#!/usr/bin/env python3 # # This file is part of the MicroPython project, http://micropython.org/ # # The MIT License (MIT) # # Copyright (c) 2016-2019 Damien P. George # # Permission is hereby granted, free of charge, to any person obtaining a copy # of this software and associated documentation files (the "Software"), to deal # in the Software without restriction, including without limitation the rights # to use, copy, modify, merge, publish, distribute, sublicense, and/or sell # copies of the Software, and to permit persons to whom the Software is # furnished to do so, subject to the following conditions: # # The above copyright notice and this permission notice shall be included in # all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR # IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, # FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE # AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER # LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN # THE SOFTWARE. # Python 2/3 compatibility code from __future__ import print_function import platform 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 sys.path.append(sys.path[0] + '/../py') import makeqstrdata as qstrutil class FreezeError(Exception): def __init__(self, rawcode, msg): self.rawcode = rawcode self.msg = msg def __str__(self): 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 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 # 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 # 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: if config.MICROPY_OPT_CACHE_MAP_LOOKUP_IN_BYTECODE: if (opcode == MP_BC_LOAD_NAME or opcode == MP_BC_LOAD_GLOBAL or opcode == MP_BC_LOAD_ATTR or opcode == MP_BC_STORE_ATTR): ip += 1 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 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 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) 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) 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: 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): obj_name = 'const_obj_%s_%u' % (self.escaped_name, i) if obj is MPFunTable: pass elif obj is Ellipsis: print('#define %s mp_const_ellipsis_obj' % obj_name) elif is_str_type(obj) or is_bytes_type(obj): if is_str_type(obj): obj = bytes_cons(obj, 'utf8') obj_type = 'mp_type_str' else: obj_type = 'mp_type_bytes' print('STATIC const mp_obj_str_t %s = {{&%s}, %u, %u, (const byte*)"%s"};' % (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 raise FreezeError(self, 'target does not support long int') elif config.MICROPY_LONGINT_IMPL == config.MICROPY_LONGINT_IMPL_LONGLONG: # TODO 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) 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)) elif type(obj) is float: 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}, %.16g};' % (obj_name, obj)) print('#endif') elif type(obj) is complex: print('STATIC const mp_obj_complex_t %s = {{&mp_type_complex}, %.16g, %.16g};' % (obj_name, obj.real, obj.imag)) else: 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: print('STATIC const mp_rom_obj_t const_table_data_%s[%u] = {' % (self.escaped_name, const_table_len)) for qst in self.qstrs: 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: 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('> 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_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): 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() 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 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) i = (i << 7) | (b & 0x7f) if b & 0x80 == 0: break return i 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 data = str_cons(f.read(ln), 'utf8') global_qstrs.append(QStrType(data)) qstr_win.push(len(global_qstrs) - 1) return len(global_qstrs) - 1 def read_obj(f): obj_type = f.read(1) if obj_type == b'e': return Ellipsis else: buf = f.read(read_uint(f)) if obj_type == b's': return str_cons(buf, 'utf8') elif obj_type == b'b': return bytes_cons(buf) 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 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 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) def read_mpy(filename): with open(filename, 'rb') as f: header = bytes_cons(f.read(4)) if header[0] != ord('M'): raise Exception('not a valid .mpy file') if header[1] != config.MPY_VERSION: raise Exception('incompatible .mpy version') feature_byte = header[2] qw_size = read_uint(f) config.MICROPY_OPT_CACHE_MAP_LOOKUP_IN_BYTECODE = (feature_byte & 1) != 0 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) return read_raw_code(f, qstr_win) def dump_mpy(raw_codes): for rc in raw_codes: rc.dump() 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/mpconfig.h"') print('#include "py/objint.h"') print('#include "py/objstr.h"') print('#include "py/emitglue.h"') print() print('#if MICROPY_OPT_CACHE_MAP_LOOKUP_IN_BYTECODE != %u' % config.MICROPY_OPT_CACHE_MAP_LOOKUP_IN_BYTECODE) print('#error "incompatible MICROPY_OPT_CACHE_MAP_LOOKUP_IN_BYTECODE"') print('#endif') print() print('#if MICROPY_LONGINT_IMPL != %u' % config.MICROPY_LONGINT_IMPL) print('#error "incompatible MICROPY_LONGINT_IMPL"') print('#endif') print() if config.MICROPY_LONGINT_IMPL == config.MICROPY_LONGINT_IMPL_MPZ: print('#if MPZ_DIG_SIZE != %u' % config.MPZ_DIG_SIZE) print('#error "incompatible MPZ_DIG_SIZE"') print('#endif') print() 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() 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 len(new) > 0: 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('};') # 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() print('extern const qstr_pool_t mp_qstr_const_pool;'); print('const qstr_pool_t mp_qstr_frozen_const_pool = {') print(' (qstr_pool_t*)&mp_qstr_const_pool, // previous pool') print(' MP_QSTRnumber_of, // previous pool size') print(' %u, // allocated entries' % qstr_pool_alloc) print(' %u, // used entries' % len(new)) print(' {') for _, _, qstr in new: print(' %s,' % qstrutil.make_bytes(config.MICROPY_QSTR_BYTES_IN_LEN, config.MICROPY_QSTR_BYTES_IN_HASH, qstr)) print(' },') print('};') for rc in raw_codes: rc.freeze(rc.source_file.str.replace('/', '_')[:-3] + '_') print() print('const char mp_frozen_mpy_names[] = {') for rc in raw_codes: module_name = rc.source_file.str print('"%s\\0"' % module_name) print('"\\0"};') print('const mp_raw_code_t *const mp_frozen_mpy_content[] = {') for rc in raw_codes: print(' &raw_code_%s,' % rc.escaped_name) print('};') def main(): import argparse 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('-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('files', nargs='+', help='input .mpy files') args = cmd_parser.parse_args() # set config values relevant to target machine config.MICROPY_LONGINT_IMPL = { '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: qcfgs, base_qstrs = qstrutil.parse_input_headers([args.qstr_header]) 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) if __name__ == '__main__': main()