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Jython is an implementation of the high-level, dynamic, object-oriented
language Python written in 100% Pure Java, and seamlessly integrated with
the Java platform. It thus allows you to run Python on any Java platform.
"""Unit tests for the memoryview
XXX We need more tests! Some tests are in test_bytes
"""
import unittest
import sys
import gc
import weakref
import array
from test import test_support
import io
class AbstractMemoryTests:
source_bytes = b"abcdef"
@property
def _source(self):
return self.source_bytes
@property
def _types(self):
return filter(None, [self.ro_type, self.rw_type])
def check_getitem_with_type(self, tp):
item = self.getitem_type
b = tp(self._source)
oldrefcount = sys.getrefcount(b)
m = self._view(b)
self.assertEqual(m[0], item(b"a"))
self.assertIsInstance(m[0], bytes)
self.assertEqual(m[5], item(b"f"))
self.assertEqual(m[-1], item(b"f"))
self.assertEqual(m[-6], item(b"a"))
# Bounds checking
self.assertRaises(IndexError, lambda: m[6])
self.assertRaises(IndexError, lambda: m[-7])
self.assertRaises(IndexError, lambda: m[sys.maxsize])
self.assertRaises(IndexError, lambda: m[-sys.maxsize])
# Type checking
self.assertRaises(TypeError, lambda: m[None])
self.assertRaises(TypeError, lambda: m[0.0])
self.assertRaises(TypeError, lambda: m["a"])
m = None
self.assertEqual(sys.getrefcount(b), oldrefcount)
def test_getitem(self):
for tp in self._types:
self.check_getitem_with_type(tp)
def test_iter(self):
for tp in self._types:
b = tp(self._source)
m = self._view(b)
self.assertEqual(list(m), [m[i] for i in range(len(m))])
def test_repr(self):
for tp in self._types:
b = tp(self._source)
m = self._view(b)
self.assertIsInstance(m.__repr__(), str)
def test_setitem_readonly(self):
if not self.ro_type:
return
b = self.ro_type(self._source)
oldrefcount = sys.getrefcount(b)
m = self._view(b)
def setitem(value):
m[0] = value
self.assertRaises(TypeError, setitem, b"a")
self.assertRaises(TypeError, setitem, 65)
self.assertRaises(TypeError, setitem, memoryview(b"a"))
m = None
self.assertEqual(sys.getrefcount(b), oldrefcount)
def test_setitem_writable(self):
if not self.rw_type:
return
tp = self.rw_type
b = self.rw_type(self._source)
oldrefcount = sys.getrefcount(b)
m = self._view(b)
m[0] = tp(b"0")
self._check_contents(tp, b, b"0bcdef")
m[1:3] = tp(b"12")
self._check_contents(tp, b, b"012def")
m[1:1] = tp(b"")
self._check_contents(tp, b, b"012def")
m[:] = tp(b"abcdef")
self._check_contents(tp, b, b"abcdef")
# Overlapping copies of a view into itself
m[0:3] = m[2:5]
self._check_contents(tp, b, b"cdedef")
m[:] = tp(b"abcdef")
m[2:5] = m[0:3]
self._check_contents(tp, b, b"ababcf")
def setitem(key, value):
m[key] = tp(value)
# Bounds checking
self.assertRaises(IndexError, setitem, 6, b"a")
self.assertRaises(IndexError, setitem, -7, b"a")
self.assertRaises(IndexError, setitem, sys.maxsize, b"a")
self.assertRaises(IndexError, setitem, -sys.maxsize, b"a")
# Wrong index/slice types
self.assertRaises(TypeError, setitem, 0.0, b"a")
self.assertRaises(TypeError, setitem, (0,), b"a")
self.assertRaises(TypeError, setitem, "a", b"a")
# Trying to resize the memory object
self.assertRaises(ValueError, setitem, 0, b"")
self.assertRaises(ValueError, setitem, 0, b"ab")
self.assertRaises(ValueError, setitem, slice(1,1), b"a")
self.assertRaises(ValueError, setitem, slice(0,2), b"a")
m = None
self.assertEqual(sys.getrefcount(b), oldrefcount)
def test_delitem(self):
for tp in self._types:
b = tp(self._source)
m = self._view(b)
with self.assertRaises(TypeError):
del m[1]
with self.assertRaises(TypeError):
del m[1:4]
def test_tobytes(self):
for tp in self._types:
m = self._view(tp(self._source))
b = m.tobytes()
# This calls self.getitem_type() on each separate byte of b"abcdef"
expected = b"".join(
self.getitem_type(c) for c in b"abcdef")
self.assertEqual(b, expected)
self.assertIsInstance(b, bytes)
def test_tolist(self):
for tp in self._types:
m = self._view(tp(self._source))
l = m.tolist()
self.assertEqual(l, map(ord, b"abcdef"))
def test_compare(self):
# memoryviews can compare for equality with other objects
# having the buffer interface.
for tp in self._types:
m = self._view(tp(self._source))
for tp_comp in self._types:
self.assertTrue(m == tp_comp(b"abcdef"))
self.assertFalse(m != tp_comp(b"abcdef"))
self.assertFalse(m == tp_comp(b"abcde"))
self.assertTrue(m != tp_comp(b"abcde"))
self.assertFalse(m == tp_comp(b"abcde1"))
self.assertTrue(m != tp_comp(b"abcde1"))
self.assertTrue(m == m)
self.assertTrue(m == m[:])
self.assertTrue(m[0:6] == m[:])
self.assertFalse(m[0:5] == m)
# Comparison with objects which don't support the buffer API
self.assertFalse(m == u"abcdef")
self.assertTrue(m != u"abcdef")
self.assertFalse(u"abcdef" == m)
self.assertTrue(u"abcdef" != m)
# Unordered comparisons are unimplemented, and therefore give
# arbitrary results (they raise a TypeError in py3k)
def check_attributes_with_type(self, tp):
m = self._view(tp(self._source))
self.assertEqual(m.format, self.format)
self.assertIsInstance(m.format, str)
self.assertEqual(m.itemsize, self.itemsize)
self.assertEqual(m.ndim, 1)
self.assertEqual(m.shape, (6,))
self.assertEqual(len(m), 6)
self.assertEqual(m.strides, (self.itemsize,))
self.assertEqual(m.suboffsets, None)
return m
def test_attributes_readonly(self):
if not self.ro_type:
return
m = self.check_attributes_with_type(self.ro_type)
self.assertEqual(m.readonly, True)
def test_attributes_writable(self):
if not self.rw_type:
return
m = self.check_attributes_with_type(self.rw_type)
self.assertEqual(m.readonly, False)
# Disabled: unicode uses the old buffer API in 2.x
#def test_getbuffer(self):
## Test PyObject_GetBuffer() on a memoryview object.
#for tp in self._types:
#b = tp(self._source)
#oldrefcount = sys.getrefcount(b)
#m = self._view(b)
#oldviewrefcount = sys.getrefcount(m)
#s = unicode(m, "utf-8")
#self._check_contents(tp, b, s.encode("utf-8"))
#self.assertEqual(sys.getrefcount(m), oldviewrefcount)
#m = None
#self.assertEqual(sys.getrefcount(b), oldrefcount)
def test_gc(self):
for tp in self._types:
if not isinstance(tp, type):
# If tp is a factory rather than a plain type, skip
continue
class MySource(tp):
pass
class MyObject:
pass
# Create a reference cycle through a memoryview object
b = MySource(tp(b'abc'))
m = self._view(b)
o = MyObject()
b.m = m
b.o = o
wr = weakref.ref(o)
b = m = o = None
# The cycle must be broken
gc.collect()
self.assertTrue(wr() is None, wr())
def test_writable_readonly(self):
# Issue #10451: memoryview incorrectly exposes a readonly
# buffer as writable causing a segfault if using mmap
tp = self.ro_type
if tp is None:
return
b = tp(self._source)
m = self._view(b)
i = io.BytesIO(b'ZZZZ')
self.assertRaises(TypeError, i.readinto, m)
# Variations on source objects for the buffer: bytes-like objects, then arrays
# with itemsize > 1.
# NOTE: support for multi-dimensional objects is unimplemented.
class BaseBytesMemoryTests(AbstractMemoryTests):
ro_type = bytes
rw_type = bytearray
getitem_type = bytes
itemsize = 1
format = 'B'
# Disabled: array.array() does not support the new buffer API in 2.x
#class BaseArrayMemoryTests(AbstractMemoryTests):
#ro_type = None
#rw_type = lambda self, b: array.array('i', map(ord, b))
#getitem_type = lambda self, b: array.array('i', map(ord, b)).tostring()
#itemsize = array.array('i').itemsize
#format = 'i'
#def test_getbuffer(self):
## XXX Test should be adapted for non-byte buffers
#pass
#def test_tolist(self):
## XXX NotImplementedError: tolist() only supports byte views
#pass
# Variations on indirection levels: memoryview, slice of memoryview,
# slice of slice of memoryview.
# This is important to test allocation subtleties.
class BaseMemoryviewTests:
def _view(self, obj):
return memoryview(obj)
def _check_contents(self, tp, obj, contents):
self.assertEqual(obj, tp(contents))
class BaseMemorySliceTests:
source_bytes = b"XabcdefY"
def _view(self, obj):
m = memoryview(obj)
return m[1:7]
def _check_contents(self, tp, obj, contents):
self.assertEqual(obj[1:7], tp(contents))
def test_refs(self):
for tp in self._types:
m = memoryview(tp(self._source))
oldrefcount = sys.getrefcount(m)
m[1:2]
self.assertEqual(sys.getrefcount(m), oldrefcount)
class BaseMemorySliceSliceTests:
source_bytes = b"XabcdefY"
def _view(self, obj):
m = memoryview(obj)
return m[:7][1:]
def _check_contents(self, tp, obj, contents):
self.assertEqual(obj[1:7], tp(contents))
# Concrete test classes
class BytesMemoryviewTest(unittest.TestCase,
BaseMemoryviewTests, BaseBytesMemoryTests):
def test_constructor(self):
for tp in self._types:
ob = tp(self._source)
self.assertTrue(memoryview(ob))
self.assertTrue(memoryview(object=ob))
self.assertRaises(TypeError, memoryview)
self.assertRaises(TypeError, memoryview, ob, ob)
self.assertRaises(TypeError, memoryview, argument=ob)
self.assertRaises(TypeError, memoryview, ob, argument=True)
#class ArrayMemoryviewTest(unittest.TestCase,
#BaseMemoryviewTests, BaseArrayMemoryTests):
#def test_array_assign(self):
## Issue #4569: segfault when mutating a memoryview with itemsize != 1
#a = array.array('i', range(10))
#m = memoryview(a)
#new_a = array.array('i', range(9, -1, -1))
#m[:] = new_a
#self.assertEqual(a, new_a)
class BytesMemorySliceTest(unittest.TestCase,
BaseMemorySliceTests, BaseBytesMemoryTests):
pass
#class ArrayMemorySliceTest(unittest.TestCase,
#BaseMemorySliceTests, BaseArrayMemoryTests):
#pass
class BytesMemorySliceSliceTest(unittest.TestCase,
BaseMemorySliceSliceTests, BaseBytesMemoryTests):
pass
#class ArrayMemorySliceSliceTest(unittest.TestCase,
#BaseMemorySliceSliceTests, BaseArrayMemoryTests):
#pass
def test_main():
test_support.run_unittest(__name__)
if __name__ == "__main__":
test_main()