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416 lines
18 KiB
Python
Executable File
416 lines
18 KiB
Python
Executable File
# Copyright (c) 2015-2016 by Rocky Bernstein
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# Copyright (c) 2005 by Dan Pascu <dan@windowmaker.org>
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# Copyright (c) 2000-2002 by hartmut Goebel <h.goebel@crazy-compilers.com>
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# Copyright (c) 1999 John Aycock
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"""
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Python 2.5 bytecode scanner/deparser
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This overlaps Python's 2.5's dis module, but it can be run from
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Python 3 and other versions of Python. Also, we save token
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information for later use in deparsing.
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"""
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from xdis.opcodes.opcode_25 import *
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import uncompyle6.scanners.scanner26 as scan
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import uncompyle6.scanners.scanner2 as scan2
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# bytecode verification, verify(), uses JUMP_OPs from here
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from xdis.opcodes import opcode_25
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JUMP_OPs = opcode_25.JUMP_OPs
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# We base this off of 2.6 instead of the other way around
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# because we cleaned things up this way.
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# The history is that 2.7 support is the cleanest,
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# then from that we got 2.6 and so on.
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class Scanner25(scan.Scanner26):
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def __init__(self, show_asm):
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scan2.Scanner2.__init__(self, 2.5, show_asm)
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self.stmt_opcodes = frozenset([
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self.opc.SETUP_LOOP, self.opc.BREAK_LOOP,
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self.opc.SETUP_FINALLY, self.opc.END_FINALLY,
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self.opc.SETUP_EXCEPT, self.opc.POP_BLOCK,
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self.opc.STORE_FAST, self.opc.DELETE_FAST,
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self.opc.STORE_DEREF, self.opc.STORE_GLOBAL,
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self.opc.DELETE_GLOBAL, self.opc.STORE_NAME,
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self.opc.DELETE_NAME, self.opc.STORE_ATTR,
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self.opc.DELETE_ATTR, self.opc.STORE_SUBSCR,
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self.opc.DELETE_SUBSCR, self.opc.RETURN_VALUE,
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self.opc.RAISE_VARARGS, self.opc.POP_TOP,
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self.opc.PRINT_EXPR, self.opc.PRINT_ITEM,
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self.opc.PRINT_NEWLINE, self.opc.PRINT_ITEM_TO,
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self.opc.PRINT_NEWLINE_TO, self.opc.CONTINUE_LOOP,
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self.opc.JUMP_ABSOLUTE, self.opc.EXEC_STMT,
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])
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# "setup" opcodes
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self.setup_ops = frozenset([
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self.opc.SETUP_EXCEPT, self.opc.SETUP_FINALLY,
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])
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# opcodes with expect a variable number pushed values whose
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# count is in the opcode. For parsing we generally change the
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# opcode name to include that number.
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self.varargs_ops = frozenset([
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self.opc.BUILD_LIST, self.opc.BUILD_TUPLE,
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self.opc.BUILD_SLICE, self.opc.UNPACK_SEQUENCE,
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self.opc.MAKE_FUNCTION, self.opc.CALL_FUNCTION,
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self.opc.MAKE_CLOSURE, self.opc.CALL_FUNCTION_VAR,
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self.opc.CALL_FUNCTION_KW, self.opc.CALL_FUNCTION_VAR_KW,
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self.opc.DUP_TOPX, self.opc.RAISE_VARARGS])
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# opcodes that store values into a variable
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self.designator_ops = frozenset([
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self.opc.STORE_FAST, self.opc.STORE_NAME,
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self.opc.STORE_GLOBAL, self.opc.STORE_DEREF, self.opc.STORE_ATTR,
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self.opc.STORE_SLICE_0, self.opc.STORE_SLICE_1, self.opc.STORE_SLICE_2,
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self.opc.STORE_SLICE_3, self.opc.STORE_SUBSCR, self.opc.UNPACK_SEQUENCE,
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self.opc.JA
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])
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def restructCode(self, listDel, listExp):
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'''
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restruct linestarts and jump destination
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'''
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# restruct linestarts with deleted / modificated opcode
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result = list()
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for block in self.linestarts:
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startBlock = 0
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for toDel in listDel:
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if toDel < block[0]:
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startBlock -= self.op_size(self.code[toDel])
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for toExp in listExp:
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if toExp < block[0]:
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startBlock += 2
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result.append((block[0]+startBlock, block[1]))
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self.linestarts = result
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# handle opcodeToChange deplacement
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for index in range(len(self.toChange)):
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change = self.toChange[index]
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delta = 0
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for toDel in listDel:
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if change > toDel:
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delta -= self.op_size(self.code[toDel])
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for toExp in listExp:
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if change > toExp:
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delta += 2
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self.toChange[index] += delta
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# restruct jmp opcode
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if listDel:
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for jmp in self.op_range(0, len(self.code)):
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op = self.code[jmp]
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if op in self.opc.hasjrel + self.opc.hasjabs:
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offset = 0
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jmpTarget = self.get_target(jmp)
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for toDel in listDel:
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if toDel < jmpTarget:
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if op in self.opc.hasjabs or jmp < toDel:
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offset-=self.op_size(self.code[toDel])
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self.restructJump(jmp, jmpTarget+offset)
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if listExp:
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jmp = 0
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while jmp < len(self.code): # we can't use op_range for the moment
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op = self.code[jmp]
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if op in self.opc.hasjrel + self.opc.hasjabs:
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offset = 0
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jmpTarget = self.get_target(jmp)
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for toExp in listExp:
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if toExp < jmpTarget:
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if op in self.opc.hasjabs or jmp < toExp:
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offset+=2
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self.restructJump(jmp, jmpTarget+offset)
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if self.op_hasArgument(op) and op not in self.opc.hasArgumentExtended:
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jmp += 3
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else: jmp += 1
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def restructBytecode(self):
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'''
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add/change/delete bytecode for suiting bytecode 2.7
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'''
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# we can't use op_range for the moment
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# convert jump opcode to 2.7
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self.restructRelativeJump()
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listExp = self.getOpcodeToExp()
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# change code structure
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if listExp:
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listExp = sorted(list(set(listExp)))
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self.restructCode([], listExp)
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# we add arg to expended opcode
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offset=0
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for toExp in listExp:
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self.code.insert(toExp+offset+1, 0)
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self.code.insert(toExp+offset+1, 0)
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offset+=2
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# op_range is now ok :)
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# add instruction to change in "toChange" list + MAJ toDel
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listDel = []
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for i in self.op_range(0, len(self.code)):
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ret = self.getOpcodeToDel(i)
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if ret is not None:
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listDel += ret
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# change code structure after deleting byte
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if listDel:
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listDel = sorted(list(set(listDel)))
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self.restructCode(listDel, [])
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# finaly we delete useless opcode
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delta = 0
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for x in listDel:
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if self.op_hasArgument(self.code[x-delta]):
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self.code.pop(x-delta)
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self.code.pop(x-delta)
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self.code.pop(x-delta)
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delta += 3
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else:
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self.code.pop(x-delta)
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delta += 1
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def detect_structure(self, pos, op=None):
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'''
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Detect type of block structures and their boundaries to fix optimizied jumps
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in python2.3+
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'''
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code = self.code
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# Ev remove this test and make op a mandatory argument -Dan
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if op is None:
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op = code[pos]
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# Detect parent structure
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parent = self.structs[0]
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start = parent['start']
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end = parent['end']
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for s in self.structs:
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_start = s['start']
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_end = s['end']
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if (_start <= pos < _end) and (_start >= start and _end <= end):
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start = _start
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end = _end
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parent = s
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# We need to know how many new structures were added in this run
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if op == self.opc.SETUP_LOOP:
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start = pos+3
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target = self.get_target(pos, op)
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end = self.restrict_to_parent(target, parent)
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if target != end:
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self.fixed_jumps[pos] = end
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(line_no, next_line_byte) = self.lines[pos]
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jump_back = self.last_instr(start, end, self.opc.JA, next_line_byte, False)
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if jump_back and jump_back != self.prev[end] and code[jump_back+3] in (JA, JF):
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if code[self.prev[end]] == RETURN_VALUE or \
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(code[self.prev[end]] == POP_BLOCK and code[self.prev[self.prev[end]]] == RETURN_VALUE):
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jump_back = None
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if not jump_back: # loop suite ends in return. wtf right?
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jump_back = self.last_instr(start, end, RETURN_VALUE)
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if not jump_back:
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return
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jump_back += 1
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if code[self.prev[next_line_byte]] not in self.pop_jump_if:
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loop_type = 'for'
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else:
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loop_type = 'while'
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self.ignore_if.add(self.prev[next_line_byte])
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target = next_line_byte
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end = jump_back + 3
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else:
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if self.get_target(jump_back) >= next_line_byte:
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jump_back = self.last_instr(start, end, JA,
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start, False)
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if end > jump_back+4 and code[end] in (JF, JA):
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if code[jump_back+4] in (JA, JF):
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if self.get_target(jump_back+4) == self.get_target(end):
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self.fixed_jumps[pos] = jump_back+4
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end = jump_back+4
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elif target < pos:
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self.fixed_jumps[pos] = jump_back+4
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end = jump_back+4
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target = self.get_target(jump_back, self.opc.JA)
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if code[target] in (self.opc.FOR_ITER, self.opc.GET_ITER):
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loop_type = 'for'
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else:
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loop_type = 'while'
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test = self.prev[next_line_byte]
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if test == pos:
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loop_type = 'while 1'
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elif self.code[test] in self.opc.hasjabs + self.opc.hasjrel:
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self.ignore_if.add(test)
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test_target = self.get_target(test)
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if test_target > (jump_back+3):
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jump_back = test_target
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self.not_continue.add(jump_back)
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self.loops.append(target)
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self.structs.append({'type': loop_type + '-loop',
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'start': target,
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'end': jump_back})
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if jump_back+3 != end:
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self.structs.append({'type': loop_type + '-else',
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'start': jump_back+3,
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'end': end})
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elif op == self.opc.SETUP_EXCEPT:
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start = pos+3
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target = self.get_target(pos, op)
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end = self.restrict_to_parent(target, parent)
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if target != end:
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self.fixed_jumps[pos] = end
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# Add the try block
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self.structs.append({'type': 'try',
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'start': start,
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'end': end-4})
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# Now isolate the except and else blocks
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end_else = start_else = self.get_target(self.prev[end])
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# Add the except blocks
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i = end
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while i < len(self.code) and self.code[i] != self.opc.END_FINALLY:
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jmp = self.next_except_jump(i)
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if jmp is None: # check
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i = self.next_stmt[i]
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continue
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if self.code[jmp] == self.opc.RETURN_VALUE:
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self.structs.append({'type': 'except',
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'start': i,
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'end': jmp+1})
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i = jmp + 1
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else:
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if self.get_target(jmp) != start_else:
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end_else = self.get_target(jmp)
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if self.code[jmp] == self.opc.JF:
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self.fixed_jumps[jmp] = -1
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self.structs.append({'type': 'except',
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'start': i,
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'end': jmp})
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i = jmp + 3
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# Add the try-else block
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if end_else != start_else:
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r_end_else = self.restrict_to_parent(end_else, parent)
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self.structs.append({'type': 'try-else',
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'start': i+2, # check
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'end': r_end_else})
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self.fixed_jumps[i] = r_end_else
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else:
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self.fixed_jumps[i] = i+1
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elif op in self.pop_jump_if:
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start = pos+3
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target = self.get_target(pos, op)
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rtarget = self.restrict_to_parent(target, parent)
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pre = self.prev
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if target != rtarget and parent['type'] == 'and/or':
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self.fixed_jumps[pos] = rtarget
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return
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# does this jump to right after another cond jump?
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# if so, it's part of a larger conditional
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if (code[pre[target]] in (PJIF, PJIT)) and (target > pos):
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self.fixed_jumps[pos] = pre[target]
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self.structs.append({'type': 'and/or',
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'start': start,
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'end': pre[target]})
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return
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# is this an if and
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if op == PJIF:
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match = self.rem_or(start, self.next_stmt[pos], PJIF, target)
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match = self.remove_mid_line_ifs(match)
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if match:
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if code[pre[rtarget]] in (JF, JA) \
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and pre[rtarget] not in self.stmts \
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and self.restrict_to_parent(self.get_target(pre[rtarget]), parent) == rtarget:
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if code[pre[pre[rtarget]]] == JA \
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and self.remove_mid_line_ifs([pos]) \
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and target == self.get_target(pre[pre[rtarget]]) \
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and (pre[pre[rtarget]] not in self.stmts or self.get_target(pre[pre[rtarget]]) > pre[pre[rtarget]])\
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and 1 == len(self.remove_mid_line_ifs(self.rem_or(start, pre[pre[rtarget]], (PJIF, PJIT), target))):
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pass
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elif code[pre[pre[rtarget]]] == RETURN_VALUE \
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and self.remove_mid_line_ifs([pos]) \
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and 1 == (len(set(self.remove_mid_line_ifs(self.rem_or(start, pre[pre[rtarget]],
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(PJIF, PJIT), target)))
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| set(self.remove_mid_line_ifs(self.rem_or(start, pre[pre[rtarget]],
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(PJIF, PJIT, JA), pre[rtarget], True))))):
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pass
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else:
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fix = None
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jump_ifs = self.all_instr(start, self.next_stmt[pos], PJIF)
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last_jump_good = True
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for j in jump_ifs:
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if target == self.get_target(j):
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if self.lines[j].next == j+3 and last_jump_good:
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fix = j
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break
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else:
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last_jump_good = False
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self.fixed_jumps[pos] = fix or match[-1]
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return
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elif pos < rtarget and code[target] == self.opc.ROT_TWO:
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self.fixed_jumps[pos] = target
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return
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else:
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self.fixed_jumps[pos] = match[-1]
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return
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else: # op == PJIT
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if (pos+3) in self.load_asserts:
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if code[pre[rtarget]] == self.opc.RAISE_VARARGS:
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return
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self.load_asserts.remove(pos+3)
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next = self.next_stmt[pos]
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if pre[next] == pos:
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pass
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elif code[next] in (JF, JA) and target == self.get_target(next):
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if code[pre[next]] == PJIF:
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if code[next] == JF or target != rtarget or code[pre[pre[rtarget]]] not in (JA, RETURN_VALUE):
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self.fixed_jumps[pos] = pre[next]
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return
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elif code[next] == JA and code[target] in (JA, JF) \
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and self.get_target(target) == self.get_target(next):
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self.fixed_jumps[pos] = pre[next]
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return
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# don't add a struct for a while test, it's already taken care of
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if pos in self.ignore_if:
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return
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if code[pre[rtarget]] == JA and pre[rtarget] in self.stmts \
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and pre[rtarget] != pos and pre[pre[rtarget]] != pos \
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and not (code[rtarget] == JA and code[rtarget+3] == POP_BLOCK and code[pre[pre[rtarget]]] != JA):
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rtarget = pre[rtarget]
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# does the if jump just beyond a jump op, then this is probably an if statement
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if code[pre[rtarget]] in (JA, JF):
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if_end = self.get_target(pre[rtarget])
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# is this a loop not an if?
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if (if_end < pre[rtarget]) and (code[pre[if_end]] == self.opc.SETUP_LOOP):
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if(if_end > start):
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return
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end = self.restrict_to_parent(if_end, parent)
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self.structs.append({'type': 'if-then',
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'start': start,
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'end': pre[rtarget]})
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self.not_continue.add(pre[rtarget])
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if rtarget < end:
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self.structs.append({'type': 'if-else',
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'start': rtarget,
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'end': end})
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elif code[pre[rtarget]] == self.opc.RETURN_VALUE:
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# if it's an old JUMP_IF_FALSE_OR_POP, JUMP_IF_TRUE_OR_POP (return 1<2<3 case)
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if pos < rtarget and code[rtarget] == self.opc.ROT_TWO:
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return
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self.structs.append({'type': 'if-then',
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'start': start,
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'end': rtarget})
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self.return_end_ifs.add(pre[rtarget])
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pass
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pass
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return
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pass
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