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"Test the functionality of Python classes implementing operators."

import unittest

from test import support

testmeths = [

# Binary operations
    "add",
    "radd",
    "sub",
    "rsub",
    "mul",
    "rmul",
    "truediv",
    "rtruediv",
    "mod",
    "rmod",
    "divmod",
    "rdivmod",
    "pow",
    "rpow",
    "rshift",
    "rrshift",
    "lshift",
    "rlshift",
    "and",
    "rand",
    "or",
    "ror",
    "xor",
    "rxor",

# List/dict operations
    "contains",
    "getitem",
    "setitem",
    "delitem",

# Unary operations
    "neg",
    "pos",
    "abs",

# generic operations
    "init",
    ]

# These need to return something other than None
#    "hash",
#    "str",
#    "repr",
#    "int",
#    "float",

# These are separate because they can influence the test of other methods.
#    "getattr",
#    "setattr",
#    "delattr",

callLst = []
def trackCall(f):
    def track(*args, **kwargs):
        callLst.append((f.__name__, args))
        return f(*args, **kwargs)
    return track

statictests = """
@trackCall
def __hash__(self, *args):
    return hash(id(self))

@trackCall
def __str__(self, *args):
    return "AllTests"

@trackCall
def __repr__(self, *args):
    return "AllTests"

@trackCall
def __int__(self, *args):
    return 1

@trackCall
def __index__(self, *args):
    return 1

@trackCall
def __float__(self, *args):
    return 1.0

@trackCall
def __eq__(self, *args):
    return True

@trackCall
def __ne__(self, *args):
    return False

@trackCall
def __lt__(self, *args):
    return False

@trackCall
def __le__(self, *args):
    return True

@trackCall
def __gt__(self, *args):
    return False

@trackCall
def __ge__(self, *args):
    return True
"""

# Synthesize all the other AllTests methods from the names in testmeths.

method_template = """\
@trackCall
def __%s__(self, *args):
    pass
"""

d = {}
exec(statictests, globals(), d)
for method in testmeths:
    exec(method_template % method, globals(), d)
AllTests = type("AllTests", (object,), d)
del d, statictests, method, method_template

class ClassTests(unittest.TestCase):
    def setUp(self):
        callLst[:] = []

    def assertCallStack(self, expected_calls):
        actualCallList = callLst[:]  # need to copy because the comparison below will add
                                     # additional calls to callLst
        if expected_calls != actualCallList:
            self.fail("Expected call list:\n  %s\ndoes not match actual call list\n  %s" %
                      (expected_calls, actualCallList))

    def testInit(self):
        foo = AllTests()
        self.assertCallStack([("__init__", (foo,))])

    def testBinaryOps(self):
        testme = AllTests()
        # Binary operations

        callLst[:] = []
        testme + 1
        self.assertCallStack([("__add__", (testme, 1))])

        callLst[:] = []
        1 + testme
        self.assertCallStack([("__radd__", (testme, 1))])

        callLst[:] = []
        testme - 1
        self.assertCallStack([("__sub__", (testme, 1))])

        callLst[:] = []
        1 - testme
        self.assertCallStack([("__rsub__", (testme, 1))])

        callLst[:] = []
        testme * 1
        self.assertCallStack([("__mul__", (testme, 1))])

        callLst[:] = []
        1 * testme
        self.assertCallStack([("__rmul__", (testme, 1))])

        if 1/2 == 0:
            callLst[:] = []
            testme / 1
            self.assertCallStack([("__div__", (testme, 1))])


            callLst[:] = []
            1 / testme
            self.assertCallStack([("__rdiv__", (testme, 1))])

        callLst[:] = []
        testme % 1
        self.assertCallStack([("__mod__", (testme, 1))])

        callLst[:] = []
        1 % testme
        self.assertCallStack([("__rmod__", (testme, 1))])


        callLst[:] = []
        divmod(testme,1)
        self.assertCallStack([("__divmod__", (testme, 1))])

