from . import islhelper
from .islhelper import mainctx, libisl, isl_set_basic_sets
-from .linexprs import Expression
+from .linexprs import Expression, Symbol
__all__ = [
symbols = set()
for item in iterator:
symbols.update(item.symbols)
- return tuple(sorted(symbols, key=lambda symbol: symbol.name))
+ return tuple(sorted(symbols, key=Symbol.sortkey))
@property
def polyhedra(self):
islbset = libisl.isl_set_polyhedral_hull(islset)
return Polyhedron._fromislbasicset(islbset, self.symbols)
- def project_out(self, symbols):
+ def project_out(self, dims):
# use to remove certain variables
islset = self._toislset(self.polyhedra, self.symbols)
n = 0
for index, symbol in reversed(list(enumerate(self.symbols))):
- if symbol in symbols:
+ if symbol in dims:
n += 1
elif n > 0:
islset = libisl.isl_set_project_out(islset, libisl.isl_dim_set, index + 1, n)
n = 0
if n > 0:
islset = libisl.isl_set_project_out(islset, libisl.isl_dim_set, 0, n)
- symbols = [symbol for symbol in self.symbols if symbol not in symbols]
- return Domain._fromislset(islset, symbols)
+ dims = [symbol for symbol in self.symbols if symbol not in dims]
+ return Domain._fromislset(islset, dims)
def sample(self):
from .polyhedra import Polyhedron
islset = self._toislset(self.polyhedra, self.symbols)
islbset = libisl.isl_set_sample(islset)
+ # next instruction should NOT be required
+ islbset = libisl.isl_basic_set_finalize(islbset)
return Polyhedron._fromislbasicset(islbset, self.symbols)
def intersection(self, *others):
islset = libisl.isl_set_lexmax(islset)
return self._fromislset(islset, self.symbols)
+ def num_parameters(self):
+ #could be useful with large, complicated polyhedrons
+ islbset = self._toislbasicset(self.equalities, self.inequalities, self.symbols)
+ num = libisl.isl_basic_set_dim(islbset, libisl.isl_dim_set)
+ return num
+
+ def involves_dims(self, dims):
+ #could be useful with large, complicated polyhedrons
+ islset = self._toislset(self.polyhedra, self.symbols)
+ dims = sorted(dims)
+ symbols = sorted(list(self.symbols))
+ n = 0
+ if len(dims)>0:
+ for dim in dims:
+ if dim in symbols:
+ first = symbols.index(dims[0])
+ n +=1
+ else:
+ first = 0
+ else:
+ return False
+ value = bool(libisl.isl_set_involves_dims(islset, libisl.isl_dim_set, first, n))
+ libisl.isl_set_free(islset)
+ return value
+
@classmethod
def _fromislset(cls, islset, symbols):
from .polyhedra import Polyhedron
@classmethod
def fromsympy(cls, expr):
- raise NotImplementedError
+ import sympy
+ from .polyhedra import Lt, Le, Eq, Ne, Ge, Gt
+ funcmap = {
+ sympy.And: And, sympy.Or: Or, sympy.Not: Not,
+ sympy.Lt: Lt, sympy.Le: Le,
+ sympy.Eq: Eq, sympy.Ne: Ne,
+ sympy.Ge: Ge, sympy.Gt: Gt,
+ }
+ if expr.func in funcmap:
+ args = [Domain.fromsympy(arg) for arg in expr.args]
+ return funcmap[expr.func](*args)
+ elif isinstance(expr, sympy.Expr):
+ return Expression.fromsympy(expr)
+ raise ValueError('non-domain expression: {!r}'.format(expr))
def tosympy(self):
- raise NotImplementedError
+ import sympy
+ polyhedra = [polyhedron.tosympy() for polyhedron in polyhedra]
+ return sympy.Or(*polyhedra)
+
def And(*domains):
if len(domains) == 0: