+#
+# Copyright (C) 2019 EfficiOS Inc.
+#
+# This program is free software; you can redistribute it and/or
+# modify it under the terms of the GNU General Public License
+# as published by the Free Software Foundation; only version 2
+# of the License.
+#
+# This program is distributed in the hope that it will be useful,
+# but WITHOUT ANY WARRANTY; without even the implied warranty of
+# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+# GNU General Public License for more details.
+#
+# You should have received a copy of the GNU General Public License
+# along with this program; if not, write to the Free Software
+# Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
+#
+
from functools import partial, partialmethod
import operator
+import collections
import unittest
import numbers
import math
import bt2
+# The value object classes explicitly do not implement the copy methods,
+# raising `NotImplementedError`, just in case we decide to implement
+# them someday.
class _TestCopySimple:
def test_copy(self):
with self.assertRaises(NotImplementedError):
)
+# Base class for numeric value test cases.
+#
+# To be compatible with this base class, a derived class must, in its
+# setUp() method:
+#
+# * Set `self._def` to a value object with an arbitrary raw value.
+# * Set `self._def_value` to the equivalent raw value of `self._def`.
class _TestNumericValue(_TestCopySimple):
+ # Tries the binary operation `op`:
+ #
+ # 1. Between `self._def`, which is a value object, and `rhs`.
+ # 2. Between `self._def_value`, which is the raw value of
+ # `self._def`, and `rhs`.
+ #
+ # Returns the results of 1. and 2.
+ #
+ # If there's an exception while performing 1. or 2., asserts that
+ # both operations raised exceptions, that both exceptions have the
+ # same type, and returns `None` for both results.
def _binop(self, op, rhs):
- rexc = None
- rvexc = None
+ type_rexc = None
+ type_rvexc = None
comp_value = rhs
+ # try with value object
try:
r = op(self._def, rhs)
except Exception as e:
- rexc = e
+ type_rexc = type(e)
+ # try with raw value
try:
rv = op(self._def_value, comp_value)
except Exception as e:
- rvexc = e
+ type_rvexc = type(e)
- if rexc is not None or rvexc is not None:
+ if type_rexc is not None or type_rvexc is not None:
# at least one of the operations raised an exception: in
# this case both operations should have raised the same
# type of exception (division by zero, bit shift with a
# floating point number operand, etc.)
- self.assertIs(type(rexc), type(rvexc))
+ self.assertIs(type_rexc, type_rvexc)
return None, None
return r, rv
+ # Tries the unary operation `op`:
+ #
+ # 1. On `self._def`, which is a value object.
+ # 2. On `self._def_value`, which is the raw value of `self._def`.
+ #
+ # Returns the results of 1. and 2.
+ #
+ # If there's an exception while performing 1. or 2., asserts that
+ # both operations raised exceptions, that both exceptions have the
+ # same type, and returns `None` for both results.
def _unaryop(self, op):
- rexc = None
- rvexc = None
+ type_rexc = None
+ type_rvexc = None
+ # try with value object
try:
r = op(self._def)
except Exception as e:
- rexc = e
+ type_rexc = type(e)
+ # try with raw value
try:
rv = op(self._def_value)
except Exception as e:
- rvexc = e
+ type_rvexc = type(e)
- if rexc is not None or rvexc is not None:
+ if type_rexc is not None or type_rvexc is not None:
# at least one of the operations raised an exception: in
# this case both operations should have raised the same
# type of exception (division by zero, bit shift with a
# floating point number operand, etc.)
- self.assertIs(type(rexc), type(rvexc))
+ self.assertIs(type_rexc, type_rvexc)
return None, None
return r, rv
+ # Tests that the unary operation `op` gives results with the same
+ # type for both `self._def` and `self._def_value`.
def _test_unaryop_type(self, op):
r, rv = self._unaryop(op)
self.assertIsInstance(r, type(rv))
+ # Tests that the unary operation `op` gives results with the same
+ # value for both `self._def` and `self._def_value`. This uses the
+ # __eq__() operator of `self._def`.
def _test_unaryop_value(self, op):
r, rv = self._unaryop(op)
self.assertEqual(r, rv)
+ # Tests that the unary operation `op`, when applied to `self._def`,
+ # does not change its underlying BT object address.
def _test_unaryop_addr_same(self, op):
addr_before = self._def.addr
self._unaryop(op)
self.assertEqual(self._def.addr, addr_before)
+ # Tests that the unary operation `op`, when applied to `self._def`,
+ # does not change its value.
def _test_unaryop_value_same(self, op):
value_before = self._def.__class__(self._def)
self._unaryop(op)
self.assertEqual(self._def, value_before)
+ # Tests that the binary operation `op` gives results with the same
+ # type for both `self._def` and `self._def_value`.
def _test_binop_type(self, op, rhs):
r, rv = self._binop(op, rhs)
else:
self.assertIsInstance(r, type(rv))
+ # Tests that the binary operation `op` gives results with the same
+ # value for both `self._def` and `self._def_value`. This uses the
+ # __eq__() operator of `self._def`.
def _test_binop_value(self, op, rhs):
r, rv = self._binop(op, rhs)
self.assertEqual(r, rv)
+ # Tests that the binary operation `op`, when applied to `self._def`,
+ # does not change its underlying BT object address.
def _test_binop_lhs_addr_same(self, op, rhs):
addr_before = self._def.addr
r, rv = self._binop(op, rhs)
self.assertEqual(self._def.addr, addr_before)
+ # Tests that the binary operation `op`, when applied to `self._def`,
+ # does not change its value.
def _test_binop_lhs_value_same(self, op, rhs):
value_before = self._def.__class__(self._def)
r, rv = self._binop(op, rhs)
self.assertEqual(self._def, value_before)
+ # The methods below which take the `test_cb` and `op` parameters
+ # are meant to be used with one of the _test_binop_*() functions
+ # above as `test_cb` and a binary operator function as `op`.
+ #
+ # For example:
+ #
+ # self._test_binop_rhs_pos_int(self._test_binop_value,
+ # operator.add)
+ #
+ # This tests that a numeric value object added to a positive integer
+ # raw value gives a result with the expected value.
+ #
+ # `vint` and `vfloat` mean a signed integer value object and a real
+ # value object.
+
def _test_binop_invalid_unknown(self, op):
if op in _COMP_BINOPS:
self.skipTest('not testing')
- class A:
- pass
-
with self.assertRaises(TypeError):
- op(self._def, A())
+ op(self._def, object())
def _test_binop_invalid_none(self, op):
if op in _COMP_BINOPS:
with self.assertRaises(TypeError):
op(self._def, None)
- def _test_ibinop_value(self, op, rhs):
- r, rv = self._binop(op, rhs)
-
- if r is None:
- return
-
- # The inplace operators are special for value objects because
- # they do not return a new, immutable object like it's the case
- # for Python numbers. In Python, `a += 2`, where `a` is a number
- # object, assigns a new number object reference to `a`, dropping
- # the old reference. Since BT's value objects are mutable, we
- # modify their internal value with the inplace operators. This
- # means however that we can lose data in the process, for
- # example:
- #
- # int_value_obj += 3.3
- #
- # Here, if `int_value_obj` is a Python `int` with the value 2,
- # it would be a `float` object after this, holding the value
- # 5.3. In our case, if `int_value_obj` is an integer value
- # object, 3.3 is converted to an `int` object (3) and added to
- # the current value of `int_value_obj`, so after this the value
- # of the object is 5. This does not compare to 5.3, which is
- # why we also use the `int()` type here.
