circuitpython/tools/mpy-tool.py

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#!/usr/bin/env python3
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# SPDX-FileCopyrightText: Copyright (c) 2016-2019 Damien P. George
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# SPDX-FileCopyrightText: 2014 MicroPython & CircuitPython contributors (https://github.com/adafruit/circuitpython/graphs/contributors)
#
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# SPDX-License-Identifier: MIT
# Python 2/3 compatibility code
from __future__ import print_function
import platform
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if platform.python_version_tuple()[0] == "2":
str_cons = lambda val, enc=None: val
bytes_cons = lambda val, enc=None: bytearray(val)
is_str_type = lambda o: type(o) is str
is_bytes_type = lambda o: type(o) is bytearray
is_int_type = lambda o: type(o) is int or type(o) is long
else:
str_cons = str
bytes_cons = bytes
is_str_type = lambda o: type(o) is str
is_bytes_type = lambda o: type(o) is bytes
is_int_type = lambda o: type(o) is int
# end compatibility code
import sys
import struct
from collections import namedtuple
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sys.path.append(sys.path[0] + "/../py")
import makeqstrdata as qstrutil
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class FreezeError(Exception):
def __init__(self, rawcode, msg):
self.rawcode = rawcode
self.msg = msg
def __str__(self):
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return "error while freezing %s: %s" % (self.rawcode.source_file, self.msg)
class Config:
MPY_VERSION = 5
MICROPY_LONGINT_IMPL_NONE = 0
MICROPY_LONGINT_IMPL_LONGLONG = 1
MICROPY_LONGINT_IMPL_MPZ = 2
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config = Config()
class QStrType:
def __init__(self, str):
self.str = str
self.qstr_esc = qstrutil.qstr_escape(self.str)
self.qstr_id = "MP_QSTR_" + self.qstr_esc
# Initialise global list of qstrs with static qstrs
global_qstrs = [None] # MP_QSTRnull should never be referenced
for n in qstrutil.static_qstr_list:
global_qstrs.append(QStrType(n))
class QStrWindow:
def __init__(self, size):
self.window = []
self.size = size
def push(self, val):
self.window = [val] + self.window[: self.size - 1]
def access(self, idx):
val = self.window[idx]
self.window = [val] + self.window[:idx] + self.window[idx + 1 :]
return val
MP_CODE_BYTECODE = 2
MP_CODE_NATIVE_PY = 3
MP_CODE_NATIVE_VIPER = 4
MP_CODE_NATIVE_ASM = 5
MP_NATIVE_ARCH_NONE = 0
MP_NATIVE_ARCH_X86 = 1
MP_NATIVE_ARCH_X64 = 2
MP_NATIVE_ARCH_ARMV6 = 3
MP_NATIVE_ARCH_ARMV6M = 4
MP_NATIVE_ARCH_ARMV7M = 5
MP_NATIVE_ARCH_ARMV7EM = 6
MP_NATIVE_ARCH_ARMV7EMSP = 7
MP_NATIVE_ARCH_ARMV7EMDP = 8
MP_NATIVE_ARCH_XTENSA = 9
MP_NATIVE_ARCH_XTENSAWIN = 10
MP_BC_MASK_EXTRA_BYTE = 0x9E
MP_BC_FORMAT_BYTE = 0
MP_BC_FORMAT_QSTR = 1
MP_BC_FORMAT_VAR_UINT = 2
MP_BC_FORMAT_OFFSET = 3
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# extra byte if caching enabled:
MP_BC_LOAD_NAME = 0x11
MP_BC_LOAD_GLOBAL = 0x12
MP_BC_LOAD_ATTR = 0x13
MP_BC_STORE_ATTR = 0x18
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# this function mirrors that in py/bc.c
def mp_opcode_format(bytecode, ip, count_var_uint):
opcode = bytecode[ip]
ip_start = ip
f = (0x000003A4 >> (2 * ((opcode) >> 4))) & 3
if f == MP_BC_FORMAT_QSTR:
ip += 3
else:
extra_byte = (opcode & MP_BC_MASK_EXTRA_BYTE) == 0
ip += 1
if f == MP_BC_FORMAT_VAR_UINT:
if count_var_uint:
while bytecode[ip] & 0x80 != 0:
ip += 1
ip += 1
elif f == MP_BC_FORMAT_OFFSET:
ip += 2
ip += extra_byte
return f, ip - ip_start
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def read_prelude_sig(read_byte):
z = read_byte()
# xSSSSEAA
S = (z >> 3) & 0xF
E = (z >> 2) & 0x1
F = 0
A = z & 0x3
K = 0
D = 0
n = 0
while z & 0x80:
z = read_byte()
# xFSSKAED
S |= (z & 0x30) << (2 * n)
E |= (z & 0x02) << n
F |= ((z & 0x40) >> 6) << n
A |= (z & 0x4) << n
K |= ((z & 0x08) >> 3) << n
D |= (z & 0x1) << n
n += 1
S += 1
return S, E, F, A, K, D
def read_prelude_size(read_byte):
I = 0
C = 0
n = 0
while True:
z = read_byte()
# xIIIIIIC
I |= ((z & 0x7E) >> 1) << (6 * n)
C |= (z & 1) << n
if not (z & 0x80):
break
n += 1
return I, C
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def extract_prelude(bytecode, ip):
def local_read_byte():
b = bytecode[ip_ref[0]]
ip_ref[0] += 1
return b
ip_ref = [ip] # to close over ip in Python 2 and 3
(
n_state,
n_exc_stack,
scope_flags,
n_pos_args,
n_kwonly_args,
n_def_pos_args,
) = read_prelude_sig(local_read_byte)
n_info, n_cell = read_prelude_size(local_read_byte)
ip = ip_ref[0]
ip2 = ip
ip = ip2 + n_info + n_cell
# ip now points to first opcode
# ip2 points to simple_name qstr
return ip, ip2, (n_state, n_exc_stack, scope_flags, n_pos_args, n_kwonly_args, n_def_pos_args)
