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|
#!/usr/bin/env python
from __future__ import print_function
import pyperf
from kafka.vendor import six
test_data = [
(b"\x00", 0),
(b"\x01", -1),
(b"\x02", 1),
(b"\x7E", 63),
(b"\x7F", -64),
(b"\x80\x01", 64),
(b"\x81\x01", -65),
(b"\xFE\x7F", 8191),
(b"\xFF\x7F", -8192),
(b"\x80\x80\x01", 8192),
(b"\x81\x80\x01", -8193),
(b"\xFE\xFF\x7F", 1048575),
(b"\xFF\xFF\x7F", -1048576),
(b"\x80\x80\x80\x01", 1048576),
(b"\x81\x80\x80\x01", -1048577),
(b"\xFE\xFF\xFF\x7F", 134217727),
(b"\xFF\xFF\xFF\x7F", -134217728),
(b"\x80\x80\x80\x80\x01", 134217728),
(b"\x81\x80\x80\x80\x01", -134217729),
(b"\xFE\xFF\xFF\xFF\x7F", 17179869183),
(b"\xFF\xFF\xFF\xFF\x7F", -17179869184),
(b"\x80\x80\x80\x80\x80\x01", 17179869184),
(b"\x81\x80\x80\x80\x80\x01", -17179869185),
(b"\xFE\xFF\xFF\xFF\xFF\x7F", 2199023255551),
(b"\xFF\xFF\xFF\xFF\xFF\x7F", -2199023255552),
(b"\x80\x80\x80\x80\x80\x80\x01", 2199023255552),
(b"\x81\x80\x80\x80\x80\x80\x01", -2199023255553),
(b"\xFE\xFF\xFF\xFF\xFF\xFF\x7F", 281474976710655),
(b"\xFF\xFF\xFF\xFF\xFF\xFF\x7F", -281474976710656),
(b"\x80\x80\x80\x80\x80\x80\x80\x01", 281474976710656),
(b"\x81\x80\x80\x80\x80\x80\x80\x01", -281474976710657),
(b"\xFE\xFF\xFF\xFF\xFF\xFF\xFF\x7F", 36028797018963967),
(b"\xFF\xFF\xFF\xFF\xFF\xFF\xFF\x7F", -36028797018963968),
(b"\x80\x80\x80\x80\x80\x80\x80\x80\x01", 36028797018963968),
(b"\x81\x80\x80\x80\x80\x80\x80\x80\x01", -36028797018963969),
(b"\xFE\xFF\xFF\xFF\xFF\xFF\xFF\xFF\x7F", 4611686018427387903),
(b"\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\x7F", -4611686018427387904),
(b"\x80\x80\x80\x80\x80\x80\x80\x80\x80\x01", 4611686018427387904),
(b"\x81\x80\x80\x80\x80\x80\x80\x80\x80\x01", -4611686018427387905),
]
BENCH_VALUES_ENC = [
60, # 1 byte
-8192, # 2 bytes
1048575, # 3 bytes
134217727, # 4 bytes
-17179869184, # 5 bytes
2199023255551, # 6 bytes
]
BENCH_VALUES_DEC = [
b"\x7E", # 1 byte
b"\xFF\x7F", # 2 bytes
b"\xFE\xFF\x7F", # 3 bytes
b"\xFF\xFF\xFF\x7F", # 4 bytes
b"\x80\x80\x80\x80\x01", # 5 bytes
b"\xFE\xFF\xFF\xFF\xFF\x7F", # 6 bytes
]
BENCH_VALUES_DEC = list(map(bytearray, BENCH_VALUES_DEC))
def _assert_valid_enc(enc_func):
for encoded, decoded in test_data:
assert enc_func(decoded) == encoded, decoded
def _assert_valid_dec(dec_func):
for encoded, decoded in test_data:
res, pos = dec_func(bytearray(encoded))
assert res == decoded, (decoded, res)
assert pos == len(encoded), (decoded, pos)
def _assert_valid_size(size_func):
for encoded, decoded in test_data:
assert size_func(decoded) == len(encoded), decoded
def encode_varint_1(num):
""" Encode an integer to a varint presentation. See
https://developers.google.com/protocol-buffers/docs/encoding?csw=1#varints
on how those can be produced.