- if isinstance(self._def, bt2._IntegerValue):
- rv = int(rv)
-
- self.assertEqual(r, rv)
-
- def _test_ibinop_type(self, op, rhs):
- r, rv = self._binop(op, rhs)
-
- if r is None:
- return
-
- self.assertIs(r, self._def)
-
- def _test_ibinop_invalid_unknown(self, op):
- class A:
- pass
-
- with self.assertRaises(TypeError):
- op(self._def, A())
-
- def _test_ibinop_invalid_none(self, op):
- with self.assertRaises(TypeError):
- op(self._def, None)
-
def _test_binop_rhs_false(self, test_cb, op):
test_cb(op, False)
def _test_binop_rhs_zero_float(self, test_cb, op):
test_cb(op, 0.0)
+ def _test_binop_rhs_complex(self, test_cb, op):
+ test_cb(op, -23+19j)
+
+ def _test_binop_rhs_zero_complex(self, test_cb, op):
+ test_cb(op, 0j)
+
def _test_binop_rhs_pos_vfloat(self, test_cb, op):
test_cb(op, bt2.create_value(2.2))
def _test_binop_type_zero_vfloat(self, op):
self._test_binop_rhs_zero_vfloat(self._test_binop_type, op)
+ def _test_binop_type_complex(self, op):
+ self._test_binop_rhs_complex(self._test_binop_type, op)
+
+ def _test_binop_type_zero_complex(self, op):
+ self._test_binop_rhs_zero_complex(self._test_binop_type, op)
+
def _test_binop_value_false(self, op):
self._test_binop_rhs_false(self._test_binop_value, op)
def _test_binop_value_zero_vfloat(self, op):
self._test_binop_rhs_zero_vfloat(self._test_binop_value, op)
+ def _test_binop_value_complex(self, op):
+ self._test_binop_rhs_complex(self._test_binop_value, op)
+
+ def _test_binop_value_zero_complex(self, op):
+ self._test_binop_rhs_zero_complex(self._test_binop_value, op)
+
def _test_binop_lhs_addr_same_false(self, op):
self._test_binop_rhs_false(self._test_binop_lhs_addr_same, op)
def _test_binop_lhs_addr_same_zero_vfloat(self, op):
self._test_binop_rhs_zero_vfloat(self._test_binop_lhs_addr_same, op)
+ def _test_binop_lhs_addr_same_complex(self, op):
+ self._test_binop_rhs_complex(self._test_binop_lhs_addr_same, op)
+
+ def _test_binop_lhs_addr_same_zero_complex(self, op):
+ self._test_binop_rhs_zero_complex(self._test_binop_lhs_addr_same, op)
+
def _test_binop_lhs_value_same_false(self, op):
self._test_binop_rhs_false(self._test_binop_lhs_value_same, op)
def _test_binop_lhs_value_same_zero_vfloat(self, op):
self._test_binop_rhs_zero_vfloat(self._test_binop_lhs_value_same, op)
- def _test_ibinop_type_false(self, op):
- self._test_binop_rhs_false(self._test_ibinop_type, op)
-
- def _test_ibinop_type_true(self, op):
- self._test_binop_rhs_true(self._test_ibinop_type, op)
-
- def _test_ibinop_type_pos_int(self, op):
- self._test_binop_rhs_pos_int(self._test_ibinop_type, op)
-
- def _test_ibinop_type_neg_int(self, op):
- self._test_binop_rhs_neg_int(self._test_ibinop_type, op)
-
- def _test_ibinop_type_zero_int(self, op):
- self._test_binop_rhs_zero_int(self._test_ibinop_type, op)
-
- def _test_ibinop_type_pos_vint(self, op):
- self._test_binop_rhs_pos_vint(self._test_ibinop_type, op)
-
- def _test_ibinop_type_neg_vint(self, op):
- self._test_binop_rhs_neg_vint(self._test_ibinop_type, op)
+ def _test_binop_lhs_value_same_complex(self, op):
+ self._test_binop_rhs_complex(self._test_binop_lhs_value_same, op)
- def _test_ibinop_type_zero_vint(self, op):
- self._test_binop_rhs_zero_vint(self._test_ibinop_type, op)
-
- def _test_ibinop_type_pos_float(self, op):
- self._test_binop_rhs_pos_float(self._test_ibinop_type, op)
-
- def _test_ibinop_type_neg_float(self, op):
- self._test_binop_rhs_neg_float(self._test_ibinop_type, op)
-
- def _test_ibinop_type_zero_float(self, op):
- self._test_binop_rhs_zero_float(self._test_ibinop_type, op)