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class MPFunTable:
pass
class RawCode(object):
# a set of all escaped names, to make sure they are unique
escaped_names = set()
# convert code kind number to string
code_kind_str = {
MP_CODE_BYTECODE: "MP_CODE_BYTECODE",
MP_CODE_NATIVE_PY: "MP_CODE_NATIVE_PY",
MP_CODE_NATIVE_VIPER: "MP_CODE_NATIVE_VIPER",
MP_CODE_NATIVE_ASM: "MP_CODE_NATIVE_ASM",
}
def __init__(self, code_kind, bytecode, prelude_offset, qstrs, objs, raw_codes):
# set core variables
self.code_kind = code_kind
self.bytecode = bytecode
self.prelude_offset = prelude_offset
self.qstrs = qstrs
self.objs = objs
self.raw_codes = raw_codes
if self.prelude_offset is None:
# no prelude, assign a dummy simple_name
self.prelude_offset = 0
self.simple_name = global_qstrs[1]
else:
# extract prelude
self.ip, self.ip2, self.prelude = extract_prelude(self.bytecode, self.prelude_offset)
self.simple_name = self._unpack_qstr(self.ip2)
self.source_file = self._unpack_qstr(self.ip2 + 2)
self.line_info_offset = self.ip2 + 4
def _unpack_qstr(self, ip):
qst = self.bytecode[ip] | self.bytecode[ip + 1] << 8
return global_qstrs[qst]
def dump(self):
# dump children first
for rc in self.raw_codes:
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rc.freeze("")
# TODO
def freeze_children(self, parent_name):
self.escaped_name = parent_name + self.simple_name.qstr_esc
# make sure the escaped name is unique
i = 2
while self.escaped_name in RawCode.escaped_names:
self.escaped_name = parent_name + self.simple_name.qstr_esc + str(i)
i += 1
RawCode.escaped_names.add(self.escaped_name)
# emit children first
for rc in self.raw_codes:
rc.freeze(self.escaped_name + "_")
def freeze_constants(self):
# generate constant objects
for i, obj in enumerate(self.objs):
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obj_name = "const_obj_%s_%u" % (self.escaped_name, i)
if obj is MPFunTable:
pass
elif obj is Ellipsis:
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print("#define %s mp_const_ellipsis_obj" % obj_name)
elif is_str_type(obj) or is_bytes_type(obj):
if is_str_type(obj):
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obj = bytes_cons(obj, "utf8")
obj_type = "mp_type_str"
else:
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obj_type = "mp_type_bytes"
print(
'STATIC const mp_obj_str_t %s = {{&%s}, %u, %u, (const byte*)"%s"};'
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% (
obj_name,
obj_type,
qstrutil.compute_hash(obj, config.MICROPY_QSTR_BYTES_IN_HASH),
len(obj),
"".join(("\\x%02x" % b) for b in obj),
)
)
elif is_int_type(obj):
if config.MICROPY_LONGINT_IMPL == config.MICROPY_LONGINT_IMPL_NONE:
# TODO check if we can actually fit this long-int into a small-int
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raise FreezeError(self, "target does not support long int")
elif config.MICROPY_LONGINT_IMPL == config.MICROPY_LONGINT_IMPL_LONGLONG:
# TODO
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raise FreezeError(self, "freezing int to long-long is not implemented")
elif config.MICROPY_LONGINT_IMPL == config.MICROPY_LONGINT_IMPL_MPZ:
neg = 0
if obj < 0:
obj = -obj
neg = 1
bits_per_dig = config.MPZ_DIG_SIZE
digs = []
z = obj
while z:
digs.append(z & ((1 << bits_per_dig) - 1))
z >>= bits_per_dig
ndigs = len(digs)
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digs = ",".join(("%#x" % d) for d in digs)
print(
"STATIC const mp_obj_int_t %s = {{&mp_type_int}, "
"{.neg=%u, .fixed_dig=1, .alloc=%u, .len=%u, .dig=(uint%u_t*)(const uint%u_t[]){%s}}};"
% (obj_name, neg, ndigs, ndigs, bits_per_dig, bits_per_dig, digs)
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)
elif type(obj) is float:
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print(
"#if MICROPY_OBJ_REPR == MICROPY_OBJ_REPR_A || MICROPY_OBJ_REPR == MICROPY_OBJ_REPR_B"
)
print(
"STATIC const mp_obj_float_t %s = {{&mp_type_float}, (mp_float_t)%.16g};"
% (obj_name, obj)
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)
print("#endif")
elif type(obj) is complex:
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print(
"STATIC const mp_obj_complex_t %s = {{&mp_type_complex}, (mp_float_t)%.16g, (mp_float_t)%.16g};"
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% (obj_name, obj.real, obj.imag)
)
else:
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raise FreezeError(self, "freezing of object %r is not implemented" % (obj,))
# generate constant table, if it has any entries
const_table_len = len(self.qstrs) + len(self.objs) + len(self.raw_codes)
if const_table_len:
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print(
"STATIC const mp_rom_obj_t const_table_data_%s[%u] = {"
% (self.escaped_name, const_table_len)
)
for qst in self.qstrs:
