Exemplo n.º 1
0
def test_find_linestarts():
    co = bug_loop.__code__
    # start_line = co.co_firstlineno
    got_no_dups = list(findlinestarts(co))

    if sys.version_info[0:2] == (2, 7):
        # FIXME base off of start_line
        expect = [(0, 17), (6, 18), (9, 19), (19, 20), (32, 21), (42, 22),
                  (67, 23)]
        assert got_no_dups == expect

    got_with_dups = list(findlinestarts(bug_loop.__code__, dup_lines=True))
    assert len(got_no_dups) < len(got_with_dups)
Exemplo n.º 2
0
 def run(self, args):
     """Program counter."""
     proc = self.proc
     curframe = proc.curframe
     if curframe:
         line_no = inspect.getlineno(curframe)
         offset = curframe.f_lasti
         self.msg("PC offset is %d." % offset)
         offset = max(offset, 0)
         code = curframe.f_code
         co_code = code.co_code
         disassemble_bytes(
             self.msg,
             self.msg_nocr,
             code = co_code,
             lasti = offset,
             cur_line = line_no,
             start_line = line_no - 1,
             end_line = line_no + 1,
             varnames=code.co_varnames,
             names=code.co_names,
             constants=code.co_consts,
             cells=code.co_cellvars,
             freevars=code.co_freevars,
             linestarts=dict(findlinestarts(code)),
             end_offset=offset + 10,
             opc=proc.vm.opc,
         )
         pass
     return False
Exemplo n.º 3
0
def number_loop(queue, mappings, opc):
    while len(queue) > 0:
        code1 = queue.popleft()
        code2 = queue.popleft()
        assert code1.co_name == code2.co_name
        linestarts_orig = findlinestarts(code1)
        linestarts_uncompiled = list(findlinestarts(code2))
        mappings += [
            [line, offset2line(offset, linestarts_uncompiled)]
            for offset, line in linestarts_orig
        ]
        bytecode1 = Bytecode(code1, opc)
        bytecode2 = Bytecode(code2, opc)
        instr2s = bytecode2.get_instructions(code2)
        seen = set([code1.co_name])
        for instr in bytecode1.get_instructions(code1):
            next_code1 = None
            if iscode(instr.argval):
                next_code1 = instr.argval
            if next_code1:
                next_code2 = None
                while not next_code2:
                    try:
                        instr2 = next(instr2s)
                        if iscode(instr2.argval):
                            next_code2 = instr2.argval
                            pass
                    except StopIteration:
                        break
                    pass
                if next_code2:
                    assert next_code1.co_name == next_code2.co_name
                    if next_code1.co_name not in seen:
                        seen.add(next_code1.co_name)
                        queue.append(next_code1)
                        queue.append(next_code2)
                        pass
                    pass
            pass
        pass
Exemplo n.º 4
0
def next_linestart(co, offset, count=1):
    linestarts = dict(xdis.findlinestarts(co))
    code = co.co_code
    # n = len(code)
    # contains_cond_jump = False
    for op, offset in next_opcode(code, offset):
        if offset in linestarts:
            count -= 1
            if 0 == count:
                return linestarts[offset]
            pass
        pass
    return -1000
Exemplo n.º 5
0
 def run(self, args):
     """Program counter."""
     mainfile = self.core.filename(None)
     if self.core.is_running():
         curframe = self.proc.curframe
         if curframe:
             line_no = inspect.getlineno(curframe)
             offset = curframe.f_lasti
             self.msg("PC offset is %d." % offset)
             offset = max(offset, 0)
             code = curframe.f_code
             co_code = code.co_code
             disassemble_bytes(
                 self.msg,
                 self.msg_nocr,
                 code=co_code,
                 lasti=offset,
                 cur_line=line_no,
                 start_line=line_no - 1,
                 end_line=line_no + 1,
                 varnames=code.co_varnames,
                 names=code.co_names,
                 constants=code.co_consts,
                 cells=code.co_cellvars,
                 freevars=code.co_freevars,
                 linestarts=dict(findlinestarts(code)),
                 end_offset=offset + 10,
                 opc=proc.vm.opc,
             )
             pass
         pass
     else:
         if mainfile:
             part1 = "Python program '%s'" % mainfile
             msg = "is not currently running. "
             self.msg(wrapped_lines(part1, msg, self.settings["width"]))
         else:
             self.msg("No Python program is currently running.")
             pass
         self.msg(self.core.execution_status)
         pass
     return False
Exemplo n.º 6
0
def stmt_contains_opcode(co, lineno, query_opcode):
    linestarts = dict(xdis.findlinestarts(co))
    code = co.co_code
    found_start = False
    for offset, start_line in list(linestarts.items()):
        if start_line == lineno:
            found_start = True
            break
        pass
    if not found_start:
        return False
    for op, offset in next_opcode(code, offset):
        if -1000 == offset or linestarts.get(offset):
            return False
        opcode = opname[op]
        # debug: print opcode
        if query_opcode == opcode:
            return True
        pass
    return False
Exemplo n.º 7
0
def disassemble(
    msg,
    msg_nocr,
    section,
    co,
    lasti=-1,
    start_line=-1,
    end_line=None,
    relative_pos=False,
    highlight="light",
    start_offset=0,
    end_offset=None,
    asm_format="extended",
):
    """Disassemble a code object."""
    return disassemble_bytes(
        msg,
        msg_nocr,
        co.co_code,
        lasti,
        co.co_firstlineno,
        start_line,
        end_line,
        relative_pos,
        co.co_varnames,
        co.co_names,
        co.co_consts,
        co.co_cellvars,
        co.co_freevars,
        dict(findlinestarts(co)),
        highlight,
        start_offset=start_offset,
        end_offset=end_offset,
        opc=opc,
        asm_format=asm_format,
    )