-
- def _test_ibinop_type_pos_vfloat(self, op):
- self._test_binop_rhs_pos_vfloat(self._test_ibinop_type, op)
-
- def _test_ibinop_type_neg_vfloat(self, op):
- self._test_binop_rhs_neg_vfloat(self._test_ibinop_type, op)
-
- def _test_ibinop_type_zero_vfloat(self, op):
- self._test_binop_rhs_zero_vfloat(self._test_ibinop_type, op)
-
- def _test_ibinop_value_false(self, op):
- self._test_binop_rhs_false(self._test_ibinop_value, op)
-
- def _test_ibinop_value_true(self, op):
- self._test_binop_rhs_true(self._test_ibinop_value, op)
-
- def _test_ibinop_value_pos_int(self, op):
- self._test_binop_rhs_pos_int(self._test_ibinop_value, op)
-
- def _test_ibinop_value_neg_int(self, op):
- self._test_binop_rhs_neg_int(self._test_ibinop_value, op)
-
- def _test_ibinop_value_zero_int(self, op):
- self._test_binop_rhs_zero_int(self._test_ibinop_value, op)
-
- def _test_ibinop_value_pos_vint(self, op):
- self._test_binop_rhs_pos_vint(self._test_ibinop_value, op)
-
- def _test_ibinop_value_neg_vint(self, op):
- self._test_binop_rhs_neg_vint(self._test_ibinop_value, op)
-
- def _test_ibinop_value_zero_vint(self, op):
- self._test_binop_rhs_zero_vint(self._test_ibinop_value, op)
-
- def _test_ibinop_value_pos_float(self, op):
- self._test_binop_rhs_pos_float(self._test_ibinop_value, op)
-
- def _test_ibinop_value_neg_float(self, op):
- self._test_binop_rhs_neg_float(self._test_ibinop_value, op)
-
- def _test_ibinop_value_zero_float(self, op):
- self._test_binop_rhs_zero_float(self._test_ibinop_value, op)
-
- def _test_ibinop_value_pos_vfloat(self, op):
- self._test_binop_rhs_pos_vfloat(self._test_ibinop_value, op)
-
- def _test_ibinop_value_neg_vfloat(self, op):
- self._test_binop_rhs_neg_vfloat(self._test_ibinop_value, op)
-
- def _test_ibinop_value_zero_vfloat(self, op):
- self._test_binop_rhs_zero_vfloat(self._test_ibinop_value, op)
+ def _test_binop_lhs_value_same_zero_complex(self, op):
+ self._test_binop_rhs_zero_complex(self._test_binop_lhs_value_same, op)
def test_bool_op(self):
self.assertEqual(bool(self._def), bool(self._def_value))
self.assertTrue(self._def != None)
+# This is a list of binary operators used for
+# _inject_numeric_testing_methods().
+#
+# Each entry is a pair of binary operator name (used as part of the
+# created testing method's name) and operator function.
_BINOPS = (
('lt', operator.lt),
('le', operator.le),
)
-_IBINOPS = (
- ('iadd', operator.iadd),
- ('iand', operator.iand),
- ('ifloordiv', operator.ifloordiv),
- ('ilshift', operator.ilshift),
- ('imod', operator.imod),
- ('imul', operator.imul),
- ('ior', operator.ior),
- ('ipow', operator.ipow),
- ('irshift', operator.irshift),
- ('isub', operator.isub),
- ('itruediv', operator.itruediv),
- ('ixor', operator.ixor),
-)
-
-
+# This is a list of unary operators used for
+# _inject_numeric_testing_methods().
+#
+# Each entry is a pair of unary operator name (used as part of the
+# created testing method's name) and operator function.
_UNARYOPS = (
('neg', operator.neg),
('pos', operator.pos),
)
-def _inject_numeric_testing_methods(cls, has_neg=True):
+# This function injects a bunch of testing methods to a numeric
+# value test case.
+#
+# It is meant to be used like this:
+#
+# _inject_numeric_testing_methods(MyNumericValueTestCase)
+#
+# This function injects:
+#
+# * One testing method for each _TestNumericValue._test_binop_*()
+# method, for each binary operator in the _BINOPS tuple.
+#
+# * One testing method for each _TestNumericValue._test_unaryop*()
+# method, for each unary operator in the _UNARYOPS tuple.
+def _inject_numeric_testing_methods(cls):
def test_binop_name(suffix):
return 'test_binop_{}_{}'.format(name, suffix)
- def test_ibinop_name(suffix):
- return 'test_ibinop_{}_{}'.format(name, suffix)
-
def test_unaryop_name(suffix):
return 'test_unaryop_{}_{}'.format(name, suffix)
setattr(cls, test_binop_name('lhs_value_same_true'), partialmethod(_TestNumericValue._test_binop_lhs_value_same_true, op=binop))
setattr(cls, test_binop_name('lhs_value_same_pos_int'), partialmethod(_TestNumericValue._test_binop_lhs_value_same_pos_int, op=binop))
setattr(cls, test_binop_name('lhs_value_same_pos_vint'), partialmethod(_TestNumericValue._test_binop_lhs_value_same_pos_vint, op=binop))
-
- if has_neg:
- setattr(cls, test_binop_name('type_neg_int'), partialmethod(_TestNumericValue._test_binop_type_neg_int, op=binop))
- setattr(cls, test_binop_name('type_neg_vint'), partialmethod(_TestNumericValue._test_binop_type_neg_vint, op=binop))
- setattr(cls, test_binop_name('value_neg_int'), partialmethod(_TestNumericValue._test_binop_value_neg_int, op=binop))
- setattr(cls, test_binop_name('value_neg_vint'), partialmethod(_TestNumericValue._test_binop_value_neg_vint, op=binop))
- setattr(cls, test_binop_name('lhs_addr_same_neg_int'), partialmethod(_TestNumericValue._test_binop_lhs_addr_same_neg_int, op=binop))
- setattr(cls, test_binop_name('lhs_addr_same_neg_vint'), partialmethod(_TestNumericValue._test_binop_lhs_addr_same_neg_vint, op=binop))
- setattr(cls, test_binop_name('lhs_value_same_neg_int'), partialmethod(_TestNumericValue._test_binop_lhs_value_same_neg_int, op=binop))
- setattr(cls, test_binop_name('lhs_value_same_neg_vint'), partialmethod(_TestNumericValue._test_binop_lhs_value_same_neg_vint, op=binop))
-
+ setattr(cls, test_binop_name('type_neg_int'), partialmethod(_TestNumericValue._test_binop_type_neg_int, op=binop))
+ setattr(cls, test_binop_name('type_neg_vint'), partialmethod(_TestNumericValue._test_binop_type_neg_vint, op=binop))
+ setattr(cls, test_binop_name('value_neg_int'), partialmethod(_TestNumericValue._test_binop_value_neg_int, op=binop))
+ setattr(cls, test_binop_name('value_neg_vint'), partialmethod(_TestNumericValue._test_binop_value_neg_vint, op=binop))
+ setattr(cls, test_binop_name('lhs_addr_same_neg_int'), partialmethod(_TestNumericValue._test_binop_lhs_addr_same_neg_int, op=binop))
+ setattr(cls, test_binop_name('lhs_addr_same_neg_vint'), partialmethod(_TestNumericValue._test_binop_lhs_addr_same_neg_vint, op=binop))
+ setattr(cls, test_binop_name('lhs_value_same_neg_int'), partialmethod(_TestNumericValue._test_binop_lhs_value_same_neg_int, op=binop))
+ setattr(cls, test_binop_name('lhs_value_same_neg_vint'), partialmethod(_TestNumericValue._test_binop_lhs_value_same_neg_vint, op=binop))
setattr(cls, test_binop_name('type_false'), partialmethod(_TestNumericValue._test_binop_type_false, op=binop))
setattr(cls, test_binop_name('type_zero_int'), partialmethod(_TestNumericValue._test_binop_type_zero_int, op=binop))
setattr(cls, test_binop_name('type_zero_vint'), partialmethod(_TestNumericValue._test_binop_type_zero_vint, op=binop))
setattr(cls, test_binop_name('lhs_value_same_false'), partialmethod(_TestNumericValue._test_binop_lhs_value_same_false, op=binop))
setattr(cls, test_binop_name('lhs_value_same_zero_int'), partialmethod(_TestNumericValue._test_binop_lhs_value_same_zero_int, op=binop))
setattr(cls, test_binop_name('lhs_value_same_zero_vint'), partialmethod(_TestNumericValue._test_binop_lhs_value_same_zero_vint, op=binop))
-
- if has_neg:
- setattr(cls, test_binop_name('type_neg_float'), partialmethod(_TestNumericValue._test_binop_type_neg_float, op=binop))
- setattr(cls, test_binop_name('type_neg_vfloat'), partialmethod(_TestNumericValue._test_binop_type_neg_vfloat, op=binop))
- setattr(cls, test_binop_name('value_neg_float'), partialmethod(_TestNumericValue._test_binop_value_neg_float, op=binop))
- setattr(cls, test_binop_name('value_neg_vfloat'), partialmethod(_TestNumericValue._test_binop_value_neg_vfloat, op=binop))
- setattr(cls, test_binop_name('lhs_addr_same_neg_float'), partialmethod(_TestNumericValue._test_binop_lhs_addr_same_neg_float, op=binop))
- setattr(cls, test_binop_name('lhs_addr_same_neg_vfloat'), partialmethod(_TestNumericValue._test_binop_lhs_addr_same_neg_vfloat, op=binop))
- setattr(cls, test_binop_name('lhs_value_same_neg_float'), partialmethod(_TestNumericValue._test_binop_lhs_value_same_neg_float, op=binop))
- setattr(cls, test_binop_name('lhs_value_same_neg_vfloat'), partialmethod(_TestNumericValue._test_binop_lhs_value_same_neg_vfloat, op=binop))
-
+ setattr(cls, test_binop_name('type_neg_float'), partialmethod(_TestNumericValue._test_binop_type_neg_float, op=binop))
+ setattr(cls, test_binop_name('type_neg_vfloat'), partialmethod(_TestNumericValue._test_binop_type_neg_vfloat, op=binop))
+ setattr(cls, test_binop_name('value_neg_float'), partialmethod(_TestNumericValue._test_binop_value_neg_float, op=binop))
+ setattr(cls, test_binop_name('value_neg_vfloat'), partialmethod(_TestNumericValue._test_binop_value_neg_vfloat, op=binop))
+ setattr(cls, test_binop_name('lhs_addr_same_neg_float'), partialmethod(_TestNumericValue._test_binop_lhs_addr_same_neg_float, op=binop))
+ setattr(cls, test_binop_name('lhs_addr_same_neg_vfloat'), partialmethod(_TestNumericValue._test_binop_lhs_addr_same_neg_vfloat, op=binop))
+ setattr(cls, test_binop_name('lhs_value_same_neg_float'), partialmethod(_TestNumericValue._test_binop_lhs_value_same_neg_float, op=binop))
+ setattr(cls, test_binop_name('lhs_value_same_neg_vfloat'), partialmethod(_TestNumericValue._test_binop_lhs_value_same_neg_vfloat, op=binop))
setattr(cls, test_binop_name('type_pos_float'), partialmethod(_TestNumericValue._test_binop_type_pos_float, op=binop))
setattr(cls, test_binop_name('type_pos_vfloat'), partialmethod(_TestNumericValue._test_binop_type_pos_vfloat, op=binop))
setattr(cls, test_binop_name('value_pos_float'), partialmethod(_TestNumericValue._test_binop_value_pos_float, op=binop))
setattr(cls, test_binop_name('lhs_addr_same_zero_vfloat'), partialmethod(_TestNumericValue._test_binop_lhs_addr_same_zero_vfloat, op=binop))
setattr(cls, test_binop_name('lhs_value_same_zero_float'), partialmethod(_TestNumericValue._test_binop_lhs_value_same_zero_float, op=binop))
setattr(cls, test_binop_name('lhs_value_same_zero_vfloat'), partialmethod(_TestNumericValue._test_binop_lhs_value_same_zero_vfloat, op=binop))
+ setattr(cls, test_binop_name('type_complex'), partialmethod(_TestNumericValue._test_binop_type_complex, op=binop))
+ setattr(cls, test_binop_name('type_zero_complex'), partialmethod(_TestNumericValue._test_binop_type_zero_complex, op=binop))
+ setattr(cls, test_binop_name('value_complex'), partialmethod(_TestNumericValue._test_binop_value_complex, op=binop))
+ setattr(cls, test_binop_name('value_zero_complex'), partialmethod(_TestNumericValue._test_binop_value_zero_complex, op=binop))
