-
import functools
import numbers
+import json
+import ctypes, ctypes.util
+from pypol import isl
from fractions import Fraction, gcd
+libisl = ctypes.CDLL(ctypes.util.find_library('isl'))
+
+libisl.isl_printer_get_str.restype = ctypes.c_char_p
__all__ = [
'Expression',
'empty', 'universe'
]
+'''
+def symbolToInt(self):
+ make dictionary of key:value (letter:integer)
+ iterate through the dictionary to find matching symbol
+ return the given integer value
+ d = {'a': 1, 'b': 2, 'c': 3, 'd': 4, 'e': 5, 'f': 6, 'g': 7, 'h': 8, 'i': 6, 'j': 10, 'k': 11, 'l': 12, 'm': 13, 'n': 14,
+ 'o': 15, 'p': 16, 'q': 17, 'r': 18, 's': 19, 't': 20, 'u': 21, 'v': 22, 'w': 23, 'x': 24, 'y': 25, 'z': 26}
+ if self in d:
+ num = d.get(self)
+ return num
+'''
+
+ids = {}
+
+def get_ids(co):
+ if co in ids:
+ return ids.get(co)
+ else:
+ idd = len(ids)
+ ids[co] = idd
+ print(ids)
+ return idd
def _polymorphic_method(func):
@functools.wraps(func)
return wrapper
def _polymorphic_operator(func):
+ # A polymorphic operator should call a polymorphic method, hence we just
+ # have to test the left operand.
@functools.wraps(func)
def wrapper(a, b):
if isinstance(a, numbers.Rational):
a = constant(a)
- if isinstance(b, numbers.Rational):
- b = constant(b)
- if isinstance(a, Expression) and isinstance(b, Expression):
+ return func(a, b)
+ elif isinstance(a, Expression):
return func(a, b)
raise TypeError('arguments must be linear expressions')
return wrapper
+class Context:
+
+ __slots__ = ('_ic')
+
+ def __init__(self):
+ self._ic = libisl.isl_ctx_alloc()
+
+ @property
+ def _as_parameter_(self):
+ return self._ic
+
+ #comment out so does not delete itself after being created
+ #def __del__(self):
+ # libisl.isl_ctx_free(self)
+
+ def __eq__(self, other):
+ if not isinstance(other, Context):
+ return False
+ return self._ic == other._ic
+
+
+
class Expression:
"""
self._constant = constant
return self
+
def symbols(self):
yield from sorted(self._coefficients)
yield self.coefficient(symbol)
yield self.constant
+ def values_int(self):
+ for symbol in self.symbols():
+ return self.coefficient(symbol)
+ return int(self.constant)
+
+
def symbol(self):
if not self.issymbol():
raise ValueError('not a symbol: {}'.format(self))
constant = self.constant - other.constant
return Expression(coefficients, constant)
- __rsub__ = __sub__
-
+ def __rsub__(self, other):
+ return -(self - other)
+
@_polymorphic_method
def __mul__(self, other):
if other.isconstant():
return NotImplemented
def __rtruediv__(self, other):
- if isinstance(other, Rational):
+ if isinstance(other, self):
if self.isconstant():
constant = Fraction(other, self.constant)
return Expression(constant=constant)
def constant(numerator=0, denominator=None):
if denominator is None and isinstance(numerator, numbers.Rational):
- return Expression(constant=numerator)
+ return Expression(constant=3)
else:
return Expression(constant=Fraction(numerator, denominator))
if value.denominator != 1:
raise TypeError('non-integer constraint: '
'{} <= 0'.format(constraint))
- self._inequalities.append(constraint)
- return self
-
+ self._inequalities.append(constraint)
+ self._bset = self.to_isl()
+ #print(self._bset)
+ #put this here just to test from isl method
+ #from_isl = self.from_isl(self._bset)
+ #print(from_isl)
+ #rint(self)
+ return self._bset
+
+
@property
def equalities(self):
yield from self._equalities
@property
def inequalities(self):
yield from self._inequalities
+
+ @property
+ def constant(self):
+ return self._constant
+
+ def isconstant(self):
+ return len(self._coefficients) == 0
+
+
+ def isempty(self):
+ return bool(libisl.isl_basic_set_is_empty(self._bset))
def constraints(self):
yield from self.equalities
yield from self.inequalities
+
def symbols(self):
s = set()
for constraint in self.constraints():
s.update(constraint.symbols)
- yield from sorted(s)
-
+ yield from sorted(s)
+
@property
def dimension(self):
return len(self.symbols())
def __bool__(self):
# return false if the polyhedron is empty, true otherwise
- raise NotImplementedError
+ if self._equalities or self._inequalities:
+ return False
+ else:
+ return True
+
def __contains__(self, value):
