_disjoint(mainctx
, islset
)
67 return self
._fromislset
(islset
, self
.symbols
)
70 islset
= self
._toislset
(self
.polyhedra
, self
.symbols
)
71 empty
= bool(libisl
.isl_set_is_empty(islset
))
72 libisl
.isl_set_free(islset
)
76 return not self
.isempty()
79 islset
= self
._toislset
(self
.polyhedra
, self
.symbols
)
80 universe
= bool(libisl
.isl_set_plain_is_universe(islset
))
81 libisl
.isl_set_free(islset
)
84 def __eq__(self
, other
):
85 symbols
= self
._xsymbols
([self
, other
])
86 islset1
= self
._toislset
(self
.polyhedra
, symbols
)
87 islset2
= other
._toislset
(other
.polyhedra
, symbols
)
88 equal
= bool(libisl
.isl_set_is_equal(islset1
, islset2
))
89 libisl
.isl_set_free(islset1
)
90 libisl
.isl_set_free(islset2
)
93 def isdisjoint(self
, other
):
94 symbols
= self
._xsymbols
([self
, other
])
95 islset1
= self
._toislset
(self
.polyhedra
, symbols
)
96 islset2
= self
._toislset
(other
.polyhedra
, symbols
)
97 equal
= bool(libisl
.isl_set_is_disjoint(islset1
, islset2
))
98 libisl
.isl_set_free(islset1
)
99 libisl
.isl_set_free(islset2
)
102 def issubset(self
, other
):
103 symbols
= self
._xsymbols
([self
, other
])
104 islset1
= self
._toislset
(self
.polyhedra
, symbols
)
105 islset2
= self
._toislset
(other
.polyhedra
, symbols
)
106 equal
= bool(libisl
.isl_set_is_subset(islset1
, islset2
))
107 libisl
.isl_set_free(islset1
)
108 libisl
.isl_set_free(islset2
)
111 def __le__(self
, other
):
112 return self
.issubset(other
)
114 def __lt__(self
, other
):
115 symbols
= self
._xsymbols
([self
, other
])
116 islset1
= self
._toislset
(self
.polyhedra
, symbols
)
117 islset2
= self
._toislset
(other
.polyhedra
, symbols
)
118 equal
= bool(libisl
.isl_set_is_strict_subset(islset1
, islset2
))
119 libisl
.isl_set_free(islset1
)
120 libisl
.isl_set_free(islset2
)
123 def complement(self
):
124 islset
= self
._toislset
(self
.polyhedra
, self
.symbols
)
125 islset
= libisl
.isl_set_complement(islset
)
126 return self
._fromislset
(islset
, self
.symbols
)
128 def __invert__(self
):
129 return self
.complement()
132 # see isl_set_coalesce, isl_set_detect_equalities,
133 # isl_set_remove_redundancies
134 # which ones? in which order?
135 raise NotImplementedError
137 def polyhedral_hull(self
):
138 # several types of hull are available
139 # polyhedral seems to be the more appropriate, to be checked
140 from .polyhedra
import Polyhedron
141 islset
= self
._toislset
(self
.polyhedra
, self
.symbols
)
142 islbset
= libisl
.isl_set_polyhedral_hull(islset
)
143 return Polyhedron
._fromislbasicset
(islbset
, self
.symbols
)
145 def project(self
, symbols
):
146 # not sure what isl_set_project_out actually does…
147 # use isl_set_drop_constraints_involving_dims instead?
148 raise NotImplementedError
151 from .polyhedra
import Polyhedron
152 islset
= self
._toislset
(self
.polyhedra
, self
.symbols
)
153 islbset
= libisl
.isl_set_sample(islset
)
154 return Polyhedron
._fromislbasicset
(islbset
, self
.symbols
)
156 def intersection(self
, *others
):
159 symbols
= self
._xsymbols
((self
,) + others
)
160 islset1
= self
._toislset
(self
.polyhedra
, symbols
)
162 islset2
= other
._toislset
(other
.polyhedra
, symbols
)
163 islset1
= libisl
.isl_set_intersect(islset1
, islset2
)
164 return self
._fromislset
(islset1
, symbols
)
166 def __and__(self
, other
):
167 return self
.intersection(other
)
169 def union(self
, *others
):
172 symbols
= self
._xsymbols
((self
,) + others
)
173 islset1
= self
._toislset
(self
.polyhedra
, symbols
)
175 islset2
= other
._toislset
(other
.polyhedra
, symbols
)
176 islset1
= libisl
.isl_set_union(islset1
, islset2
)
177 return self
._fromislset
(islset1
, symbols
)
179 def __or__(self
, other
):
180 return self
.union(other
)
182 def __add__(self
, other
):
183 return self
.union(other
)
185 def difference(self
, other
):
186 symbols
= self
._xsymbols
([self
, other
])
187 islset1
= self
._toislset
(self
.polyhedra
, symbols
)
188 islset2
= other
._toislset
(other
.polyhedra
, symbols
)
189 islset
= libisl
.isl_set_subtract(islset1
, islset2
)
190 return self
._fromislset
(islset
, symbols
)
192 def __sub__(self
, other
):
193 return self
.difference(other
)
196 islset
= self
._toislset
(self
.polyhedra
, self
.symbols
)
197 islset
= libisl
.isl_set_lexmin(islset
)
198 return self
._fromislset
(islset
, self
.symbols
)
201 islset
= self
._toislset
(self
.polyhedra
, self
.symbols
)
202 islset
= libisl
.isl_set_lexmax(islset
)
203 return self
._fromislset
(islset
, self
.symbols
)
206 def _fromislset(cls
, islset
, symbols
):
207 from .polyhedra
import Polyhedron
208 islset
= libisl
.isl_set_remove_divs(islset
)
209 islbsets
= isl_set_basic_sets(islset
)
210 libisl
.isl_set_free(islset
)
212 for islbset
in islbsets
:
213 polyhedron
= Polyhedron
._fromislbasicset
(islbset
, symbols
)
214 polyhedra
.append(polyhedron
)
215 if len(polyhedra
) == 0:
216 from .polyhedra
import Empty
218 elif len(polyhedra
) == 1:
221 self
= object().__new
__(Domain
)
222 self
._polyhedra
= tuple(polyhedra
)
223 self
._symbols
= cls
._xsymbols
(polyhedra
)
224 self
._dimension
= len(self
._symbols
)
227 def _toislset(cls
, polyhedra
, symbols
):
228 polyhedron
= polyhedra
[0]
229 islbset
= polyhedron
._toislbasicset
(polyhedron
.equalities
,
230 polyhedron
.inequalities
, symbols
)
231 islset1
= libisl
.isl_set_from_basic_set(islbset
)
232 for polyhedron
in polyhedra
[1:]:
233 islbset
= polyhedron
._toislbasicset
(polyhedron
.equalities
,
234 polyhedron
.inequalities
, symbols
)
235 islset2
= libisl
.isl_set_from_basic_set(islbset
)
236 islset1
= libisl
.isl_set_union(islset1
, islset2
)
240 def fromstring(cls
, string
):
241 raise NotImplementedError
244 assert len(self
.polyhedra
) >= 2
245 strings
= [repr(polyhedron
) for polyhedron
in self
.polyhedra
]
246 return 'Or({})'.format(', '.join(strings
))
249 def fromsympy(cls
, expr
):
250 raise NotImplementedError
253 raise NotImplementedError
257 if len(domains
) == 0:
258 from .polyhedra
import Universe
261 return domains
[0].intersection(*domains
[1:])
264 if len(domains
) == 0:
265 from .polyhedra
import Empty
268 return domains
[0].union(*domains
[1:])