示例#1
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    def test_is_methods(self):
        from fractions import Fraction as pyFraction

        self.assertFalse(is_pysmt_fraction(4))
        self.assertTrue(is_pysmt_fraction(Fraction(4)))

        self.assertFalse(is_pysmt_integer(4.0))
        self.assertTrue(is_pysmt_integer(Integer(4)))

        self.assertTrue(is_python_integer(int(2)))
        if PY2:
            self.assertTrue(is_python_integer(long(2)))
        if HAS_GMPY:
            from gmpy2 import mpz
            self.assertTrue(is_python_integer(mpz(1)))

        if HAS_GMPY:
            from gmpy2 import mpz, mpq
            self.assertTrue(is_python_rational(mpz(1)))
            self.assertTrue(is_python_rational(mpq(1)))
        if PY2:
            self.assertTrue(is_python_rational(long(1)))

        self.assertTrue(is_python_rational(pyFraction(5)))
        self.assertTrue(is_python_rational(3))

        self.assertTrue(is_python_boolean(True))
        self.assertTrue(is_python_boolean(False))
示例#2
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    def test_is_methods(self):
        self.assertFalse(is_pysmt_fraction(4))
        self.assertTrue(is_pysmt_fraction(Fraction(4)))

        self.assertFalse(is_pysmt_integer(4.0))
        self.assertTrue(is_pysmt_integer(Integer(4)))

        self.assertTrue(is_python_integer(int(2)))
        if PY2:
            self.assertTrue(is_python_integer(long(2)))
        if HAS_GMPY:
            from gmpy2 import mpz
            self.assertTrue(is_python_integer(mpz(1)))

        if HAS_GMPY:
            from gmpy2 import mpz, mpq
            self.assertTrue(is_python_rational(mpz(1)))
            self.assertTrue(is_python_rational(mpq(1)))
        if PY2:
            self.assertTrue(is_python_rational(long(1)))

        self.assertTrue(is_python_rational(pyFraction(5)))
        self.assertTrue(is_python_rational(3))

        self.assertTrue(is_python_boolean(True))
        self.assertTrue(is_python_boolean(False))
示例#3
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文件: z3.py 项目: mpreiner/pysmt
 def walk_int_constant(self, formula, **kwargs):
     assert is_pysmt_integer(formula.constant_value())
     const = str(formula.constant_value())
     z3term = z3.Z3_mk_numeral(self.ctx.ref(),
                               const,
                               self.z3IntSort.ast)
     z3.Z3_inc_ref(self.ctx.ref(), z3term)
     return z3term
示例#4
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 def walk_int_constant(self, formula, **kwargs):
     assert is_pysmt_integer(formula.constant_value())
     const = str(formula.constant_value())
     z3term = z3.Z3_mk_numeral(self.ctx.ref(),
                               const,
                               self.z3IntSort.ast)
     z3.Z3_inc_ref(self.ctx.ref(), z3term)
     return z3term
示例#5
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    def BV(self, value, width=None):
        """Return a constant of type BitVector.

        value can be either:
        - a string of 0s and 1s
        - a string starting with "#b" followed by a sequence of 0s and 1s
        - an integer number s.t. 0 <= value < 2**width

        In order to create the BV representation of a signed integer,
        the SBV() method shall be used.
        """

        if type(value) is str:
            if value.startswith("#b"):
                str_width = len(value)-2
                value = int(value[2:],2)
            elif all(v in ["0", "1"] for v in value):
                str_width = len(value)
                value = int(value, 2)
            else:
                raise PysmtValueError("Expecting binary value as string, got " \
                                      "%s instead." % value)

            if width is not None and width != str_width:
                raise PysmtValueError("Specified width does not match string " \
                                      "width (%d != %d)" % (width, str_width))
            width = str_width

        if width is None:
            raise PysmtValueError("Need to specify a width for the constant")

        if is_pysmt_integer(value):
            _value = value
        elif is_python_integer(value):
            _value = pysmt_integer_from_integer(value)
        else:
            raise PysmtTypeError("Invalid type in constant. The type was: %s" \
                                 % str(type(value)))
        if _value < 0:
            raise PysmtValueError("Cannot specify a negative value: %d" \
                                  % _value)
        if _value >= 2**width:
            raise PysmtValueError("Cannot express %d in %d bits" \
                                  % (_value, width))

        return self.create_node(node_type=op.BV_CONSTANT,
                                args=tuple(),
                                payload=(_value, width))
示例#6
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文件: formula.py 项目: mpreiner/pysmt
    def BV(self, value, width=None):
        """Return a constant of type BitVector.