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print(" MP_ROM_QSTR(%s)," % global_qstrs[qst].qstr_id)
for i in range(len(self.objs)):
if self.objs[i] is MPFunTable:
print(" &mp_fun_table,")
elif type(self.objs[i]) is float:
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print(
"#if MICROPY_OBJ_REPR == MICROPY_OBJ_REPR_A || MICROPY_OBJ_REPR == MICROPY_OBJ_REPR_B"
)
print(" MP_ROM_PTR(&const_obj_%s_%u)," % (self.escaped_name, i))
print("#elif MICROPY_OBJ_REPR == MICROPY_OBJ_REPR_C")
n = struct.unpack("<I", struct.pack("<f", self.objs[i]))[0]
n = ((n & ~0x3) | 2) + 0x80800000
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print(" (mp_rom_obj_t)(0x%08x)," % (n,))
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print("#elif MICROPY_OBJ_REPR == MICROPY_OBJ_REPR_D")
n = struct.unpack("<Q", struct.pack("<d", self.objs[i]))[0]
n += 0x8004000000000000
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print(" (mp_rom_obj_t)(0x%016x)," % (n,))
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print("#endif")
else:
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print(" MP_ROM_PTR(&const_obj_%s_%u)," % (self.escaped_name, i))
for rc in self.raw_codes:
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print(" MP_ROM_PTR(&raw_code_%s)," % rc.escaped_name)
print("};")
def freeze_module(self, qstr_links=(), type_sig=0):
# generate module
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if self.simple_name.str != "<module>":
print("STATIC ", end="")
print("const mp_raw_code_t raw_code_%s = {" % self.escaped_name)
print(" .kind = %s," % RawCode.code_kind_str[self.code_kind])
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print(" .scope_flags = 0x%02x," % self.prelude[2])
print(" .n_pos_args = %u," % self.prelude[3])
print(" .fun_data = fun_data_%s," % self.escaped_name)
if len(self.qstrs) + len(self.objs) + len(self.raw_codes):
print(" .const_table = (mp_uint_t*)const_table_data_%s," % self.escaped_name)
else:
print(" .const_table = NULL,")
print(" #if MICROPY_PERSISTENT_CODE_SAVE")
print(" .fun_data_len = %u," % len(self.bytecode))
print(" .n_obj = %u," % len(self.objs))
print(" .n_raw_code = %u," % len(self.raw_codes))
if self.code_kind == MP_CODE_BYTECODE:
print(" #if MICROPY_PY_SYS_SETTRACE")
print(" .prelude = {")
print(" .n_state = %u," % self.prelude[0])
print(" .n_exc_stack = %u," % self.prelude[1])
print(" .scope_flags = %u," % self.prelude[2])
print(" .n_pos_args = %u," % self.prelude[3])
print(" .n_kwonly_args = %u," % self.prelude[4])
print(" .n_def_pos_args = %u," % self.prelude[5])
print(" .qstr_block_name = %s," % self.simple_name.qstr_id)
print(" .qstr_source_file = %s," % self.source_file.qstr_id)
print(
" .line_info = fun_data_%s + %u,"
% (self.escaped_name, self.line_info_offset)
)
print(" .opcodes = fun_data_%s + %u," % (self.escaped_name, self.ip))
print(" },")
print(" .line_of_definition = %u," % 0) # TODO
print(" #endif")
print(" #if MICROPY_EMIT_MACHINE_CODE")
print(" .prelude_offset = %u," % self.prelude_offset)
print(" .n_qstr = %u," % len(qstr_links))
print(" .qstr_link = NULL,") # TODO
print(" #endif")
print(" #endif")
print(" #if MICROPY_EMIT_MACHINE_CODE")
print(" .type_sig = %u," % type_sig)
print(" #endif")
print("};")
class RawCodeBytecode(RawCode):
def __init__(self, bytecode, qstrs, objs, raw_codes):
super(RawCodeBytecode, self).__init__(
MP_CODE_BYTECODE, bytecode, 0, qstrs, objs, raw_codes
)
def freeze(self, parent_name):
self.freeze_children(parent_name)
# generate bytecode data
print()
print(
"// frozen bytecode for file %s, scope %s%s"
% (self.source_file.str, parent_name, self.simple_name.str)
)
all: Remove MICROPY_OPT_CACHE_MAP_LOOKUP_IN_BYTECODE. This commit removes all parts of code associated with the existing MICROPY_OPT_CACHE_MAP_LOOKUP_IN_BYTECODE optimisation option, including the -mcache-lookup-bc option to mpy-cross. This feature originally provided a significant performance boost for Unix, but wasn't able to be enabled for MCU targets (due to frozen bytecode), and added significant extra complexity to generating and distributing .mpy files. The equivalent performance gain is now provided by the combination of MICROPY_OPT_LOAD_ATTR_FAST_PATH and MICROPY_OPT_MAP_LOOKUP_CACHE (which has been enabled on the unix port in the previous commit). It's hard to provide precise performance numbers, but tests have been run on a wide variety of architectures (x86-64, ARM Cortex, Aarch64, RISC-V, xtensa) and they all generally agree on the qualitative improvements seen by the combination of MICROPY_OPT_LOAD_ATTR_FAST_PATH and MICROPY_OPT_MAP_LOOKUP_CACHE. For example, on a "quiet" Linux x64 environment (i3-5010U @ 2.10GHz) the change from CACHE_MAP_LOOKUP_IN_BYTECODE, to LOAD_ATTR_FAST_PATH combined with MAP_LOOKUP_CACHE is: diff of scores (higher is better) N=2000 M=2000 bccache -> attrmapcache diff diff% (error%) bm_chaos.py 13742.56 -> 13905.67 : +163.11 = +1.187% (+/-3.75%) bm_fannkuch.py 60.13 -> 61.34 : +1.21 = +2.012% (+/-2.11%) bm_fft.py 113083.20 -> 114793.68 : +1710.48 = +1.513% (+/-1.57%) bm_float.py 256552.80 -> 243908.29 : -12644.51 = -4.929% (+/-1.90%) bm_hexiom.py 521.93 -> 625.41 : +103.48 = +19.826% (+/-0.40%) bm_nqueens.py 197544.25 -> 217713.12 : +20168.87 = +10.210% (+/-3.01%) bm_pidigits.py 8072.98 -> 8198.75 : +125.77 = +1.558% (+/-3.22%) misc_aes.py 17283.45 -> 16480.52 : -802.93 = -4.646% (+/-0.82%) misc_mandel.py 99083.99 -> 128939.84 : +29855.85 = +30.132% (+/-5.88%) misc_pystone.py 83860.10 -> 82592.56 : -1267.54 = -1.511% (+/-2.27%) misc_raytrace.py 21490.40 -> 22227.23 : +736.83 = +3.429% (+/-1.88%) This shows that the new optimisations are at least as good as the existing inline-bytecode-caching, and are sometimes much better (because the new ones apply caching to a wider variety of map lookups). The new optimisations can also benefit code generated by the native emitter, because they apply to the runtime rather than the generated code. The improvement for the native emitter when LOAD_ATTR_FAST_PATH and MAP_LOOKUP_CACHE are enabled is (same Linux environment as above): diff of scores (higher is better) N=2000 M=2000 native -> nat-attrmapcache diff diff% (error%) bm_chaos.py 14130.62 -> 15464.68 : +1334.06 = +9.441% (+/-7.11%) bm_fannkuch.py 74.96 -> 76.16 : +1.20 = +1.601% (+/-1.80%) bm_fft.py 166682.99 -> 168221.86 : +1538.87 = +0.923% (+/-4.20%) bm_float.py 233415.23 -> 265524.90 : +32109.67 = +13.756% (+/-2.57%) bm_hexiom.py 628.59 -> 734.17 : +105.58 = +16.796% (+/-1.39%) bm_nqueens.py 225418.44 -> 232926.45 : +7508.01 = +3.331% (+/-3.10%) bm_pidigits.py 6322.00 -> 6379.52 : +57.52 = +0.910% (+/-5.62%) misc_aes.py 20670.10 -> 27223.18 : +6553.08 = +31.703% (+/-1.56%) misc_mandel.py 138221.11 -> 152014.01 : +13792.90 = +9.979% (+/-2.46%) misc_pystone.py 85032.14 -> 105681.44 : +20649.30 = +24.284% (+/-2.25%) misc_raytrace.py 19800.01 -> 23350.73 : +3550.72 = +17.933% (+/-2.79%) In summary, compared to MICROPY_OPT_CACHE_MAP_LOOKUP_IN_BYTECODE, the new MICROPY_OPT_LOAD_ATTR_FAST_PATH and MICROPY_OPT_MAP_LOOKUP_CACHE options: - are simpler; - take less code size; - are faster (generally); - work with code generated by the native emitter; - can be used on embedded targets with a small and constant RAM overhead; - allow the same .mpy bytecode to run on all targets. See #7680 for further discussion. And see also #7653 for a discussion about simplifying mpy-cross options. Signed-off-by: Jim Mussared <jim.mussared@gmail.com>
2021-09-05 22:28:06 -04:00
print("STATIC const byte fun_data_%s[%u] = {" % (self.escaped_name, len(self.bytecode)))
print(" ", end="")
for i in range(self.ip2):
print(" 0x%02x," % self.bytecode[i], end="")
print()
print(" ", self.simple_name.qstr_id, "& 0xff,", self.simple_name.qstr_id, ">> 8,")
print(" ", self.source_file.qstr_id, "& 0xff,", self.source_file.qstr_id, ">> 8,")
print(" ", end="")
for i in range(self.ip2 + 4, self.ip):
print(" 0x%02x," % self.bytecode[i], end="")
print()
ip = self.ip
while ip < len(self.bytecode):
f, sz = mp_opcode_format(self.bytecode, ip, True)
if f == 1:
qst = self._unpack_qstr(ip + 1).qstr_id
extra = "" if sz == 3 else " 0x%02x," % self.bytecode[ip + 3]
print(" ", "0x%02x," % self.bytecode[ip], qst, "& 0xff,", qst, ">> 8,", extra)
else:
print(" ", "".join("0x%02x, " % self.bytecode[ip + i] for i in range(sz)))
ip += sz
print("};")
self.freeze_constants()
self.freeze_module()
class RawCodeNative(RawCode):
def __init__(
self,
code_kind,
fun_data,
prelude_offset,
prelude,
qstr_links,
qstrs,
objs,
raw_codes,
type_sig,
):
super(RawCodeNative, self).__init__(
code_kind, fun_data, prelude_offset, qstrs, objs, raw_codes
)
self.prelude = prelude
self.qstr_links = qstr_links
self.type_sig = type_sig
if config.native_arch in (
MP_NATIVE_ARCH_X86,
MP_NATIVE_ARCH_X64,
MP_NATIVE_ARCH_XTENSA,
MP_NATIVE_ARCH_XTENSAWIN,
):
self.fun_data_attributes = '__attribute__((section(".text,\\"ax\\",@progbits # ")))'
else:
self.fun_data_attributes = '__attribute__((section(".text,\\"ax\\",%progbits @ ")))'
# Allow single-byte alignment by default for x86/x64.
# ARM needs word alignment, ARM Thumb needs halfword, due to instruction size.
# Xtensa needs word alignment due to the 32-bit constant table embedded in the code.
if config.native_arch in (
MP_NATIVE_ARCH_ARMV6,
MP_NATIVE_ARCH_XTENSA,
MP_NATIVE_ARCH_XTENSAWIN,
):
# ARMV6 or Xtensa -- four byte align.
self.fun_data_attributes += " __attribute__ ((aligned (4)))"
elif MP_NATIVE_ARCH_ARMV6M <= config.native_arch <= MP_NATIVE_ARCH_ARMV7EMDP:
# ARMVxxM -- two byte align.
self.fun_data_attributes += " __attribute__ ((aligned (2)))"
def _asm_thumb_rewrite_mov(self, pc, val):
print(" (%u & 0xf0) | (%s >> 12)," % (self.bytecode[pc], val), end="")
print(" (%u & 0xfb) | (%s >> 9 & 0x04)," % (self.bytecode[pc + 1], val), end="")
print(" (%s & 0xff)," % (val,), end="")
print(" (%u & 0x07) | (%s >> 4 & 0x70)," % (self.bytecode[pc + 3], val))
def _link_qstr(self, pc, kind, qst):
if kind == 0:
# Generic 16-bit link
print(" %s & 0xff, %s >> 8," % (qst, qst))
return 2
else:
# Architecture-specific link
is_obj = kind == 2
if is_obj:
qst = "((uintptr_t)MP_OBJ_NEW_QSTR(%s))" % qst
if config.native_arch in (
MP_NATIVE_ARCH_X86,
MP_NATIVE_ARCH_X64,
MP_NATIVE_ARCH_ARMV6,
MP_NATIVE_ARCH_XTENSA,
MP_NATIVE_ARCH_XTENSAWIN,
):
print(
" %s & 0xff, (%s >> 8) & 0xff, (%s >> 16) & 0xff, %s >> 24,"
% (qst, qst, qst, qst)
)
return 4
elif MP_NATIVE_ARCH_ARMV6M <= config.native_arch <= MP_NATIVE_ARCH_ARMV7EMDP:
if is_obj:
# qstr object, movw and movt
self._asm_thumb_rewrite_mov(pc, qst)
self._asm_thumb_rewrite_mov(pc + 4, "(%s >> 16)" % qst)
return 8
else:
# qstr number, movw instruction
self._asm_thumb_rewrite_mov(pc, qst)
return 4
else:
assert 0
def freeze(self, parent_name):
if self.prelude[2] & ~0x0F:
raise FreezeError("unable to freeze code with relocations")
self.freeze_children(parent_name)
# generate native code data
print()
if self.code_kind == MP_CODE_NATIVE_PY:
print(
"// frozen native code for file %s, scope %s%s"
% (self.source_file.str, parent_name, self.simple_name.str)
)
elif self.code_kind == MP_CODE_NATIVE_VIPER:
print("// frozen viper code for scope %s" % (parent_name,))
else:
print("// frozen assembler code for scope %s" % (parent_name,))
print(
"STATIC const byte fun_data_%s[%u] %s = {"
% (self.escaped_name, len(self.bytecode), self.fun_data_attributes)
)
if self.code_kind == MP_CODE_NATIVE_PY:
i_top = self.prelude_offset
else:
i_top = len(self.bytecode)
i = 0
qi = 0
while i < i_top:
if qi < len(self.qstr_links) and i == self.qstr_links[qi][0]:
# link qstr
qi_off, qi_kind, qi_val = self.qstr_links[qi]
qst = global_qstrs[qi_val].qstr_id
i += self._link_qstr(i, qi_kind, qst)
qi += 1
else:
# copy machine code (max 16 bytes)
i16 = min(i + 16, i_top)
if qi < len(self.qstr_links):
i16 = min(i16, self.qstr_links[qi][0])
print(" ", end="")
for ii in range(i, i16):
print(" 0x%02x," % self.bytecode[ii], end="")
print()
i = i16
if self.code_kind == MP_CODE_NATIVE_PY:
print(" ", end="")
for i in range(self.prelude_offset, self.ip2):
print(" 0x%02x," % self.bytecode[i], end="")
print()
print(" ", self.simple_name.qstr_id, "& 0xff,", self.simple_name.qstr_id, ">> 8,")
print(" ", self.source_file.qstr_id, "& 0xff,", self.source_file.qstr_id, ">> 8,")
print(" ", end="")
for i in range(self.ip2 + 4, self.ip):
print(" 0x%02x," % self.bytecode[i], end="")
print()
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print("};")
self.freeze_constants()
self.freeze_module(self.qstr_links, self.type_sig)
class BytecodeBuffer:
def __init__(self, size):
self.buf = bytearray(size)
self.idx = 0
def is_full(self):
return self.idx == len(self.buf)
def append(self, b):
self.buf[self.idx] = b
self.idx += 1
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def read_byte(f, out=None):
b = bytes_cons(f.read(1))[0]
if out is not None:
out.append(b)
return b
def read_uint(f, out=None):
i = 0
while True:
b = read_byte(f, out)
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i = (i << 7) | (b & 0x7F)
if b & 0x80 == 0:
break
return i
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def read_qstr(f, qstr_win):
ln = read_uint(f)
if ln == 0:
# static qstr
return bytes_cons(f.read(1))[0]
if ln & 1:
# qstr in table
return qstr_win.access(ln >> 1)
ln >>= 1
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data = str_cons(f.read(ln), "utf8")
global_qstrs.append(QStrType(data))
qstr_win.push(len(global_qstrs) - 1)
return len(global_qstrs) - 1
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def read_obj(f):
obj_type = f.read(1)
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if obj_type == b"e":
return Ellipsis
else:
buf = f.read(read_uint(f))
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if obj_type == b"s":
return str_cons(buf, "utf8")
elif obj_type == b"b":
return bytes_cons(buf)
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elif obj_type == b"i":
return int(str_cons(buf, "ascii"), 10)
elif obj_type == b"f":
return float(str_cons(buf, "ascii"))
elif obj_type == b"c":
return complex(str_cons(buf, "ascii"))
else:
assert 0
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def read_prelude(f, bytecode, qstr_win):
(
n_state,
n_exc_stack,
scope_flags,
n_pos_args,
n_kwonly_args,
n_def_pos_args,
) = read_prelude_sig(lambda: read_byte(f, bytecode))
n_info, n_cell = read_prelude_size(lambda: read_byte(f, bytecode))
read_qstr_and_pack(f, bytecode, qstr_win) # simple_name
read_qstr_and_pack(f, bytecode, qstr_win) # source_file
for _ in range(n_info - 4 + n_cell):
read_byte(f, bytecode)
return n_state, n_exc_stack, scope_flags, n_pos_args, n_kwonly_args, n_def_pos_args
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def read_qstr_and_pack(f, bytecode, qstr_win):
qst = read_qstr(f, qstr_win)
bytecode.append(qst & 0xFF)
bytecode.append(qst >> 8)
def read_bytecode(file, bytecode, qstr_win):
while not bytecode.is_full():
op = read_byte(file, bytecode)
f, sz = mp_opcode_format(bytecode.buf, bytecode.idx - 1, False)
sz -= 1
if f == MP_BC_FORMAT_QSTR:
read_qstr_and_pack(file, bytecode, qstr_win)
sz -= 2
elif f == MP_BC_FORMAT_VAR_UINT:
while read_byte(file, bytecode) & 0x80:
pass
for _ in range(sz):
read_byte(file, bytecode)
def read_raw_code(f, qstr_win):
kind_len = read_uint(f)
kind = (kind_len & 3) + MP_CODE_BYTECODE
fun_data_len = kind_len >> 2
fun_data = BytecodeBuffer(fun_data_len)
if kind == MP_CODE_BYTECODE:
prelude = read_prelude(f, fun_data, qstr_win)
read_bytecode(f, fun_data, qstr_win)
else:
fun_data.buf[:] = f.read(fun_data_len)
qstr_links = []
if kind in (MP_CODE_NATIVE_PY, MP_CODE_NATIVE_VIPER):
# load qstr link table
n_qstr_link = read_uint(f)
for _ in range(n_qstr_link):
off = read_uint(f)
qst = read_qstr(f, qstr_win)
qstr_links.append((off >> 2, off & 3, qst))
type_sig = 0
if kind == MP_CODE_NATIVE_PY:
prelude_offset = read_uint(f)
_, name_idx, prelude = extract_prelude(fun_data.buf, prelude_offset)
fun_data.idx = name_idx # rewind to where qstrs are in prelude
read_qstr_and_pack(f, fun_data, qstr_win) # simple_name
read_qstr_and_pack(f, fun_data, qstr_win) # source_file
else:
prelude_offset = None
scope_flags = read_uint(f)
n_pos_args = 0
if kind == MP_CODE_NATIVE_ASM:
n_pos_args = read_uint(f)
type_sig = read_uint(f)
prelude = (None, None, scope_flags, n_pos_args, 0)
qstrs = []
objs = []
raw_codes = []
if kind != MP_CODE_NATIVE_ASM:
# load constant table
n_obj = read_uint(f)
n_raw_code = read_uint(f)
qstrs = [read_qstr(f, qstr_win) for _ in range(prelude[3] + prelude[4])]
if kind != MP_CODE_BYTECODE:
objs.append(MPFunTable)
objs.extend([read_obj(f) for _ in range(n_obj)])
raw_codes = [read_raw_code(f, qstr_win) for _ in range(n_raw_code)]
if kind == MP_CODE_BYTECODE:
return RawCodeBytecode(fun_data.buf, qstrs, objs, raw_codes)
else:
return RawCodeNative(
kind,
fun_data.buf,
prelude_offset,
prelude,
qstr_links,
qstrs,
objs,
raw_codes,
type_sig,
)
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def read_mpy(filename):
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with open(filename, "rb") as f:
header = bytes_cons(f.read(4))
if header[0] != ord("C"):
raise Exception("not a valid CircuitPython .mpy file")
if header[1] != config.MPY_VERSION:
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raise Exception("incompatible .mpy version")
feature_byte = header[2]
qw_size = read_uint(f)
config.MICROPY_PY_BUILTINS_STR_UNICODE = (feature_byte & 2) != 0
mpy_native_arch = feature_byte >> 2
if mpy_native_arch != MP_NATIVE_ARCH_NONE:
if config.native_arch == MP_NATIVE_ARCH_NONE:
config.native_arch = mpy_native_arch
elif config.native_arch != mpy_native_arch:
raise Exception("native architecture mismatch")
config.mp_small_int_bits = header[3]
qstr_win = QStrWindow(qw_size)
rc = read_raw_code(f, qstr_win)
rc.mpy_source_file = filename
rc.qstr_win_size = qw_size
return rc
def dump_mpy(raw_codes):
for rc in raw_codes:
rc.dump()
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def freeze_mpy(base_qstrs, raw_codes):
# add to qstrs
new = {}
for q in global_qstrs:
# don't add duplicates
if q is None or q.qstr_esc in base_qstrs or q.qstr_esc in new:
continue
new[q.qstr_esc] = (len(new), q.qstr_esc, q.str)
new = sorted(new.values(), key=lambda x: x[0])
print('#include "py/bc0.h"')
print('#include "py/mpconfig.h"')
print('#include "py/objint.h"')
print('#include "py/objstr.h"')
print('#include "py/emitglue.h"')
print('#include "py/nativeglue.h"')
print()
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print("#if MICROPY_LONGINT_IMPL != %u" % config.MICROPY_LONGINT_IMPL)
print('#error "incompatible MICROPY_LONGINT_IMPL"')
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print("#endif")
print()
if config.MICROPY_LONGINT_IMPL == config.MICROPY_LONGINT_IMPL_MPZ:
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print("#if MPZ_DIG_SIZE != %u" % config.MPZ_DIG_SIZE)
print('#error "incompatible MPZ_DIG_SIZE"')
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print("#endif")
print()
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print("#if MICROPY_PY_BUILTINS_FLOAT")
print("typedef struct _mp_obj_float_t {")
print(" mp_obj_base_t base;")
print(" mp_float_t value;")
print("} mp_obj_float_t;")
print("#endif")
print()
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print("#if MICROPY_PY_BUILTINS_COMPLEX")
print("typedef struct _mp_obj_complex_t {")
print(" mp_obj_base_t base;")
print(" mp_float_t real;")
print(" mp_float_t imag;")
print("} mp_obj_complex_t;")
print("#endif")
print()
if new:
print("enum {")
for i in range(len(new)):
if i == 0:
print(" MP_QSTR_%s = MP_QSTRnumber_of," % new[i][1])
else:
print(" MP_QSTR_%s," % new[i][1])
print("};")
print()
print("const qstr_attr_t mp_qstr_frozen_const_attr[] = {")
qstr_size = {"metadata": 0, "data": 0}
for _, _, qstr in new:
qbytes = qstrutil.bytes_cons(qstr, "utf8")
print(
" {%d, %d},"
% (qstrutil.compute_hash(qbytes, config.MICROPY_QSTR_BYTES_IN_HASH), len(qbytes))
)
qstr_size["metadata"] += (
config.MICROPY_QSTR_BYTES_IN_LEN + config.MICROPY_QSTR_BYTES_IN_HASH
)
qstr_size["data"] += len(qbytes)
print("};")
# As in qstr.c, set so that the first dynamically allocated pool is twice this size; must be <= the len
qstr_pool_alloc = min(len(new), 10)
print()
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print("extern const qstr_pool_t mp_qstr_const_pool;")
print("const qstr_pool_t mp_qstr_frozen_const_pool = {")
print(" &mp_qstr_const_pool, // previous pool")
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print(" MP_QSTRnumber_of, // previous pool size")
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print(" %u, // allocated entries" % qstr_pool_alloc)
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print(" %u, // used entries" % len(new))
print(" (qstr_attr_t *)mp_qstr_frozen_const_attr,")
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print(" {")
for _, _, qstr in new:
print(' "%s",' % qstrutil.escape_bytes(qstr))
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print(" },")
print("};")
for rc in raw_codes:
rc.freeze(rc.source_file.str.replace("/", "_")[:-3] + "_")
print()
print("const char mp_frozen_names[] = {")
print("#ifdef MP_FROZEN_STR_NAMES")