Arguments:
num (int): Value to encode
Returns:
bytearray: Encoded presentation of integer with length from 1 to 10
bytes
"""
# Shift sign to the end of number
num = (num << 1) ^ (num >> 63)
# Max 10 bytes. We assert those are allocated
buf = bytearray(10)
for i in range(10):
# 7 lowest bits from the number and set 8th if we still have pending
# bits left to encode
buf[i] = num & 0x7f | (0x80 if num > 0x7f else 0)
num = num >> 7
if num == 0:
break
else:
# Max size of endcoded double is 10 bytes for unsigned values
raise ValueError("Out of double range")
return buf[:i + 1]
_assert_valid_enc(encode_varint_1)
def encode_varint_2(value, int2byte=six.int2byte):
value = (value << 1) ^ (value >> 63)
bits = value & 0x7f
value >>= 7
res = b""
while value:
res += int2byte(0x80 | bits)
bits = value & 0x7f
value >>= 7
return res + int2byte(bits)
_assert_valid_enc(encode_varint_2)
def encode_varint_3(value, buf):
append = buf.append
value = (value << 1) ^ (value >> 63)
bits = value & 0x7f
value >>= 7
while value:
append(0x80 | bits)
bits = value & 0x7f
value >>= 7
append(bits)
return value
for encoded, decoded in test_data:
res = bytearray()
encode_varint_3(decoded, res)
assert res == encoded
def encode_varint_4(value, int2byte=six.int2byte):
value = (value << 1) ^ (value >> 63)
if value <= 0x7f: # 1 byte
return int2byte(value)
if value <= 0x3fff: # 2 bytes
return int2byte(0x80 | (value & 0x7f)) + int2byte(value >> 7)
if value <= 0x1fffff: # 3 bytes
return int2byte(0x80 | (value & 0x7f)) + \
int2byte(0x80 | ((value >> 7) & 0x7f)) + \
int2byte(value >> 14)
if value <= 0xfffffff: # 4 bytes
return int2byte(0x80 | (value & 0x7f)) + \
int2byte(0x80 | ((value >> 7) & 0x7f)) + \
int2byte(0x80 | ((value >> 14) & 0x7f)) + \
int2byte(value >> 21)
if value <= 0x7ffffffff: # 5 bytes
return int2byte(0x80 | (value & 0x7f)) + \
int2byte(0x80 | ((value >> 7) & 0x7f)) + \
int2byte(0x80 | ((value >> 14) & 0x7f)) + \
int2byte(0x80 | ((value >> 21) & 0x7f)) + \
int2byte(value >> 28)
else:
# Return to general algorithm
bits = value & 0x7f
value >>= 7
res = b""
while value:
res += int2byte(0x80 | bits)
bits = value & 0x7f
value >>= 7
return res + int2byte(bits)
_assert_valid_enc(encode_varint_4)
# import dis
# dis.dis(encode_varint_4)
def encode_varint_5(value, buf, pos=0):
value = (value << 1) ^ (value >> 63)
bits = value & 0x7f
value >>= 7
while value:
buf[pos] = 0x80 | bits
bits = value & 0x7f
value >>= 7
pos += 1
buf[pos] = bits
return pos + 1
for encoded, decoded in test_data:
res = bytearray(10)
written = encode_varint_5(decoded, res)
assert res[:written] == encoded
def encode_varint_6(value, buf):
append = buf.append
value = (value << 1) ^ (value >> 63)
if value <= 0x7f: # 1 byte
append(value)
return 1
if value <= 0x3fff: # 2 bytes
append(0x80 | (value & 0x7f))
append(value >> 7)
return 2
if value <= 0x1fffff: # 3 bytes
append(0x80 | (value & 0x7f))
append(0x80 | ((value >> 7) & 0x7f))
append(value >> 14)
return 3
if value <= 0xfffffff: # 4 bytes
append(0x80 | (value & 0x7f))
append(0x80 | ((value >> 7) & 0x7f))
append(0x80 | ((value >> 14) & 0x7f))
append(value >> 21)
return 4
if value <= 0x7ffffffff: # 5 bytes
append(0x80 | (value & 0x7f))
append(0x80 | ((value >> 7) & 0x7f))
append(0x80 | ((value >> 14) & 0x7f))
append(0x80 | ((value >> 21) & 0x7f))
append(value >> 28)
return 5
else:
# Return to general algorithm
bits = value & 0x7f
value >>= 7
i = 0
while value:
append(0x80 | bits)
bits = value & 0x7f
value >>= 7
i += 1
append(bits)
return i
for encoded, decoded in test_data:
res = bytearray()
encode_varint_6(decoded, res)
assert res == encoded
def size_of_varint_1(value):
""" Number of bytes needed to encode an integer in variable-length format.
"""
value = (value << 1) ^ (value >> 63)
res = 0
while True:
res += 1
value = value >> 7
if value == 0:
break
return res
_assert_valid_size(size_of_varint_1)
def size_of_varint_2(value):
""" Number of bytes needed to encode an integer in variable-length format.
"""
value = (value << 1) ^ (value >> 63)
if value <= 0x7f:
return 1
if value <= 0x3fff:
return 2
if value <= 0x1fffff:
return 3
if value <= 0xfffffff:
return 4
if value <= 0x7ffffffff:
return 5
if value <= 0x3ffffffffff:
return 6
if value <= 0x1ffffffffffff:
return 7
if value <= 0xffffffffffffff:
return 8
if value <= 0x7fffffffffffffff:
return 9
return 10
_assert_valid_size(size_of_varint_2)
if six.PY3:
def _read_byte(memview, pos):
""" Read a byte from memoryview as an integer
Raises:
IndexError: if position is out of bounds
"""
return memview[pos]
else:
def _read_byte(memview, pos):
""" Read a byte from memoryview as an integer
Raises:
IndexError: if position is out of bounds
"""
return ord(memview[pos])
def decode_varint_1(buffer, pos=0):
""" Decode an integer from a varint presentation. See
https://developers.google.com/protocol-buffers/docs/encoding?csw=1#varints
on how those can be produced.
Arguments:
buffer (bytes-like): any object acceptable by ``memoryview``
pos (int): optional position to read from
Returns:
(int, int): Decoded int value and next read position
"""
value = 0
shift = 0
memview = memoryview(buffer)
for i in range(pos, pos + 10):
try:
byte = _read_byte(memview, i)
except IndexError:
raise ValueError("End of byte stream")
if byte & 0x80 != 0:
value |= (byte & 0x7f) << shift
shift += 7
else:
value |= byte << shift
break
else:
# Max size of endcoded double is 10 bytes for unsigned values
raise ValueError("Out of double range")
# Normalize sign
return (value >> 1) ^ -(value & 1), i + 1
_assert_valid_dec(decode_varint_1)
def decode_varint_2(buffer, pos=0):
result = 0
shift = 0
while 1:
b = buffer[pos]
result |= ((b & 0x7f) << shift)
pos += 1
if not (b & 0x80):
# result = result_type(() & mask)
return ((result >> 1) ^ -(result & 1), pos)
shift += 7
if shift >= 64:
raise ValueError("Out of int64 range")
_assert_valid_dec(decode_varint_2)
def decode_varint_3(buffer, pos=0):
result = buffer[pos]
if not (result & 0x81):
return (result >> 1), pos + 1
if not (result & 0x80):
return (result >> 1) ^ (~0), pos + 1
result &= 0x7f
pos += 1
shift = 7
while 1:
b = buffer[pos]
result |= ((b & 0x7f) << shift)
pos += 1
if not (b & 0x80):
return ((result >> 1) ^ -(result & 1), pos)
shift += 7
if shift >= 64:
raise ValueError("Out of int64 range")
_assert_valid_dec(decode_varint_3)
# import dis
# dis.dis(decode_varint_3)
runner = pyperf.Runner()
# Encode algorithms returning a bytes result
for bench_func in [
encode_varint_1,
encode_varint_2,
encode_varint_4]:
for i, value in enumerate(BENCH_VALUES_ENC):
runner.bench_func(
'{}_{}byte'.format(bench_func.__name__, i + 1),
bench_func, value)
# Encode algorithms writing to the buffer
for bench_func in [
encode_varint_3,
encode_varint_5,
encode_varint_6]:
for i, value in enumerate(BENCH_VALUES_ENC):
fname = bench_func.__name__
runner.timeit(
'{}_{}byte'.format(fname, i + 1),
stmt="{}({}, buffer)".format(fname, value),
setup="from __main__ import {}; buffer = bytearray(10)".format(
fname)
)
# Size algorithms
for bench_func in [
size_of_varint_1,
size_of_varint_2]:
for i, value in enumerate(BENCH_VALUES_ENC):
runner.bench_func(
'{}_{}byte'.format(bench_func.__name__, i + 1),
bench_func, value)
# Decode algorithms
for bench_func in [
decode_varint_1,
decode_varint_2,
decode_varint_3]:
for i, value in enumerate(BENCH_VALUES_DEC):
runner.bench_func(
'{}_{}byte'.format(bench_func.__name__, i + 1),
bench_func, value)
|