        value can be either:
        - a string of 0s and 1s
        - a string starting with "#b" followed by a sequence of 0s and 1s
        - an integer number s.t. 0 <= value < 2**width

        In order to create the BV representation of a signed integer,
        the SBV() method shall be used.
        """

        if type(value) is str:
            if value.startswith("#b"):
                str_width = len(value)-2
                value = int(value[2:],2)
            elif all(v in ["0", "1"] for v in value):
                str_width = len(value)
                value = int(value, 2)
            else:
                raise PysmtValueError("Expecting binary value as string, got " \
                                      "%s instead." % value)

            if width is not None and width != str_width:
                raise PysmtValueError("Specified width does not match string " \
                                      "width (%d != %d)" % (width, str_width))
            width = str_width

        if width is None:
            raise PysmtValueError("Need to specify a width for the constant")

        if is_pysmt_integer(value):
            _value = value
        elif is_python_integer(value):
            _value = pysmt_integer_from_integer(value)
        else:
            raise PysmtTypeError("Invalid type in constant. The type was: %s" \
                                 % str(type(value)))
        if _value < 0:
            raise PysmtValueError("Cannot specify a negative value: %d" \
                                  % _value)
        if _value >= 2**width:
            raise PysmtValueError("Cannot express %d in %d bits" \
                                  % (_value, width))

        return self.create_node(node_type=op.BV_CONSTANT,
                                args=tuple(),
                                payload=(_value, width))
示例#7
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    def Int(self, value):
        """Return a constant of type INT."""
        if value in self.int_constants:
            return self.int_constants[value]

        if is_pysmt_integer(value):
            val = value
        elif is_python_integer(value):
            val = pysmt_integer_from_integer(value)
        else:
            raise PysmtTypeError("Invalid type in constant. The type was:" + \
                                 str(type(value)))
        n = self.create_node(node_type=op.INT_CONSTANT,
                             args=tuple(),
                             payload=val)
        self.int_constants[value] = n
        return n
示例#8
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文件: formula.py 项目: agriggio/pysmt
    def Int(self, value):
        """Return a constant of type INT."""
        if value in self.int_constants:
            return self.int_constants[value]

        if is_pysmt_integer(value):
            val = value
        elif is_python_integer(value):
            val = pysmt_integer_from_integer(value)
        else:
            raise PysmtTypeError("Invalid type in constant. The type was:" + \
                                 str(type(value)))
        n = self.create_node(node_type=op.INT_CONSTANT,
                             args=tuple(),
                             payload=val)
        self.int_constants[value] = n
        return n
示例#9
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 def walk_int_constant(self, formula, **kwargs):
     assert is_pysmt_integer(formula.constant_value())
     rep = str(formula.constant_value())
     return self.mkConst(CVC4.Rational(rep))
示例#10
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 def walk_int_constant(self, formula, **kwargs):
     assert is_pysmt_integer(formula.constant_value())
     rep = str(formula.constant_value())
     res = yicespy.yices_parse_rational(rep)
     self._check_term_result(res)
     return res
示例#11
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文件: printers.py 项目: pysmt/pysmt
 def walk_int_constant(self, formula):
     assert is_pysmt_integer(formula.constant_value()), \
         "The type was " + str(type(formula.constant_value()))
     self.write(str(formula.constant_value()))
示例#12
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文件: cvc4.py 项目: mpreiner/pysmt
 def walk_int_constant(self, formula, **kwargs):
     assert is_pysmt_integer(formula.constant_value())
     rep = str(formula.constant_value())
     return self.mkConst(CVC4.Rational(rep))
示例#13
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 def walk_int_constant(self, formula):
     assert is_pysmt_integer(formula.constant_value()), \
         "The type was " + str(type(formula.constant_value()))
     self.write(str(formula.constant_value()))
示例#14
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文件: yices.py 项目: agriggio/pysmt
 def walk_int_constant(self, formula, **kwargs):
     assert is_pysmt_integer(formula.constant_value())
     rep = str(formula.constant_value())
     res = yicespy.yices_parse_rational(rep)
     self._check_term_result(res)
     return res