# makemanifest.py might also include some frozen string content.
print("MP_FROZEN_STR_NAMES")
print("#endif")
for rc in raw_codes:
module_name = rc.source_file.str
print('"%s\\0"' % module_name)
print('"\\0"};')
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print("const mp_raw_code_t *const mp_frozen_mpy_content[] = {")
for rc in raw_codes:
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print(" &raw_code_%s," % rc.escaped_name)
print("};")
# If a port defines MICROPY_FROZEN_LIST_ITEM then list all modules wrapped in that macro.
print("#ifdef MICROPY_FROZEN_LIST_ITEM")
for rc in raw_codes:
module_name = rc.source_file.str
if module_name.endswith("/__init__.py"):
short_name = module_name[: -len("/__init__.py")]
else:
short_name = module_name[: -len(".py")]
print('MICROPY_FROZEN_LIST_ITEM("%s", "%s")' % (short_name, module_name))
print("#endif")
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def merge_mpy(raw_codes, output_file):
assert len(raw_codes) <= 31 # so var-uints all fit in 1 byte
merged_mpy = bytearray()
if len(raw_codes) == 1:
with open(raw_codes[0].mpy_source_file, "rb") as f:
merged_mpy.extend(f.read())
else:
header = bytearray(5)
header[0] = ord("C")
header[1] = config.MPY_VERSION
all: Remove MICROPY_OPT_CACHE_MAP_LOOKUP_IN_BYTECODE. This commit removes all parts of code associated with the existing MICROPY_OPT_CACHE_MAP_LOOKUP_IN_BYTECODE optimisation option, including the -mcache-lookup-bc option to mpy-cross. This feature originally provided a significant performance boost for Unix, but wasn't able to be enabled for MCU targets (due to frozen bytecode), and added significant extra complexity to generating and distributing .mpy files. The equivalent performance gain is now provided by the combination of MICROPY_OPT_LOAD_ATTR_FAST_PATH and MICROPY_OPT_MAP_LOOKUP_CACHE (which has been enabled on the unix port in the previous commit). It's hard to provide precise performance numbers, but tests have been run on a wide variety of architectures (x86-64, ARM Cortex, Aarch64, RISC-V, xtensa) and they all generally agree on the qualitative improvements seen by the combination of MICROPY_OPT_LOAD_ATTR_FAST_PATH and MICROPY_OPT_MAP_LOOKUP_CACHE. For example, on a "quiet" Linux x64 environment (i3-5010U @ 2.10GHz) the change from CACHE_MAP_LOOKUP_IN_BYTECODE, to LOAD_ATTR_FAST_PATH combined with MAP_LOOKUP_CACHE is: diff of scores (higher is better) N=2000 M=2000 bccache -> attrmapcache diff diff% (error%) bm_chaos.py 13742.56 -> 13905.67 : +163.11 = +1.187% (+/-3.75%) bm_fannkuch.py 60.13 -> 61.34 : +1.21 = +2.012% (+/-2.11%) bm_fft.py 113083.20 -> 114793.68 : +1710.48 = +1.513% (+/-1.57%) bm_float.py 256552.80 -> 243908.29 : -12644.51 = -4.929% (+/-1.90%) bm_hexiom.py 521.93 -> 625.41 : +103.48 = +19.826% (+/-0.40%) bm_nqueens.py 197544.25 -> 217713.12 : +20168.87 = +10.210% (+/-3.01%) bm_pidigits.py 8072.98 -> 8198.75 : +125.77 = +1.558% (+/-3.22%) misc_aes.py 17283.45 -> 16480.52 : -802.93 = -4.646% (+/-0.82%) misc_mandel.py 99083.99 -> 128939.84 : +29855.85 = +30.132% (+/-5.88%) misc_pystone.py 83860.10 -> 82592.56 : -1267.54 = -1.511% (+/-2.27%) misc_raytrace.py 21490.40 -> 22227.23 : +736.83 = +3.429% (+/-1.88%) This shows that the new optimisations are at least as good as the existing inline-bytecode-caching, and are sometimes much better (because the new ones apply caching to a wider variety of map lookups). The new optimisations can also benefit code generated by the native emitter, because they apply to the runtime rather than the generated code. The improvement for the native emitter when LOAD_ATTR_FAST_PATH and MAP_LOOKUP_CACHE are enabled is (same Linux environment as above): diff of scores (higher is better) N=2000 M=2000 native -> nat-attrmapcache diff diff% (error%) bm_chaos.py 14130.62 -> 15464.68 : +1334.06 = +9.441% (+/-7.11%) bm_fannkuch.py 74.96 -> 76.16 : +1.20 = +1.601% (+/-1.80%) bm_fft.py 166682.99 -> 168221.86 : +1538.87 = +0.923% (+/-4.20%) bm_float.py 233415.23 -> 265524.90 : +32109.67 = +13.756% (+/-2.57%) bm_hexiom.py 628.59 -> 734.17 : +105.58 = +16.796% (+/-1.39%) bm_nqueens.py 225418.44 -> 232926.45 : +7508.01 = +3.331% (+/-3.10%) bm_pidigits.py 6322.00 -> 6379.52 : +57.52 = +0.910% (+/-5.62%) misc_aes.py 20670.10 -> 27223.18 : +6553.08 = +31.703% (+/-1.56%) misc_mandel.py 138221.11 -> 152014.01 : +13792.90 = +9.979% (+/-2.46%) misc_pystone.py 85032.14 -> 105681.44 : +20649.30 = +24.284% (+/-2.25%) misc_raytrace.py 19800.01 -> 23350.73 : +3550.72 = +17.933% (+/-2.79%) In summary, compared to MICROPY_OPT_CACHE_MAP_LOOKUP_IN_BYTECODE, the new MICROPY_OPT_LOAD_ATTR_FAST_PATH and MICROPY_OPT_MAP_LOOKUP_CACHE options: - are simpler; - take less code size; - are faster (generally); - work with code generated by the native emitter; - can be used on embedded targets with a small and constant RAM overhead; - allow the same .mpy bytecode to run on all targets. See #7680 for further discussion. And see also #7653 for a discussion about simplifying mpy-cross options. Signed-off-by: Jim Mussared <jim.mussared@gmail.com>
2021-09-05 22:28:06 -04:00
header[2] = config.native_arch << 2 | config.MICROPY_PY_BUILTINS_STR_UNICODE << 1
header[3] = config.mp_small_int_bits
header[4] = 32 # qstr_win_size
merged_mpy.extend(header)
bytecode = bytearray()
bytecode_len = 6 + len(raw_codes) * 5 + 2
bytecode.append(bytecode_len << 2) # kind and length
bytecode.append(0b00000000) # signature prelude
bytecode.append(0b00001000) # size prelude
bytecode.extend(b"\x00\x01") # MP_QSTR_
bytecode.extend(b"\x00\x01") # MP_QSTR_
for idx in range(len(raw_codes)):
bytecode.append(0x32) # MP_BC_MAKE_FUNCTION
bytecode.append(idx) # index raw code
bytecode.extend(b"\x34\x00\x59") # MP_BC_CALL_FUNCTION, 0 args, MP_BC_POP_TOP
bytecode.extend(b"\x51\x63") # MP_BC_LOAD_NONE, MP_BC_RETURN_VALUE
bytecode.append(0) # n_obj
bytecode.append(len(raw_codes)) # n_raw_code
merged_mpy.extend(bytecode)
for rc in raw_codes:
with open(rc.mpy_source_file, "rb") as f:
f.read(4) # skip header
read_uint(f) # skip qstr_win_size
data = f.read() # read rest of mpy file
merged_mpy.extend(data)
if output_file is None:
sys.stdout.buffer.write(merged_mpy)
else:
with open(output_file, "wb") as f:
f.write(merged_mpy)
def main():
import argparse
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cmd_parser = argparse.ArgumentParser(description="A tool to work with MicroPython .mpy files.")
cmd_parser.add_argument("-d", "--dump", action="store_true", help="dump contents of files")
cmd_parser.add_argument("-f", "--freeze", action="store_true", help="freeze files")
cmd_parser.add_argument(
"--merge", action="store_true", help="merge multiple .mpy files into one"
)
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cmd_parser.add_argument("-q", "--qstr-header", help="qstr header file to freeze against")
cmd_parser.add_argument(
"-mlongint-impl",
choices=["none", "longlong", "mpz"],
default="mpz",
help="long-int implementation used by target (default mpz)",
)
cmd_parser.add_argument(
"-mmpz-dig-size",
metavar="N",
type=int,
default=16,
help="mpz digit size used by target (default 16)",
)
cmd_parser.add_argument("-o", "--output", default=None, help="output file")
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cmd_parser.add_argument("files", nargs="+", help="input .mpy files")
args = cmd_parser.parse_args()
# set config values relevant to target machine
config.MICROPY_LONGINT_IMPL = {
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"none": config.MICROPY_LONGINT_IMPL_NONE,
"longlong": config.MICROPY_LONGINT_IMPL_LONGLONG,
"mpz": config.MICROPY_LONGINT_IMPL_MPZ,
}[args.mlongint_impl]
config.MPZ_DIG_SIZE = args.mmpz_dig_size
config.native_arch = MP_NATIVE_ARCH_NONE
# set config values for qstrs, and get the existing base set of qstrs
if args.qstr_header:
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qcfgs, base_qstrs, _ = qstrutil.parse_input_headers([args.qstr_header])
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config.MICROPY_QSTR_BYTES_IN_LEN = int(qcfgs["BYTES_IN_LEN"])
config.MICROPY_QSTR_BYTES_IN_HASH = int(qcfgs["BYTES_IN_HASH"])
else:
config.MICROPY_QSTR_BYTES_IN_LEN = 1
config.MICROPY_QSTR_BYTES_IN_HASH = 1
base_qstrs = {}
raw_codes = [read_mpy(file) for file in args.files]
if args.dump:
dump_mpy(raw_codes)
elif args.freeze:
try:
freeze_mpy(base_qstrs, raw_codes)
except FreezeError as er:
print(er, file=sys.stderr)
sys.exit(1)
elif args.merge:
merged_mpy = merge_mpy(raw_codes, args.output)
2021-03-15 09:57:36 -04:00
if __name__ == "__main__":
main()