Z3
Public Member Functions | Data Fields
Tactic Class Reference

Public Member Functions

def __init__ (self, tactic, ctx=None)
 
def __del__ (self)
 
def solver (self)
 
def apply (self, goal, arguments, keywords)
 
def __call__ (self, goal, arguments, keywords)
 
def help (self)
 
def param_descrs (self)
 

Data Fields

 ctx
 
 tactic
 

Detailed Description

Tactics transform, solver and/or simplify sets of constraints (Goal). A Tactic can be converted into a Solver using the method solver().

Several combinators are available for creating new tactics using the built-in ones: Then(), OrElse(), FailIf(), Repeat(), When(), Cond().

Definition at line 6656 of file z3py.py.

Constructor & Destructor Documentation

def __init__ (   self,
  tactic,
  ctx = None 
)

Definition at line 6661 of file z3py.py.

6661  def __init__(self, tactic, ctx=None):
6662  self.ctx = _get_ctx(ctx)
6663  self.tactic = None
6664  if isinstance(tactic, TacticObj):
6665  self.tactic = tactic
6666  else:
6667  if __debug__:
6668  _z3_assert(isinstance(tactic, str), "tactic name expected")
6669  try:
6670  self.tactic = Z3_mk_tactic(self.ctx.ref(), str(tactic))
6671  except Z3Exception:
6672  raise Z3Exception("unknown tactic '%s'" % tactic)
6673  Z3_tactic_inc_ref(self.ctx.ref(), self.tactic)
6674 
void Z3_API Z3_tactic_inc_ref(Z3_context c, Z3_tactic t)
Increment the reference counter of the given tactic.
Z3_tactic Z3_API Z3_mk_tactic(Z3_context c, Z3_string name)
Return a tactic associated with the given name. The complete list of tactics may be obtained using th...
def __init__(self, tactic, ctx=None)
Definition: z3py.py:6661
def __del__ (   self)

Definition at line 6675 of file z3py.py.

6675  def __del__(self):
6676  if self.tactic != None:
6677  Z3_tactic_dec_ref(self.ctx.ref(), self.tactic)
6678 
def __del__(self)
Definition: z3py.py:6675
void Z3_API Z3_tactic_dec_ref(Z3_context c, Z3_tactic g)
Decrement the reference counter of the given tactic.

Member Function Documentation

def __call__ (   self,
  goal,
  arguments,
  keywords 
)
Apply tactic `self` to the given goal or Z3 Boolean expression using the given options.

>>> x, y = Ints('x y')
>>> t = Tactic('solve-eqs')
>>> t(And(x == 0, y >= x + 1))
[[y >= 1]]

Definition at line 6713 of file z3py.py.

6713  def __call__(self, goal, *arguments, **keywords):
6714  """Apply tactic `self` to the given goal or Z3 Boolean expression using the given options.
6715 
6716  >>> x, y = Ints('x y')
6717  >>> t = Tactic('solve-eqs')
6718  >>> t(And(x == 0, y >= x + 1))
6719  [[y >= 1]]
6720  """
6721  return self.apply(goal, *arguments, **keywords)
6722 
def apply(self, goal, arguments, keywords)
Definition: z3py.py:6696
def __call__(self, goal, arguments, keywords)
Definition: z3py.py:6713
def apply (   self,
  goal,
  arguments,
  keywords 
)
Apply tactic `self` to the given goal or Z3 Boolean expression using the given options.

>>> x, y = Ints('x y')
>>> t = Tactic('solve-eqs')
>>> t.apply(And(x == 0, y >= x + 1))
[[y >= 1]]

Definition at line 6696 of file z3py.py.

Referenced by Tactic.__call__().

6696  def apply(self, goal, *arguments, **keywords):
6697  """Apply tactic `self` to the given goal or Z3 Boolean expression using the given options.
6698 
6699  >>> x, y = Ints('x y')
6700  >>> t = Tactic('solve-eqs')
6701  >>> t.apply(And(x == 0, y >= x + 1))
6702  [[y >= 1]]
6703  """
6704  if __debug__:
6705  _z3_assert(isinstance(goal, Goal) or isinstance(goal, BoolRef), "Z3 Goal or Boolean expressions expected")
6706  goal = _to_goal(goal)
6707  if len(arguments) > 0 or len(keywords) > 0:
6708  p = args2params(arguments, keywords, self.ctx)
6709  return ApplyResult(Z3_tactic_apply_ex(self.ctx.ref(), self.tactic, goal.goal, p.params), self.ctx)
6710  else:
6711  return ApplyResult(Z3_tactic_apply(self.ctx.ref(), self.tactic, goal.goal), self.ctx)
6712 
def args2params(arguments, keywords, ctx=None)
Definition: z3py.py:4527
Z3_apply_result Z3_API Z3_tactic_apply(Z3_context c, Z3_tactic t, Z3_goal g)
Apply tactic t to the goal g.
Z3_apply_result Z3_API Z3_tactic_apply_ex(Z3_context c, Z3_tactic t, Z3_goal g, Z3_params p)
Apply tactic t to the goal g using the parameter set p.
def apply(self, goal, arguments, keywords)
Definition: z3py.py:6696
def help (   self)
Display a string containing a description of the available options for the `self` tactic.

Definition at line 6723 of file z3py.py.

6723  def help(self):
6724  """Display a string containing a description of the available options for the `self` tactic."""
6725  print(Z3_tactic_get_help(self.ctx.ref(), self.tactic))
6726 
def help(self)
Definition: z3py.py:6723
Z3_string Z3_API Z3_tactic_get_help(Z3_context c, Z3_tactic t)
Return a string containing a description of parameters accepted by the given tactic.
def param_descrs (   self)
Return the parameter description set.

Definition at line 6727 of file z3py.py.

6727  def param_descrs(self):
6728  """Return the parameter description set."""
6729  return ParamDescrsRef(Z3_tactic_get_param_descrs(self.ctx.ref(), self.tactic), self.ctx)
6730 
Z3_param_descrs Z3_API Z3_tactic_get_param_descrs(Z3_context c, Z3_tactic t)
Return the parameter description set for the given tactic object.
def param_descrs(self)
Definition: z3py.py:6727
def solver (   self)
Create a solver using the tactic `self`.

The solver supports the methods `push()` and `pop()`, but it
will always solve each `check()` from scratch.

>>> t = Then('simplify', 'nlsat')
>>> s = t.solver()
>>> x = Real('x')
>>> s.add(x**2 == 2, x > 0)
>>> s.check()
sat
>>> s.model()
[x = 1.4142135623?]

Definition at line 6679 of file z3py.py.

6679  def solver(self):
6680  """Create a solver using the tactic `self`.
6681 
6682  The solver supports the methods `push()` and `pop()`, but it
6683  will always solve each `check()` from scratch.
6684 
6685  >>> t = Then('simplify', 'nlsat')
6686  >>> s = t.solver()
6687  >>> x = Real('x')
6688  >>> s.add(x**2 == 2, x > 0)
6689  >>> s.check()
6690  sat
6691  >>> s.model()
6692  [x = 1.4142135623?]
6693  """
6694  return Solver(Z3_mk_solver_from_tactic(self.ctx.ref(), self.tactic), self.ctx)
6695 
def solver(self)
Definition: z3py.py:6679
Z3_solver Z3_API Z3_mk_solver_from_tactic(Z3_context c, Z3_tactic t)
Create a new solver that is implemented using the given tactic. The solver supports the commands Z3_s...

Field Documentation

ctx
tactic