        callLst[:] = []
        divmod(1, testme)
        self.assertCallStack([("__rdivmod__", (testme, 1))])

        callLst[:] = []
        testme ** 1
        self.assertCallStack([("__pow__", (testme, 1))])

        callLst[:] = []
        1 ** testme
        self.assertCallStack([("__rpow__", (testme, 1))])

        callLst[:] = []
        testme >> 1
        self.assertCallStack([("__rshift__", (testme, 1))])

        callLst[:] = []
        1 >> testme
        self.assertCallStack([("__rrshift__", (testme, 1))])

        callLst[:] = []
        testme << 1
        self.assertCallStack([("__lshift__", (testme, 1))])

        callLst[:] = []
        1 << testme
        self.assertCallStack([("__rlshift__", (testme, 1))])

        callLst[:] = []
        testme & 1
        self.assertCallStack([("__and__", (testme, 1))])

        callLst[:] = []
        1 & testme
        self.assertCallStack([("__rand__", (testme, 1))])

        callLst[:] = []
        testme | 1
        self.assertCallStack([("__or__", (testme, 1))])

        callLst[:] = []
        1 | testme
        self.assertCallStack([("__ror__", (testme, 1))])

        callLst[:] = []
        testme ^ 1
        self.assertCallStack([("__xor__", (testme, 1))])

        callLst[:] = []
        1 ^ testme
        self.assertCallStack([("__rxor__", (testme, 1))])

    def testListAndDictOps(self):
        testme = AllTests()

        # List/dict operations

        class Empty: pass

        try:
            1 in Empty()
            self.fail('failed, should have raised TypeError')
        except TypeError:
            pass

        callLst[:] = []
        1 in testme
        self.assertCallStack([('__contains__', (testme, 1))])

        callLst[:] = []
        testme[1]
        self.assertCallStack([('__getitem__', (testme, 1))])

        callLst[:] = []
        testme[1] = 1
        self.assertCallStack([('__setitem__', (testme, 1, 1))])

        callLst[:] = []
        del testme[1]
        self.assertCallStack([('__delitem__', (testme, 1))])

        callLst[:] = []
        testme[:42]
        self.assertCallStack([('__getitem__', (testme, slice(None, 42)))])

        callLst[:] = []
        testme[:42] = "The Answer"
        self.assertCallStack([('__setitem__', (testme, slice(None, 42),
                                               "The Answer"))])

        callLst[:] = []
        del testme[:42]
        self.assertCallStack([('__delitem__', (testme, slice(None, 42)))])

        callLst[:] = []
        testme[2:1024:10]
        self.assertCallStack([('__getitem__', (testme, slice(2, 1024, 10)))])

        callLst[:] = []
        testme[2:1024:10] = "A lot"
        self.assertCallStack([('__setitem__', (testme, slice(2, 1024, 10),
                                                                    "A lot"))])
        callLst[:] = []
        del testme[2:1024:10]
        self.assertCallStack([('__delitem__', (testme, slice(2, 1024, 10)))])

        callLst[:] = []
        testme[:42, ..., :24:, 24, 100]
        self.assertCallStack([('__getitem__', (testme, (slice(None, 42, None),
                                                        Ellipsis,
                                                        slice(None, 24, None),
                                                        24, 100)))])
        callLst[:] = []
        testme[:42, ..., :24:, 24, 100] = "Strange"
        self.assertCallStack([('__setitem__', (testme, (slice(None, 42, None),
                                                        Ellipsis,
                                                        slice(None, 24, None),
                                                        24, 100), "Strange"))])
        callLst[:] = []
        del testme[:42, ..., :24:, 24, 100]
        self.assertCallStack([('__delitem__', (testme, (slice(None, 42, None),
                                                        Ellipsis,
                                                        slice(None, 24, None),
                                                        24, 100)))])

    def testUnaryOps(self):
        testme = AllTests()

