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import random
from rpython.jit.backend.llsupport.asmmemmgr import AsmMemoryManager
from rpython.jit.backend.llsupport.asmmemmgr import MachineDataBlockWrapper
from rpython.jit.backend.llsupport.asmmemmgr import BlockBuilderMixin
from rpython.jit.backend.llsupport.codemap import CodemapStorage
from rpython.rtyper.lltypesystem import lltype, rffi
from rpython.rlib import debug
def test_get_index():
memmgr = AsmMemoryManager(min_fragment=8,
num_indices=5)
index = 0
for length in range(100):
assert memmgr._get_index(length) == index
if length in [8, 11, 15, 21]:
index += 1
def test_get_index_default_values():
memmgr = AsmMemoryManager()
jumps = [64, 86, 115, 154, 206, 275, 367, 490, 654, 873, 1165,
1554, 2073, 2765, 3687, 4917, 6557, 8743, 11658, 15545,
20727, 27637, 36850, 49134, 65513, 87351, 116469, 155293,
207058, 276078, 368105]
for i, jump in enumerate(jumps):
assert memmgr._get_index(jump) == i
assert memmgr._get_index(jump + 1) == i + 1
def test_add_free_block():
memmgr = AsmMemoryManager(min_fragment=8,
num_indices=5)
memmgr._add_free_block(10, 18)
assert memmgr.free_blocks == {10: 18}
assert memmgr.free_blocks_end == {18: 10}
assert memmgr.blocks_by_size == [[10], [], [], [], []]
memmgr._add_free_block(20, 30)
assert memmgr.free_blocks == {10: 18, 20: 30}
assert memmgr.free_blocks_end == {18: 10, 30: 20}
assert memmgr.blocks_by_size == [[10], [20], [], [], []]
memmgr._add_free_block(18, 20) # merge both left and right
assert memmgr.free_blocks == {10: 30}
assert memmgr.free_blocks_end == {30: 10}
assert memmgr.blocks_by_size == [[], [], [], [10], []]
def test_allocate_block():
memmgr = AsmMemoryManager(min_fragment=8,
num_indices=5)
memmgr._add_free_block(10, 18)
memmgr._add_free_block(20, 30)
(start, stop) = memmgr._allocate_block(4)
assert (start, stop) == (10, 18)
assert memmgr.free_blocks == {20: 30}
assert memmgr.free_blocks_end == {30: 20}
assert memmgr.blocks_by_size == [[], [20], [], [], []]
(start, stop) = memmgr._allocate_block(4)
assert (start, stop) == (20, 30)
assert memmgr.free_blocks == {}
assert memmgr.free_blocks_end == {}
assert memmgr.blocks_by_size == [[], [], [], [], []]
def test_malloc_without_fragment():
memmgr = AsmMemoryManager(min_fragment=8,
num_indices=5)
memmgr._add_free_block(10, 18)
memmgr._add_free_block(20, 30)
for minsize in range(1, 11):
for maxsize in range(minsize, 14):
(start, stop) = memmgr.malloc(minsize, maxsize)
if minsize <= 8:
assert (start, stop) == (10, 18)
else:
assert (start, stop) == (20, 30)
memmgr._add_free_block(start, stop)
memmgr._add_free_block(40, 49)
(start, stop) = memmgr.malloc(10, 10)
assert (start, stop) == (20, 30)
def test_malloc_with_fragment():
for reqsize in range(1, 33):
memmgr = AsmMemoryManager(min_fragment=8,
num_indices=5)
memmgr._add_free_block(12, 44)
(start, stop) = memmgr.malloc(reqsize, reqsize)
if reqsize + 8 <= 32:
assert (start, stop) == (12, 12 + reqsize)
assert memmgr.free_blocks == {stop: 44}
assert memmgr.free_blocks_end == {44: stop}
assert [stop] in memmgr.blocks_by_size
else:
assert (start, stop) == (12, 44)
assert memmgr.free_blocks == {}
assert memmgr.free_blocks_end == {}
assert memmgr.blocks_by_size == [[], [], [], [], []]
class TestAsmMemoryManager:
def setup_method(self, _):
self.asmmemmgr = AsmMemoryManager(min_fragment=8,
num_indices=10,
large_alloc_size=8192)
self.codemap = CodemapStorage()
def teardown_method(self, _):
self.asmmemmgr._delete()
def test_malloc_simple(self):
for i in range(100):
while self.asmmemmgr.total_memory_allocated < 16384:
reqsize = random.randrange(1, 200)
(start, stop) = self.asmmemmgr.malloc(reqsize, reqsize)
assert reqsize <= stop - start < reqsize + 8
assert self.asmmemmgr.total_memory_allocated in [8192, 16384]
self.teardown_method(None)
self.setup_method(None)
def test_random(self):
got = []
real_use = 0
prev_total = 0
iterations_without_allocating_more = 0
while True:
#
if got and (random.random() < 0.4 or len(got) == 1000):
# free
start, stop = got.pop(random.randrange(0, len(got)))
self.asmmemmgr.free(start, stop)
real_use -= (stop - start)
assert real_use >= 0
#
else:
# allocate
reqsize = random.randrange(1, 200)
if random.random() < 0.5:
reqmaxsize = reqsize
else:
reqmaxsize = reqsize + random.randrange(0, 200)
(start, stop) = self.asmmemmgr.malloc(reqsize, reqmaxsize)
assert reqsize <= stop - start < reqmaxsize + 8
for otherstart, otherstop in got: # no overlap
assert otherstop <= start or stop <= otherstart
got.append((start, stop))
real_use += (stop - start)
if self.asmmemmgr.total_memory_allocated == prev_total:
iterations_without_allocating_more += 1
if iterations_without_allocating_more == 40000:
break # ok
else:
new_total = self.asmmemmgr.total_memory_allocated
iterations_without_allocating_more = 0
print real_use, new_total
# We seem to never see a printed value greater
# than 131072. Be reasonable and allow up to 147456.
assert new_total <= 147456
prev_total = new_total
def test_insert_gcroot_marker(self):
puts = []
class FakeGcRootMap:
def register_asm_addr(self, retaddr, mark):
puts.append((retaddr, mark))
#
mc = BlockBuilderMixin()
mc.writechar('X')
mc.writechar('x')
mc.insert_gcroot_marker(['a', 'b', 'c', 'd'])
mc.writechar('Y')
mc.writechar('y')
mc.insert_gcroot_marker(['e', 'f', 'g'])
mc.writechar('Z')
mc.writechar('z')
#
gcrootmap = FakeGcRootMap()
allblocks = []
self.HAS_CODEMAP = False
rawstart = mc.materialize(self, allblocks, gcrootmap)
p = rffi.cast(rffi.CArrayPtr(lltype.Char), rawstart)
assert p[0] == 'X'
assert p[1] == 'x'
assert p[2] == 'Y'
assert p[3] == 'y'
assert p[4] == 'Z'
assert p[5] == 'z'
# 'allblocks' should be one block of length 6 + 15
# (15 = alignment - 1) containing the range(rawstart, rawstart + 6)
[(blockstart, blockend)] = allblocks
assert blockend == blockstart + 6 + (mc.ALIGN_MATERIALIZE - 1)
assert blockstart <= rawstart < rawstart + 6 <= blockend
assert puts == [(rawstart + 2, ['a', 'b', 'c', 'd']),
(rawstart + 4, ['e', 'f', 'g'])]
def test_blockbuildermixin(translated=True):
mc = BlockBuilderMixin(translated)
writtencode = []
for i in range(mc.SUBBLOCK_SIZE * 2 + 3):
assert mc.get_relative_pos() == i
mc.writechar(chr(i % 255))
writtencode.append(chr(i % 255))
if translated:
assert mc._cursubindex == 3
assert mc._cursubblock
assert mc._cursubblock.prev
assert mc._cursubblock.prev.prev
assert not mc._cursubblock.prev.prev.prev
#
for i in range(0, mc.SUBBLOCK_SIZE * 2 + 3, 2):
mc.overwrite(i, chr((i + 63) % 255))
writtencode[i] = chr((i + 63) % 255)
#
p = lltype.malloc(rffi.CCHARP.TO, mc.SUBBLOCK_SIZE * 2 + 3, flavor='raw')
addr = rffi.cast(lltype.Signed, p)
mc.copy_to_raw_memory(addr)
#
for i in range(mc.SUBBLOCK_SIZE * 2 + 3):
assert p[i] == writtencode[i]
#
debug._log = debug.DebugLog()
try:
mc._dump(addr, 'test-logname-section')
log = list(debug._log)
finally:
debug._log = None
encoded = ''.join(writtencode).encode('hex').upper()
ataddr = '@%x' % addr
assert log == [('test-logname-section',
[('debug_print', 'SYS_EXECUTABLE', '??'),
('debug_print', 'CODE_DUMP', ataddr, '+0 ', encoded)])]
lltype.free(p, flavor='raw')
def test_blockbuildermixin2():
test_blockbuildermixin(translated=False)
def test_machinedatablock():
ops = []
class FakeMemMgr:
_addr = 1597
def open_malloc(self, minsize):
result = (self._addr, self._addr + 100)
ops.append(('malloc', minsize) + result)
self._addr += 200
return result
def open_free(self, frm, to):
ops.append(('free', frm, to))
return to - frm >= 8
#
allblocks = []
md = MachineDataBlockWrapper(FakeMemMgr(), allblocks)
p = md.malloc_aligned(26, 16)
assert p == 1600
assert ops == [('malloc', 26 + 15, 1597, 1697)]
del ops[:]
#
p = md.malloc_aligned(26, 16)
assert p == 1632
p = md.malloc_aligned(26, 16)
assert p == 1664
assert allblocks == []
assert ops == []
#
p = md.malloc_aligned(27, 16)
assert p == 1808
assert allblocks == [(1597, 1697)]
assert ops == [('free', 1690, 1697),
('malloc', 27 + 15, 1797, 1897)]
del ops[:]
#
md.done()
assert allblocks == [(1597, 1697), (1797, 1835)]
assert ops == [('free', 1835, 1897)]
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