# is the value in the polyhedron?
def __eq__(self, other):
raise NotImplementedError
- def isempty(self):
- return self == empty
+ def is_empty(self):
+ return
def isuniverse(self):
return self == universe
def issuperset(self, other):
# test whether every element in other is in the polyhedron
+ for value in other:
+ if value == self.constraints():
+ return True
+ else:
+ return False
raise NotImplementedError
def __ge__(self, other):
@classmethod
def fromstring(cls, string):
raise NotImplementedError
+
+ def to_isl(self):
+ #d = Expression().__dict__ #write expression values to dictionary in form {'_constant': value, '_coefficients': value}
+ d = {'_constant': 2, '_coefficients': {'b':1}}
+ coeff = d.get('_coefficients')
+ num_coefficients = len(coeff)
+ space = libisl.isl_space_set_alloc(Context(), 0, num_coefficients)
+ bset = libisl.isl_basic_set_empty(libisl.isl_space_copy(space))
+ ls = libisl.isl_local_space_from_space(libisl.isl_space_copy(space))
+ ceq = libisl.isl_equality_alloc(libisl.isl_local_space_copy(ls))
+ cin = libisl.isl_inequality_alloc(libisl.isl_local_space_copy(ls))
+ '''if there are equalities/inequalities, take each constant and coefficient and add as a constraint to the basic set
+ need to change the symbols method to a lookup table for the integer value for each letter that could be a symbol'''
+ if self._equalities:
+ if '_constant' in d:
+ value = d.get('_constant')
+ ceq = libisl.isl_constraint_set_constant_si(ceq, value)
+ if '_coefficients' in d:
+ value_co = d.get('_coefficients')
+ for co in value_co:
+ num = value_co.get(co)
+ ceq = libisl.isl_constraint_set_coefficient_si(ceq, 3, get_ids(co), num) #use 3 for type isl_dim_set
+ bset = libisl.isl_set_add_constraint(bset, ceq)
+
+ if self._inequalities:
+ if '_constant' in d:
+ value = d.get('_constant')
+ cin = libisl.isl_constraint_set_constant_si(cin, value)
+ if '_coefficients' in d:
+ value_co = d.get('_coefficients')
+ for co in value_co:
+ num = value_co.get(co)
+ if value_co: #if dictionary not empty add coefficient as to constraint
+ cin = libisl.isl_constraint_set_coefficient_si(cin, 3, get_ids(co), num) #use 3 for type isl_dim_set
+ bset = libisl.isl_set_add_constraint(bset, cin)
+ ip = libisl.isl_printer_to_str(Context()) #create string printer
+ ip = libisl.isl_printer_print_set(ip, bset) #print set to printer
+ string = libisl.isl_printer_get_str(ip) #get string from printer
+ string = str(string)
+ print(string)
+ return string
+
+
+ def from_isl(self, bset):
+ '''takes basic set in isl form and puts back into python version of polyhedron
+ isl example code gives idl form as:
+ "{[i] : exists (a : i = 2a and i >= 10 and i <= 42)}");'''
+
+ poly = 0
+ return poly
+
+empty = eq(1,1)
-empty = le(1, 0)
-
universe = Polyhedron()
projects / linpy.git / blobdiff