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python-uncompyle6/uncompyle2/scanner25.py
root f14ff1b76f Improvement from wibiti
2013-04-25 17:14:29 +02:00

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'''
Copyright (c) 1999 John Aycock
Copyright (c) 2000-2002 by hartmut Goebel <h.goebel@crazy-compilers.com>
Copyright (c) 2005 by Dan Pascu <dan@windowmaker.org>
See main module for license.
'''
import types
from collections import namedtuple
from array import array
from operator import itemgetter
from struct import *
from uncompyle2.opcode.opcode_25 import *
import disas as dis
import scanner as scan
class Scanner25(scan.Scanner):
def __init__(self):
self.Token = scan.Scanner.__init__(self, 2.5)
def disassemble(self, co, classname=None):
'''
Disassemble a code object, returning a list of 'Token'.
The main part of this procedure is modelled after
dis.disassemble().
'''
rv = []
customize = {}
Token = self.Token # shortcut
self.code = array('B', co.co_code)
for i in self.op_range(0, len(self.code)):
if self.code[i] in (RETURN_VALUE, END_FINALLY):
n = i + 1
self.code = array('B', co.co_code[:n])
# linestarts contains bloc code adresse (addr,block)
self.linestarts = list(dis.findlinestarts(co))
self.prev = [0]
# class and names
if classname:
classname = '_' + classname.lstrip('_') + '__'
def unmangle(name):
if name.startswith(classname) and name[-2:] != '__':
return name[len(classname) - 2:]
return name
free = [ unmangle(name) for name in (co.co_cellvars + co.co_freevars) ]
names = [ unmangle(name) for name in co.co_names ]
varnames = [ unmangle(name) for name in co.co_varnames ]
else:
free = co.co_cellvars + co.co_freevars
names = co.co_names
varnames = co.co_varnames
self.names = names
# list of instruction to remove/add or change to match with bytecode 2.7
self.toChange = []
self.restructBytecode()
codelen = len(self.code)
# mapping adresses of prev instru
for i in self.op_range(0, codelen):
op = self.code[i]
self.prev.append(i)
if self.op_hasArgument(op):
self.prev.append(i)
self.prev.append(i)
j = 0
linestarts = self.linestarts
self.lines = []
linetuple = namedtuple('linetuple', ['l_no', 'next'])
linestartoffsets = {a for (a, _) in linestarts}
(prev_start_byte, prev_line_no) = linestarts[0]
for (start_byte, line_no) in linestarts[1:]:
while j < start_byte:
self.lines.append(linetuple(prev_line_no, start_byte))
j += 1
last_op = self.code[self.prev[start_byte]]
(prev_start_byte, prev_line_no) = (start_byte, line_no)
while j < codelen:
self.lines.append(linetuple(prev_line_no, codelen))
j+=1
self.load_asserts = set()
for i in self.op_range(0, codelen):
if self.code[i] == PJIT and self.code[i+3] == LOAD_GLOBAL:
if names[self.get_argument(i+3)] == 'AssertionError':
self.load_asserts.add(i+3)
# self.lines contains (block,addrLastInstr)
cf = self.find_jump_targets(self.code)
# contains (code, [addrRefToCode])
last_stmt = self.next_stmt[0]
i = self.next_stmt[last_stmt]
replace = {}
while i < codelen-1:
if self.lines[last_stmt].next > i:
if self.code[last_stmt] == PRINT_ITEM:
if self.code[i] == PRINT_ITEM:
replace[i] = 'PRINT_ITEM_CONT'
elif self.code[i] == PRINT_NEWLINE:
replace[i] = 'PRINT_NEWLINE_CONT'
last_stmt = i
i = self.next_stmt[i]
imports = self.all_instr(0, codelen, (IMPORT_NAME, IMPORT_FROM, IMPORT_STAR))
if len(imports) > 1:
last_import = imports[0]
for i in imports[1:]:
if self.lines[last_import].next > i:
if self.code[last_import] == IMPORT_NAME == self.code[i]:
replace[i] = 'IMPORT_NAME_CONT'
last_import = i
extended_arg = 0
for offset in self.op_range(0, codelen):
op = self.code[offset]
op_name = opname[op]
oparg = None; pattr = None
if offset in cf:
k = 0
for j in cf[offset]:
rv.append(Token('COME_FROM', None, repr(j),
offset="%s_%d" % (offset, k) ))
k += 1
if self.op_hasArgument(op):
oparg = self.get_argument(offset) + extended_arg
extended_arg = 0
if op == EXTENDED_ARG:
raise 'TODO'
extended_arg = oparg * 65536L
continue
if op in hasconst:
const = co.co_consts[oparg]
if type(const) == types.CodeType:
oparg = const
if const.co_name == '<lambda>':
assert op_name == 'LOAD_CONST'
op_name = 'LOAD_LAMBDA'
elif const.co_name == '<genexpr>':
op_name = 'LOAD_GENEXPR'
elif const.co_name == '<dictcomp>':
op_name = 'LOAD_DICTCOMP'
elif const.co_name == '<setcomp>':
op_name = 'LOAD_SETCOMP'
# verify uses 'pattr' for comparism, since 'attr'
# now holds Code(const) and thus can not be used
# for comparism (todo: think about changing this)
#pattr = 'code_object @ 0x%x %s->%s' %\
# (id(const), const.co_filename, const.co_name)
pattr = '<code_object ' + const.co_name + '>'
else:
pattr = const
elif op in hasname:
pattr = names[oparg]
elif op in hasjrel:
pattr = repr(offset + 3 + oparg)
elif op in hasjabs:
pattr = repr(oparg)
elif op in haslocal:
pattr = varnames[oparg]
elif op in hascompare:
pattr = cmp_op[oparg]
elif op in hasfree:
pattr = free[oparg]
if offset in self.toChange:
if self.code[offset] == JA and self.code[oparg] == WITH_CLEANUP:
op_name = 'SETUP_WITH'
cf[oparg] = cf.get(oparg, []) + [offset]
if op in (BUILD_LIST, BUILD_TUPLE, BUILD_SLICE,
UNPACK_SEQUENCE,
MAKE_FUNCTION, CALL_FUNCTION, MAKE_CLOSURE,
CALL_FUNCTION_VAR, CALL_FUNCTION_KW,
CALL_FUNCTION_VAR_KW, DUP_TOPX, RAISE_VARARGS
):
# CE - Hack for >= 2.5
# Now all values loaded via LOAD_CLOSURE are packed into
# a tuple before calling MAKE_CLOSURE.
if op == BUILD_TUPLE and \
self.code[self.prev[offset]] == LOAD_CLOSURE:
continue
else:
op_name = '%s_%d' % (op_name, oparg)
if op != BUILD_SLICE:
customize[op_name] = oparg
elif op == JA:
target = self.get_target(offset)
if target < offset:
if offset in self.stmts and self.code[offset+3] not in (END_FINALLY, POP_BLOCK) \
and offset not in self.not_continue:
op_name = 'CONTINUE'
else:
op_name = 'JUMP_BACK'
elif op == LOAD_GLOBAL:
if offset in self.load_asserts:
op_name = 'LOAD_ASSERT'
elif op == RETURN_VALUE:
if offset in self.return_end_ifs:
op_name = 'RETURN_END_IF'
if offset not in replace:
rv.append(Token(op_name, oparg, pattr, offset, linestart = offset in linestartoffsets))
else:
rv.append(Token(replace[offset], oparg, pattr, offset, linestart = offset in linestartoffsets))
if self.showasm:
out = self.out # shortcut
for t in rv:
print >>out, t
print >>out
return rv, customize
def getOpcodeToDel(self, i):
'''
check validity of the opcode at position I and return a list of opcode to delete
'''
opcode = self.code[i]
opsize = self.op_size(opcode)
if i+opsize >= len(self.code):
return None
if opcode == EXTENDED_ARG:
raise 'TODO'
# del POP_TOP
if opcode in (PJIF,PJIT,JA,JF):
toDel = []
# del POP_TOP
if self.code[i+opsize] == POP_TOP:
if self.code[i+opsize] == self.code[i+opsize+1] and self.code[i+opsize] == self.code[i+opsize+2] \
and opcode in (JF,JA) and self.code[i+opsize] != self.code[i+opsize+3]:
pass
else:
toDel += [i+opsize]
# conditional tuple
if self.code[i] == JA and self.code[i+opsize] == POP_TOP \
and self.code[i+opsize+1] == JA and self.code[i+opsize+4] == POP_BLOCK:
jmpabs1target = self.get_target(i)
jmpabs2target = self.get_target(i+opsize+1)
if jmpabs1target == jmpabs2target and self.code[jmpabs1target] == FOR_ITER:
destFor = self.get_target(jmpabs1target)
if destFor == i+opsize+4:
setupLoop = self.last_instr(0, jmpabs1target, SETUP_LOOP)
standarFor = self.last_instr(setupLoop, jmpabs1target, GET_ITER)
if standarFor == None:
self.restructJump(jmpabs1target, destFor+self.op_size(POP_BLOCK))
toDel += [setupLoop, i+opsize+1, i+opsize+4]
if len(toDel) > 0:
return toDel
return None
if opcode == RAISE_VARARGS:
if self.code[i+opsize] == POP_TOP:
return [i+opsize]
if opcode == BUILD_LIST:
if self.code[i+opsize] == DUP_TOP and self.code[i+opsize+1] in (STORE_NAME,STORE_FAST):
# del DUP/STORE_NAME x
toDel = [i+opsize,i+opsize+1]
nameDel = self.get_argument(i+opsize+1)
start = i+opsize+1
end = start
# del LOAD_NAME x
while end < len(self.code):
end = self.first_instr(end, len(self.code), (LOAD_NAME,LOAD_FAST))
if nameDel == self.get_argument(end):
toDel += [end]
break
if self.code[end] == LOAD_NAME:
end += self.op_size(LOAD_NAME)
else:
end += self.op_size(LOAD_FAST)
# log JA/POP_TOP to del and update PJIF
while start < end:
start = self.first_instr(start, end, (PJIF,PJIT)) # end = len(self.code)
if start == None: break
target = self.get_target(start)
if self.code[target] == POP_TOP and self.code[target-3] == JA:
toDel += [target, target-3]
# update PJIF
target = self.get_target(target-3)
self.restructJump(start, target)
start += self.op_size(PJIF)
# del DELETE_NAME x
start = end
while end < len(self.code):
end = self.first_instr(end, len(self.code), (DELETE_NAME,DELETE_FAST))
if nameDel == self.get_argument(end):
toDel += [end]
break
if self.code[end] == DELETE_NAME:
end += self.op_size(DELETE_NAME)
else:
end += self.op_size(DELETE_FAST)
return toDel
# change join(for..) struct
if opcode == SETUP_LOOP:
if self.code[i+3] == LOAD_FAST and self.code[i+6] == FOR_ITER:
end = self.first_instr(i, len(self.code), RETURN_VALUE)
end = self.first_instr(i, end, YIELD_VALUE)
if end and self.code[end+1] == POP_TOP and self.code[end+2] == JA and self.code[end+5] == POP_BLOCK:
return [i,end+5]
# with stmt
if opcode == WITH_CLEANUP:
chckDel = i-self.op_size(DELETE_NAME)
assert self.code[chckDel] in (DELETE_NAME, DELETE_FAST)
toDel = [chckDel]
nameDel = self.get_argument(chckDel)
chckDel -= self.op_size(LOAD_NAME)
assert self.code[chckDel] in (LOAD_NAME, LOAD_FAST)
toDel += [chckDel]
allStore = self.all_instr(0, i, (STORE_NAME,STORE_FAST))
chckStore = -1
for store in allStore:
if nameDel == self.get_argument(store):
if self.code[store+3] == LOAD_ATTR and self.code[store-3] == LOAD_ATTR \
and self.code[store-4] == DUP_TOP:
chckStore = store
assert chckStore > 0
toDel += [chckStore-4,chckStore-3,chckStore+3]
chckStp = -1
allSetup = self.all_instr(chckStore+3, i, (SETUP_FINALLY))
for stp in allSetup:
if chckDel == self.get_target(stp):
chckStp = stp
assert chckStp > 0
toDel += [chckStp]
chckDel = chckStore+3+self.op_size(self.code[chckStore+3])
while chckDel < chckStp-3:
toDel += [chckDel]
chckDel += self.op_size(self.code[chckDel])
if self.code[chckStp-3] in (STORE_NAME,STORE_FAST) and self.code[chckStp+3] in (LOAD_NAME,LOAD_FAST) \
and self.code[chckStp+6] in (DELETE_NAME,DELETE_FAST):
toDel += [chckStp-3,chckStp+3,chckStp+6]
# SETUP_WITH opcode dosen't exist in 2.5 but is necessary for the grammar
self.code[chckStore] = JUMP_ABSOLUTE # ugly hack
self.restructJump(chckStore, i)
self.toChange.append(chckStore)
return toDel
return None
def getOpcodeToExp(self):
# we handle listExp, if opcode have to be resized
listExp = []
i=0
while i < len(self.code): # we can't use op_range for the moment
op = self.code[i]
if op in self.opc.hasArgumentExtended:
listExp += [i]
elif self.op_hasArgument(op):
i+=2
i+=1
return listExp
def restructCode(self, listDel, listExp):
'''
restruct linestarts and jump destination
'''
# restruct linestarts with deleted / modificated opcode
result = list()
for block in self.linestarts:
startBlock = 0
for toDel in listDel:
if toDel < block[0]:
startBlock -= self.op_size(self.code[toDel])
for toExp in listExp:
if toExp < block[0]:
startBlock += 2
result.append((block[0]+startBlock, block[1]))
self.linestarts = result
# handle opcodeToChange deplacement
for index in xrange(len(self.toChange)):
change = self.toChange[index]
delta = 0
for toDel in listDel:
if change > toDel:
delta -= self.op_size(self.code[toDel])
for toExp in listExp:
if change > toExp:
delta += 2
self.toChange[index] += delta
# restruct jmp opcode
if listDel:
for jmp in self.op_range(0, len(self.code)):
op = self.code[jmp]
if op in hasjrel+hasjabs:
offset = 0
jmpTarget = self.get_target(jmp)
for toDel in listDel:
if toDel < jmpTarget:
if op in hasjabs or jmp < toDel:
offset-=self.op_size(self.code[toDel])
self.restructJump(jmp, jmpTarget+offset)
if listExp:
jmp = 0
while jmp < len(self.code): # we can't use op_range for the moment
op = self.code[jmp]
if op in hasjrel+hasjabs:
offset = 0
jmpTarget = self.get_target(jmp)
for toExp in listExp:
if toExp < jmpTarget:
if op in hasjabs or jmp < toExp:
offset+=2
self.restructJump(jmp, jmpTarget+offset)
if self.op_hasArgument(op) and op not in self.opc.hasArgumentExtended:
jmp += 3
else: jmp += 1
def restructBytecode(self):
'''
add/change/delete bytecode for suiting bytecode 2.7
'''
# we can't use op_range for the moment
# convert jump opcode to 2.7
self.restructRelativeJump()
listExp = self.getOpcodeToExp()
# change code structure
if listExp:
listExp = sorted(list(set(listExp)))
self.restructCode([], listExp)
# we add arg to expended opcode
offset=0
for toExp in listExp:
self.code.insert(toExp+offset+1, 0)
self.code.insert(toExp+offset+1, 0)
offset+=2
# op_range is now ok :)
# add instruction to change in "toChange" list + MAJ toDel
listDel = []
for i in self.op_range(0, len(self.code)):
ret = self.getOpcodeToDel(i)
if ret != None:
listDel += ret
# change code structure after deleting byte
if listDel:
listDel = sorted(list(set(listDel)))
self.restructCode(listDel, [])
# finaly we delete useless opcode
delta = 0
for x in listDel:
if self.op_hasArgument(self.code[x-delta]):
self.code.pop(x-delta)
self.code.pop(x-delta)
self.code.pop(x-delta)
delta += 3
else:
self.code.pop(x-delta)
delta += 1
def restructRelativeJump(self):
'''
change relative JUMP_IF_FALSE/TRUE to absolut jump
and remap the target of PJIF/PJIT
'''
i=0
while i < len(self.code): # we can't use op_range for the moment
op = self.code[i]
if(op in (PJIF,PJIT)):
target = self.get_argument(i)
target += i + 3
self.restructJump(i, target)
if self.op_hasArgument(op) and op not in self.opc.hasArgumentExtended:
i += 3
else: i += 1
i=0
while i < len(self.code): # we can't use op_range for the moment
op = self.code[i]
if(op in (PJIF,PJIT)):
target = self.get_target(i)
if self.code[target] == JA:
target = self.get_target(target)
self.restructJump(i, target)
if self.op_hasArgument(op) and op not in self.opc.hasArgumentExtended:
i += 3
else: i += 1
def restructJump(self, pos, newTarget):
if not (self.code[pos] in hasjabs+hasjrel):
raise 'Can t change this argument. Opcode is not a jump'
if newTarget > 0xFFFF:
raise 'TODO'
offset = newTarget-self.get_target(pos)
target = self.get_argument(pos)+offset
if target < 0 or target > 0xFFFF:
raise 'TODO'
self.code[pos+2] = (target >> 8) & 0xFF
self.code[pos+1] = target & 0xFF
def build_stmt_indices(self):
code = self.code
start = 0;
end = len(code)
stmt_opcodes = {
SETUP_LOOP, BREAK_LOOP, CONTINUE_LOOP,
SETUP_FINALLY, END_FINALLY, SETUP_EXCEPT,
POP_BLOCK, STORE_FAST, DELETE_FAST, STORE_DEREF,
STORE_GLOBAL, DELETE_GLOBAL, STORE_NAME, DELETE_NAME,
STORE_ATTR, DELETE_ATTR, STORE_SUBSCR, DELETE_SUBSCR,
RETURN_VALUE, RAISE_VARARGS, POP_TOP,
PRINT_EXPR, PRINT_ITEM, PRINT_NEWLINE, PRINT_ITEM_TO, PRINT_NEWLINE_TO,
JUMP_ABSOLUTE, EXEC_STMT
}
stmt_opcode_seqs = [(PJIF, JF), (PJIF, JA), (PJIT, JF), (PJIT, JA)]
designator_ops = {
STORE_FAST, STORE_NAME, STORE_GLOBAL, STORE_DEREF, STORE_ATTR,
STORE_SLICE_0, STORE_SLICE_1, STORE_SLICE_2, STORE_SLICE_3,
STORE_SUBSCR, UNPACK_SEQUENCE, JA
}
prelim = self.all_instr(start, end, stmt_opcodes)
stmts = self.stmts = set(prelim)
pass_stmts = set()
for seq in stmt_opcode_seqs:
for i in self.op_range(start, end-(len(seq)+1)):
match = True
for elem in seq:
if elem != code[i]:
match = False
break
i += self.op_size(code[i])
if match:
i = self.prev[i]
stmts.add(i)
pass_stmts.add(i)
if pass_stmts:
stmt_list = list(stmts)
stmt_list.sort()
else:
stmt_list = prelim
last_stmt = -1
self.next_stmt = []
slist = self.next_stmt = []
i = 0
for s in stmt_list:
if code[s] == JA and s not in pass_stmts:
target = self.get_target(s)
if target > s or self.lines[last_stmt].l_no == self.lines[s].l_no:
stmts.remove(s)
continue
j = self.prev[s]
while code[j] == JA:
j = self.prev[j]
if code[j] == LIST_APPEND: #list comprehension
stmts.remove(s)
continue
elif code[s] == POP_TOP and code[self.prev[s]] == ROT_TWO:
stmts.remove(s)
continue
elif code[s] in designator_ops:
j = self.prev[s]
while code[j] in designator_ops:
j = self.prev[j]
if code[j] == FOR_ITER:
stmts.remove(s)
continue
last_stmt = s
slist += [s] * (s-i)
i = s
slist += [end] * (end-len(slist))
def next_except_jump(self, start):
'''
Return the next jump that was generated by an except SomeException:
construct in a try...except...else clause or None if not found.
'''
if self.code[start] == DUP_TOP:
except_match = self.first_instr(start, len(self.code), (PJIF))
if except_match:
jmp = self.prev[self.get_target(except_match)]
self.ignore_if.add(except_match)
self.not_continue.add(jmp)
return jmp
count_END_FINALLY = 0
count_SETUP_ = 0
for i in self.op_range(start, len(self.code)):
op = self.code[i]
if op == END_FINALLY:
if count_END_FINALLY == count_SETUP_:
if self.code[self.prev[i]] == NOP:
i = self.prev[i]
assert self.code[self.prev[i]] in (JA, JF, RETURN_VALUE)
self.not_continue.add(self.prev[i])
return self.prev[i]
count_END_FINALLY += 1
elif op in (SETUP_EXCEPT, SETUP_FINALLY):
count_SETUP_ += 1
#return self.lines[start].next
def detect_structure(self, pos, op=None):
'''
Detect type of block structures and their boundaries to fix optimizied jumps
in python2.3+
'''
code = self.code
# Ev remove this test and make op a mandatory argument -Dan
if op is None:
op = code[pos]
## Detect parent structure
parent = self.structs[0]
start = parent['start']
end = parent['end']
for s in self.structs:
_start = s['start']
_end = s['end']
if (_start <= pos < _end) and (_start >= start and _end <= end):
start = _start
end = _end
parent = s
## We need to know how many new structures were added in this run
origStructCount = len(self.structs)
if op == SETUP_LOOP:
start = pos+3
target = self.get_target(pos, op)
end = self.restrict_to_parent(target, parent)
if target != end:
self.fixed_jumps[pos] = end
(line_no, next_line_byte) = self.lines[pos]
jump_back = self.last_instr(start, end, JA,
next_line_byte, False)
if jump_back and jump_back != self.prev[end] and code[jump_back+3] in (JA, JF):
if code[self.prev[end]] == RETURN_VALUE or \
(code[self.prev[end]] == POP_BLOCK and code[self.prev[self.prev[end]]] == RETURN_VALUE):
jump_back = None
if not jump_back: # loop suite ends in return. wtf right?
jump_back = self.last_instr(start, end, RETURN_VALUE)
if not jump_back:
return
jump_back += 1
if code[self.prev[next_line_byte]] not in (PJIF, PJIT):
loop_type = 'for'
else:
loop_type = 'while'
self.ignore_if.add(self.prev[next_line_byte])
target = next_line_byte
end = jump_back + 3
else:
if self.get_target(jump_back) >= next_line_byte:
jump_back = self.last_instr(start, end, JA,
start, False)
if end > jump_back+4 and code[end] in (JF, JA):
if code[jump_back+4] in (JA, JF):
if self.get_target(jump_back+4) == self.get_target(end):
self.fixed_jumps[pos] = jump_back+4
end = jump_back+4
elif target < pos:
self.fixed_jumps[pos] = jump_back+4
end = jump_back+4
target = self.get_target(jump_back, JA)
if code[target] in (FOR_ITER, GET_ITER):
loop_type = 'for'
else:
loop_type = 'while'
test = self.prev[next_line_byte]
if test == pos:
loop_type = 'while 1'
elif self.code[test] in hasjabs+hasjrel:
self.ignore_if.add(test)
test_target = self.get_target(test)
if test_target > (jump_back+3):
jump_back = test_target
self.not_continue.add(jump_back)
self.loops.append(target)
self.structs.append({'type': loop_type + '-loop',
'start': target,
'end': jump_back})
if jump_back+3 != end:
self.structs.append({'type': loop_type + '-else',
'start': jump_back+3,
'end': end})
elif op == SETUP_EXCEPT:
start = pos+3
target = self.get_target(pos, op)
end = self.restrict_to_parent(target, parent)
if target != end:
self.fixed_jumps[pos] = end
## Add the try block
self.structs.append({'type': 'try',
'start': start,
'end': end-4})
## Now isolate the except and else blocks
end_else = start_else = self.get_target(self.prev[end])
## Add the except blocks
i = end
while i < len(self.code) and self.code[i] != END_FINALLY:
jmp = self.next_except_jump(i)
if jmp == None: # check
i = self.next_stmt[i]
continue
if self.code[jmp] == RETURN_VALUE:
self.structs.append({'type': 'except',
'start': i,
'end': jmp+1})
i = jmp + 1
else:
if self.get_target(jmp) != start_else:
end_else = self.get_target(jmp)
if self.code[jmp] == JF:
#self.fixed_jumps[i] = jmp
self.fixed_jumps[jmp] = -1
self.structs.append({'type': 'except',
'start': i,
'end': jmp})
i = jmp + 3
## Add the try-else block
if end_else != start_else:
r_end_else = self.restrict_to_parent(end_else, parent)
self.structs.append({'type': 'try-else',
'start': i+2, # check
'end': r_end_else})
self.fixed_jumps[i] = r_end_else
else:
self.fixed_jumps[i] = i+1
elif op in (PJIF, PJIT):
start = pos+3
target = self.get_target(pos, op)
rtarget = self.restrict_to_parent(target, parent)
pre = self.prev
if target != rtarget and parent['type'] == 'and/or':
self.fixed_jumps[pos] = rtarget
return
#does this jump to right after another cond jump?
# if so, it's part of a larger conditional
if (code[pre[target]] in (PJIF, PJIT)) and (target > pos):
self.fixed_jumps[pos] = pre[target]
self.structs.append({'type': 'and/or',
'start': start,
'end': pre[target]})
return
# is this an if and
if op == PJIF:
match = self.rem_or(start, self.next_stmt[pos], PJIF, target)
match = self.remove_mid_line_ifs(match)
if match:
if code[pre[rtarget]] in (JF, JA) \
and pre[rtarget] not in self.stmts \
and self.restrict_to_parent(self.get_target(pre[rtarget]), parent) == rtarget:
if code[pre[pre[rtarget]]] == JA \
and self.remove_mid_line_ifs([pos]) \
and target == self.get_target(pre[pre[rtarget]]) \
and (pre[pre[rtarget]] not in self.stmts or self.get_target(pre[pre[rtarget]]) > pre[pre[rtarget]])\
and 1 == len(self.remove_mid_line_ifs(self.rem_or(start, pre[pre[rtarget]], (PJIF, PJIT), target))):
pass
elif code[pre[pre[rtarget]]] == RETURN_VALUE \