        callLst[:] = []
        -testme
        self.assertCallStack([('__neg__', (testme,))])
        callLst[:] = []
        +testme
        self.assertCallStack([('__pos__', (testme,))])
        callLst[:] = []
        abs(testme)
        self.assertCallStack([('__abs__', (testme,))])
        callLst[:] = []
        int(testme)
        self.assertCallStack([('__int__', (testme,))])
        callLst[:] = []
        float(testme)
        self.assertCallStack([('__float__', (testme,))])
        callLst[:] = []
        oct(testme)
        self.assertCallStack([('__index__', (testme,))])
        callLst[:] = []
        hex(testme)
        self.assertCallStack([('__index__', (testme,))])


    def testMisc(self):
        testme = AllTests()

        callLst[:] = []
        hash(testme)
        self.assertCallStack([('__hash__', (testme,))])

        callLst[:] = []
        repr(testme)
        self.assertCallStack([('__repr__', (testme,))])

        callLst[:] = []
        str(testme)
        self.assertCallStack([('__str__', (testme,))])

        callLst[:] = []
        testme == 1
        self.assertCallStack([('__eq__', (testme, 1))])

        callLst[:] = []
        testme < 1
        self.assertCallStack([('__lt__', (testme, 1))])

        callLst[:] = []
        testme > 1
        self.assertCallStack([('__gt__', (testme, 1))])

        callLst[:] = []
        testme != 1
        self.assertCallStack([('__ne__', (testme, 1))])

        callLst[:] = []
        1 == testme
        self.assertCallStack([('__eq__', (1, testme))])

        callLst[:] = []
        1 < testme
        self.assertCallStack([('__gt__', (1, testme))])

        callLst[:] = []
        1 > testme
        self.assertCallStack([('__lt__', (1, testme))])

        callLst[:] = []
        1 != testme
        self.assertCallStack([('__ne__', (1, testme))])


    def testGetSetAndDel(self):
        # Interfering tests
        class ExtraTests(AllTests):
            @trackCall
            def __getattr__(self, *args):
                return "SomeVal"

            @trackCall
            def __setattr__(self, *args):
                pass

            @trackCall
            def __delattr__(self, *args):
                pass

        testme = ExtraTests()

        callLst[:] = []
        testme.spam
        self.assertCallStack([('__getattr__', (testme, "spam"))])

        callLst[:] = []
        testme.eggs = "spam, spam, spam and ham"
        self.assertCallStack([('__setattr__', (testme, "eggs",
                                               "spam, spam, spam and ham"))])

        callLst[:] = []
        del testme.cardinal
        self.assertCallStack([('__delattr__', (testme, "cardinal"))])

    def testDel(self):
        x = []

        class DelTest:
            def __del__(self):
                x.append("crab people, crab people")
        testme = DelTest()
        del testme
        import gc
        gc.collect()
        self.assertEqual(["crab people, crab people"], x)

    def testBadTypeReturned(self):
        # return values of some method are type-checked
        class BadTypeClass:
            def __int__(self):
                return None
            __float__ = __int__
            __str__ = __int__
            __repr__ = __int__
            __oct__ = __int__
            __hex__ = __int__

        for f in [int, float, str, repr, oct, hex]:
            self.assertRaises(TypeError, f, BadTypeClass())

    def testHashStuff(self):
        # Test correct errors from hash() on objects with comparisons but
        #  no __hash__

        class C0:
            pass

        hash(C0()) # This should work; the next two should raise TypeError

        class C2:
            def __eq__(self, other): return 1

        self.assertRaises(TypeError, hash, C2())


    def testSFBug532646(self):
        # Test for SF bug 532646

        class A:
            pass
        A.__call__ = A()
        a = A()

        try:
            a() # This should not segfault
        except RuntimeError:
            pass
        else:
            self.fail("Failed to raise RuntimeError")

    def testForExceptionsRaisedInInstanceGetattr2(self):
        # Tests for exceptions raised in instance_getattr2().

