self._coefficients = {}
for symbol, coefficient in coefficients:
if isinstance(symbol, Symbol):
- symbol = str(symbol)
+ symbol = symbol.name
elif not isinstance(symbol, str):
raise TypeError('symbols must be strings or Symbol instances')
if isinstance(coefficient, Constant):
yield self.coefficient(symbol)
yield self.constant
- @property
- def symbol(self):
- raise ValueError('not a symbol: {}'.format(self))
-
def issymbol(self):
return False
def __new__(cls, name):
if isinstance(name, Symbol):
- name = name.symbol
+ name = name.name
elif not isinstance(name, str):
raise TypeError('name must be a string or a Symbol instance')
self = object().__new__(cls)
self._coefficients = {name: 1}
self._constant = 0
self._symbols = tuple(name)
- self._symbol = name
+ self._name = name
self._dimension = 1
return self
@property
- def symbol(self):
- return self._symbol
+ def name(self):
+ return self._name
def issymbol(self):
return True
def __repr__(self):
- return '{}({!r})'.format(self.__class__.__name__, self._symbol)
+ return '{}({!r})'.format(self.__class__.__name__, self._name)
def symbols(names):
if isinstance(names, str):
difference = libisl.isl_set_subtract(bset, other)
return difference
-
def __sub__(self, other):
return self.difference(other)
def _toisl(self, symbols=None):
if symbols is None:
symbols = self.symbols
- num_coefficients = len(symbols)
- space = libisl.isl_space_set_alloc(_main_ctx, 0, num_coefficients)
+ dimension = len(symbols)
+ space = libisl.isl_space_set_alloc(_main_ctx, 0, dimension)
bset = libisl.isl_basic_set_universe(libisl.isl_space_copy(space))
ls = libisl.isl_local_space_from_space(space)
- #if there are equalities/inequalities, take each constant and coefficient and add as a constraint to the basic set
- for eq in self.equalities:
+ for equality in self.equalities:
ceq = libisl.isl_equality_alloc(libisl.isl_local_space_copy(ls))
- coeff_eq = dict(eq.coefficients())
- if eq.constant:
- value = str(eq.constant).encode()
- val = libisl.isl_val_read_from_str(_main_ctx, value)
+ for symbol, coefficient in equality.coefficients():
+ val = str(coefficient).encode()
+ val = libisl.isl_val_read_from_str(_main_ctx, val)
+ dim = symbols.index(symbol)
+ ceq = libisl.isl_constraint_set_coefficient_val(ceq, libisl.isl_dim_set, dim, val)
+ if equality.constant != 0:
+ val = str(equality.constant).encode()
+ val = libisl.isl_val_read_from_str(_main_ctx, val)
ceq = libisl.isl_constraint_set_constant_val(ceq, val)
- for eq in coeff_eq:
- number = str(coeff_eq.get(eq)).encode()
- num = libisl.isl_val_read_from_str(_main_ctx, number)
- iden = symbols.index(eq)
- ceq = libisl.isl_constraint_set_coefficient_val(ceq, libisl.isl_dim_set, iden, num) #use 3 for type isl_dim_set
bset = libisl.isl_basic_set_add_constraint(bset, ceq)
- for ineq in self.inequalities:
+ for inequality in self.inequalities:
cin = libisl.isl_inequality_alloc(libisl.isl_local_space_copy(ls))
- coeff_in = dict(ineq.coefficients())
- if ineq.constant:
- value = str(ineq.constant).encode()
- val = libisl.isl_val_read_from_str(_main_ctx, value)
+ for symbol, coefficient in inequality.coefficients():
+ val = str(coefficient).encode()
+ val = libisl.isl_val_read_from_str(_main_ctx, val)
+ dim = symbols.index(symbol)
+ cin = libisl.isl_constraint_set_coefficient_val(cin, libisl.isl_dim_set, dim, val)
+ if inequality.constant != 0:
+ val = str(ineq.constant).encode()
+ val = libisl.isl_val_read_from_str(_main_ctx, val)
cin = libisl.isl_constraint_set_constant_val(cin, val)
- for ineq in coeff_in:
- number = str(coeff_in.get(ineq)).encode()
- num = libisl.isl_val_read_from_str(_main_ctx, number)
- iden = symbols.index(ineq)
- cin = libisl.isl_constraint_set_coefficient_val(cin, libisl.isl_dim_set, iden, num) #use 3 for type isl_dim_set
bset = libisl.isl_basic_set_add_constraint(bset, cin)
bset = isl.BasicSet(bset)
return bset
Universe = Polyhedron()
if __name__ == '__main__':
- ex1 = Expression(coefficients={'a': 6, 'b': 6}, constant= 3) #this is the expression that does not work (even without adding values)
- ex2 = Expression(coefficients={'x': 4, 'y': 2}, constant= 3)
- p = Polyhedron(equalities=[ex2])
- p2 = Polyhedron(equalities=[ex2])
- print(p._toisl()) # checking is values works for toisl
+ e1 = Expression(coefficients={'a': 2, 'b': 2}, constant= 1)
+ p1 = Polyhedron(equalities=[e1]) # empty
+ e2 = Expression(coefficients={'x': 3, 'y': 2}, constant= 3)
+ p2 = Polyhedron(equalities=[e2]) # not empty
+ print(p1._toisl())
+ print(p2._toisl())