+ setattr(cls, test_binop_name('lhs_addr_same_complex'), partialmethod(_TestNumericValue._test_binop_lhs_addr_same_complex, op=binop))
+ setattr(cls, test_binop_name('lhs_addr_same_zero_complex'), partialmethod(_TestNumericValue._test_binop_lhs_addr_same_zero_complex, op=binop))
+ setattr(cls, test_binop_name('lhs_value_same_complex'), partialmethod(_TestNumericValue._test_binop_lhs_value_same_complex, op=binop))
+ setattr(cls, test_binop_name('lhs_value_same_zero_complex'), partialmethod(_TestNumericValue._test_binop_lhs_value_same_zero_complex, op=binop))
# inject testing methods for each unary operation
for name, unaryop in _UNARYOPS:
setattr(cls, test_unaryop_name('addr_same'), partialmethod(_TestNumericValue._test_unaryop_addr_same, op=unaryop))
setattr(cls, test_unaryop_name('value_same'), partialmethod(_TestNumericValue._test_unaryop_value_same, op=unaryop))
- # inject testing methods for each inplace binary operation
- for name, ibinop in _IBINOPS:
- setattr(cls, test_ibinop_name('invalid_unknown'), partialmethod(_TestNumericValue._test_ibinop_invalid_unknown, op=ibinop))
- setattr(cls, test_ibinop_name('invalid_none'), partialmethod(_TestNumericValue._test_ibinop_invalid_none, op=ibinop))
- setattr(cls, test_ibinop_name('type_true'), partialmethod(_TestNumericValue._test_ibinop_type_true, op=ibinop))
- setattr(cls, test_ibinop_name('value_true'), partialmethod(_TestNumericValue._test_ibinop_value_true, op=ibinop))
- setattr(cls, test_ibinop_name('type_pos_int'), partialmethod(_TestNumericValue._test_ibinop_type_pos_int, op=ibinop))
- setattr(cls, test_ibinop_name('type_pos_vint'), partialmethod(_TestNumericValue._test_ibinop_type_pos_vint, op=ibinop))
- setattr(cls, test_ibinop_name('value_pos_int'), partialmethod(_TestNumericValue._test_ibinop_value_pos_int, op=ibinop))
- setattr(cls, test_ibinop_name('value_pos_vint'), partialmethod(_TestNumericValue._test_ibinop_value_pos_vint, op=ibinop))
-
- if has_neg:
- setattr(cls, test_ibinop_name('type_neg_int'), partialmethod(_TestNumericValue._test_ibinop_type_neg_int, op=ibinop))
- setattr(cls, test_ibinop_name('type_neg_vint'), partialmethod(_TestNumericValue._test_ibinop_type_neg_vint, op=ibinop))
- setattr(cls, test_ibinop_name('value_neg_int'), partialmethod(_TestNumericValue._test_ibinop_value_neg_int, op=ibinop))
- setattr(cls, test_ibinop_name('value_neg_vint'), partialmethod(_TestNumericValue._test_ibinop_value_neg_vint, op=ibinop))
-
- setattr(cls, test_ibinop_name('type_false'), partialmethod(_TestNumericValue._test_ibinop_type_false, op=ibinop))
- setattr(cls, test_ibinop_name('value_false'), partialmethod(_TestNumericValue._test_ibinop_value_false, op=ibinop))
- setattr(cls, test_ibinop_name('type_zero_int'), partialmethod(_TestNumericValue._test_ibinop_type_zero_int, op=ibinop))
- setattr(cls, test_ibinop_name('type_zero_vint'), partialmethod(_TestNumericValue._test_ibinop_type_zero_vint, op=ibinop))
- setattr(cls, test_ibinop_name('value_zero_int'), partialmethod(_TestNumericValue._test_ibinop_value_zero_int, op=ibinop))
- setattr(cls, test_ibinop_name('value_zero_vint'), partialmethod(_TestNumericValue._test_ibinop_value_zero_vint, op=ibinop))
- setattr(cls, test_ibinop_name('type_pos_float'), partialmethod(_TestNumericValue._test_ibinop_type_pos_float, op=ibinop))
-
- if has_neg:
- setattr(cls, test_ibinop_name('type_neg_float'), partialmethod(_TestNumericValue._test_ibinop_type_neg_float, op=ibinop))
- setattr(cls, test_ibinop_name('type_neg_vfloat'), partialmethod(_TestNumericValue._test_ibinop_type_neg_vfloat, op=ibinop))