and self.remove_mid_line_ifs([pos]) \
and 1 == (len(set(self.remove_mid_line_ifs(self.rem_or(start, pre[pre[rtarget]], \
(PJIF, PJIT), target))) \
| set(self.remove_mid_line_ifs(self.rem_or(start, pre[pre[rtarget]], \
(PJIF, PJIT, JA), pre[rtarget], True))))):
pass
else:
fix = None
jump_ifs = self.all_instr(start, self.next_stmt[pos], PJIF)
last_jump_good = True
for j in jump_ifs:
if target == self.get_target(j):
if self.lines[j].next == j+3 and last_jump_good:
fix = j
break
else:
last_jump_good = False
self.fixed_jumps[pos] = fix or match[-1]
return
elif pos < rtarget and code[target] == ROT_TWO:
self.fixed_jumps[pos] = target
return
else:
self.fixed_jumps[pos] = match[-1]
return
else: # op == PJIT
if (pos+3) in self.load_asserts:
if code[pre[rtarget]] == RAISE_VARARGS:
return
self.load_asserts.remove(pos+3)
next = self.next_stmt[pos]
if pre[next] == pos:
pass
elif code[next] in (JF, JA) and target == self.get_target(next):
if code[pre[next]] == PJIF:
if code[next] == JF or target != rtarget or code[pre[pre[rtarget]]] not in (JA, RETURN_VALUE):
self.fixed_jumps[pos] = pre[next]
return
elif code[next] == JA and code[target] in (JA, JF) \
and self.get_target(target) == self.get_target(next):
self.fixed_jumps[pos] = pre[next]
return
#don't add a struct for a while test, it's already taken care of
if pos in self.ignore_if:
return
if code[pre[rtarget]] == JA and pre[rtarget] in self.stmts \
and pre[rtarget] != pos and pre[pre[rtarget]] != pos \
and not (code[rtarget] == JA and code[rtarget+3] == POP_BLOCK and code[pre[pre[rtarget]]] != JA):
rtarget = pre[rtarget]
#does the if jump just beyond a jump op, then this is probably an if statement
if code[pre[rtarget]] in (JA, JF):
if_end = self.get_target(pre[rtarget])
#is this a loop not an if?
if (if_end < pre[rtarget]) and (code[pre[if_end]] == SETUP_LOOP):
if(if_end > start):
return
end = self.restrict_to_parent(if_end, parent)
self.structs.append({'type': 'if-then',
'start': start,
'end': pre[rtarget]})
self.not_continue.add(pre[rtarget])
if rtarget < end:
self.structs.append({'type': 'if-else',
'start': rtarget,
'end': end})
elif code[pre[rtarget]] == RETURN_VALUE:
# if it's an old JUMP_IF_FALSE_OR_POP, JUMP_IF_TRUE_OR_POP (return 1<2<3 case)
if pos < rtarget and code[rtarget] == ROT_TWO:
return
self.structs.append({'type': 'if-then',
'start': start,
'end': rtarget})
self.return_end_ifs.add(pre[rtarget])
def find_jump_targets(self, code):
'''
Detect all offsets in a byte code which are jump targets.
Return the list of offsets.
This procedure is modelled after dis.findlables(), but here
for each target the number of jumps are counted.
'''
n = len(code)
self.structs = [{'type': 'root',
'start': 0,
'end': n-1}]
self.loops = [] ## All loop entry points
self.fixed_jumps = {} ## Map fixed jumps to their real destination
self.ignore_if = set()
self.build_stmt_indices()
self.not_continue = set()
self.return_end_ifs = set()
targets = {}
for i in self.op_range(0, n):
op = code[i]
## Determine structures and fix jumps for 2.3+
self.detect_structure(i, op)
if self.op_hasArgument(op):
label = self.fixed_jumps.get(i)
oparg = self.get_argument(i)
if label is None:
if op in hasjrel and op != FOR_ITER:
label = i + 3 + oparg
#elif op in hasjabs: Pas de gestion des jump abslt
#if op in (PJIF, PJIT): Or pop a faire
#if (oparg > i):
#label = oparg
if label is not None and label != -1:
targets[label] = targets.get(label, []) + [i]
elif op == END_FINALLY and i in self.fixed_jumps:
label = self.fixed_jumps[i]
targets[label] = targets.get(label, []) + [i]
return targets
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