Z3
Public Member Functions
AlgebraicNumRef Class Reference
+ Inheritance diagram for AlgebraicNumRef:

Public Member Functions

def approx (self, precision=10)
 
def as_decimal (self, prec)
 
- Public Member Functions inherited from ArithRef
def sort (self)
 
def is_int (self)
 
def is_real (self)
 
def __add__ (self, other)
 
def __radd__ (self, other)
 
def __mul__ (self, other)
 
def __rmul__ (self, other)
 
def __sub__ (self, other)
 
def __rsub__ (self, other)
 
def __pow__ (self, other)
 
def __rpow__ (self, other)
 
def __div__ (self, other)
 
def __truediv__ (self, other)
 
def __rdiv__ (self, other)
 
def __rtruediv__ (self, other)
 
def __mod__ (self, other)
 
def __rmod__ (self, other)
 
def __neg__ (self)
 
def __pos__ (self)
 
def __le__ (self, other)
 
def __lt__ (self, other)
 
def __gt__ (self, other)
 
def __ge__ (self, other)
 
- Public Member Functions inherited from ExprRef
def as_ast (self)
 
def get_id (self)
 
def sort (self)
 
def sort_kind (self)
 
def __eq__ (self, other)
 
def __hash__ (self)
 
def __ne__ (self, other)
 
def params (self)
 
def decl (self)
 
def num_args (self)
 
def arg (self, idx)
 
def children (self)
 
- Public Member Functions inherited from AstRef
def __init__ (self, ast, ctx=None)
 
def __del__ (self)
 
def __deepcopy__ (self, memo={})
 
def __str__ (self)
 
def __repr__ (self)
 
def __eq__ (self, other)
 
def __hash__ (self)
 
def __nonzero__ (self)
 
def __bool__ (self)
 
def sexpr (self)
 
def as_ast (self)
 
def get_id (self)
 
def ctx_ref (self)
 
def eq (self, other)
 
def translate (self, target)
 
def __copy__ (self)
 
def hash (self)
 
- Public Member Functions inherited from Z3PPObject
def use_pp (self)
 

Additional Inherited Members

- Data Fields inherited from AstRef
 ast
 
 ctx
 

Detailed Description

Algebraic irrational values.

Definition at line 2836 of file z3py.py.

Member Function Documentation

◆ approx()

def approx (   self,
  precision = 10 
)
Return a Z3 rational number that approximates the algebraic number `self`.
The result `r` is such that |r - self| <= 1/10^precision

>>> x = simplify(Sqrt(2))
>>> x.approx(20)
6838717160008073720548335/4835703278458516698824704
>>> x.approx(5)
2965821/2097152

Definition at line 2839 of file z3py.py.

2839  def approx(self, precision=10):
2840  """Return a Z3 rational number that approximates the algebraic number `self`.
2841  The result `r` is such that |r - self| <= 1/10^precision
2842 
2843  >>> x = simplify(Sqrt(2))
2844  >>> x.approx(20)
2845  6838717160008073720548335/4835703278458516698824704
2846  >>> x.approx(5)
2847  2965821/2097152
2848  """
2849  return RatNumRef(Z3_get_algebraic_number_upper(self.ctx_ref(), self.as_ast(), precision), self.ctx)
Z3_ast Z3_API Z3_get_algebraic_number_upper(Z3_context c, Z3_ast a, unsigned precision)
Return a upper bound for the given real algebraic number. The interval isolating the number is smalle...

◆ as_decimal()

def as_decimal (   self,
  prec 
)
Return a string representation of the algebraic number `self` in decimal notation using `prec` decimal places

>>> x = simplify(Sqrt(2))
>>> x.as_decimal(10)
'1.4142135623?'
>>> x.as_decimal(20)
'1.41421356237309504880?'

Definition at line 2850 of file z3py.py.

2850  def as_decimal(self, prec):
2851  """Return a string representation of the algebraic number `self` in decimal notation using `prec` decimal places
2852 
2853  >>> x = simplify(Sqrt(2))
2854  >>> x.as_decimal(10)
2855  '1.4142135623?'
2856  >>> x.as_decimal(20)
2857  '1.41421356237309504880?'
2858  """
2859  return Z3_get_numeral_decimal_string(self.ctx_ref(), self.as_ast(), prec)
2860 
Z3_string Z3_API Z3_get_numeral_decimal_string(Z3_context c, Z3_ast a, unsigned precision)
Return numeral as a string in decimal notation. The result has at most precision decimal places...