- setattr(cls, test_ibinop_name('value_neg_float'), partialmethod(_TestNumericValue._test_ibinop_value_neg_float, op=ibinop))
- setattr(cls, test_ibinop_name('value_neg_vfloat'), partialmethod(_TestNumericValue._test_ibinop_value_neg_vfloat, op=ibinop))
-
- setattr(cls, test_ibinop_name('type_pos_vfloat'), partialmethod(_TestNumericValue._test_ibinop_type_pos_vfloat, op=ibinop))
- setattr(cls, test_ibinop_name('value_pos_float'), partialmethod(_TestNumericValue._test_ibinop_value_pos_float, op=ibinop))
- setattr(cls, test_ibinop_name('value_pos_vfloat'), partialmethod(_TestNumericValue._test_ibinop_value_pos_vfloat, op=ibinop))
- setattr(cls, test_ibinop_name('type_zero_float'), partialmethod(_TestNumericValue._test_ibinop_type_zero_float, op=ibinop))
- setattr(cls, test_ibinop_name('type_zero_vfloat'), partialmethod(_TestNumericValue._test_ibinop_type_zero_vfloat, op=ibinop))
- setattr(cls, test_ibinop_name('value_zero_float'), partialmethod(_TestNumericValue._test_ibinop_value_zero_float, op=ibinop))
- setattr(cls, test_ibinop_name('value_zero_vfloat'), partialmethod(_TestNumericValue._test_ibinop_value_zero_vfloat, op=ibinop))
-
class CreateValueFuncTestCase(unittest.TestCase):
def test_create_none(self):
v = bt2.create_value(a)
-class BoolValueTestCase(_TestCopySimple, unittest.TestCase):
+class BoolValueTestCase(_TestNumericValue, unittest.TestCase):
def setUp(self):
self._f = bt2.BoolValue(False)
self._t = bt2.BoolValue(True)
self.assertNotEqual(self._t, False)
+_inject_numeric_testing_methods(BoolValueTestCase)
+
+
class _TestIntegerValue(_TestNumericValue):
def setUp(self):
self._pv = 23
del self._def_value
def _assert_expecting_int(self):
- return self.assertRaisesRegex(TypeError, r'expecting a number object')
+ return self.assertRaisesRegex(TypeError, r'expecting an integral number object')
def _assert_expecting_int64(self):
return self.assertRaisesRegex(ValueError, r"expecting a signed 64-bit integral value")
i = self._CLS(True)
self.assertTrue(i)
- def test_create_from_float(self):
- i = self._CLS(99.6)
- self.assertEqual(i, 99)
-
- def test_create_from_vfloat(self):
- f = bt2.create_value(17.5)
- i = self._CLS(f)
- self.assertEqual(i, 17)
-
def test_create_from_unknown(self):
class A:
pass
self._def.value = bt2.create_value(raw)
self.assertEqual(self._def, raw)
- def test_assign_vfloat(self):
- raw = 123.456
- self._def.value = bt2.create_value(raw)
- self.assertEqual(self._def, int(raw))
-
class SignedIntegerValueTestCase(_TestIntegerValue, unittest.TestCase):
_CLS = bt2.SignedIntegerValue
self._def.value = raw
self.assertEqual(self._def, raw)
+ def test_compare_big_int(self):
+ # Larger than the IEEE 754 double-precision exact representation of
+ # integers.
+ raw = (2**53) + 1
+ v = bt2.create_value(raw)
+ self.assertEqual(v, raw)
+
_inject_numeric_testing_methods(SignedIntegerValueTestCase)
i = self._CLS(-1)
-_inject_numeric_testing_methods(UnsignedIntegerValueTestCase, False)
+_inject_numeric_testing_methods(UnsignedIntegerValueTestCase)
class RealValueTestCase(_TestNumericValue, unittest.TestCase):
a2 = bt2.ArrayValue(copy.deepcopy(raw))
self.assertEqual(a1, a2)
+ def test_eq_non_sequence_iterable(self):
+ dct = collections.OrderedDict([(1, 2), (3, 4), (5, 6)])
+ a = bt2.ArrayValue((1, 3, 5))
+ self.assertEqual(a, list(dct.keys()))
+ self.assertNotEqual(a, dct)
+
def test_setitem_int(self):
raw = 19
self._def[2] = raw
projects / babeltrace.git / blobdiff