        def booh(self):
            raise AttributeError("booh")

        class A:
            a = property(booh)
        try:
            A().a # Raised AttributeError: A instance has no attribute 'a'
        except AttributeError as x:
            if str(x) != "booh":
                self.fail("attribute error for A().a got masked: %s" % x)

        class E:
            __eq__ = property(booh)
        E() == E() # In debug mode, caused a C-level assert() to fail

        class I:
            __init__ = property(booh)
        try:
            # In debug mode, printed XXX undetected error and
            #  raises AttributeError
            I()
        except AttributeError as x:
            pass
        else:
            self.fail("attribute error for I.__init__ got masked")

    def testHashComparisonOfMethods(self):
        # Test comparison and hash of methods
        class A:
            def __init__(self, x):
                self.x = x
            def f(self):
                pass
            def g(self):
                pass
            def __eq__(self, other):
                return self.x == other.x
            def __hash__(self):
                return self.x
        class B(A):
            pass

        a1 = A(1)
        a2 = A(2)
        self.assertEqual(a1.f, a1.f)
        self.assertNotEqual(a1.f, a2.f)
        self.assertNotEqual(a1.f, a1.g)
        self.assertEqual(a1.f, A(1).f)
        self.assertEqual(hash(a1.f), hash(a1.f))
        self.assertEqual(hash(a1.f), hash(A(1).f))

        self.assertNotEqual(A.f, a1.f)
        self.assertNotEqual(A.f, A.g)
        self.assertEqual(B.f, A.f)
        self.assertEqual(hash(B.f), hash(A.f))

        # the following triggers a SystemError in 2.4
        a = A(hash(A.f)^(-1))
        hash(a.f)

def test_main():
    support.run_unittest(ClassTests)

if __name__=='__main__':
    test_main()
generated by cgit v0.12 at 2025-12-04 00:41:46 (GMT)
f.text filename = self.io.filename if not filename: text.bell() return self.breakpoints = [] text.tag_remove("BREAK", "1.0", END) try: debug = self.flist.pyshell.interp.debugger debug.clear_file_breaks(filename) except: pass def store_file_breaks(self): "Save breakpoints when file is saved" # XXX 13 Dec 2002 KBK Currently the file must be saved before it can # be run. The breaks are saved at that time. If we introduce # a temporary file save feature the save breaks functionality # needs to be re-verified, since the breaks at the time the # temp file is created may differ from the breaks at the last # permanent save of the file. Currently, a break introduced # after a save will be effective, but not persistent. # This is necessary to keep the saved breaks synched with the # saved file. # # Breakpoints are set as tagged ranges in the text. Certain # kinds of edits cause these ranges to be deleted: Inserting # or deleting a line just before a breakpoint, and certain # deletions prior to a breakpoint. These issues need to be # investigated and understood. It's not clear if they are # Tk issues or IDLE issues, or whether they can actually # be fixed. Since a modified file has to be saved before it is # run, and since self.breakpoints (from which the subprocess # debugger is loaded) is updated during the save, the visible # breaks stay synched with the subprocess even if one of these # unexpected breakpoint deletions occurs. breaks = self.breakpoints filename = self.io.filename try: with open(self.breakpointPath,"r") as old_file: lines = old_file.readlines() except IOError: lines = [] try: with open(self.breakpointPath,"w") as new_file: for line in lines: if not line.startswith(filename + '='): new_file.write(line) self.update_breakpoints() breaks = self.breakpoints if breaks: new_file.write(filename + '=' + str(breaks) + '\n') except IOError as err: if not getattr(self.root, "breakpoint_error_displayed", False): self.root.breakpoint_error_displayed = True tkMessageBox.showerror(title='IDLE Error', message='Unable to update breakpoint list:\n%s' % str(err), parent=self.text) def restore_file_breaks(self): self.text.update() # this enables setting "BREAK" tags to be visible filename = self.io.filename if filename is None: return if os.path.isfile(self.breakpointPath): lines = open(self.breakpointPath,"r").readlines() for line in lines: if line.startswith(filename + '='): breakpoint_linenumbers = eval(line[len(filename)+1:]) for breakpoint_linenumber in breakpoint_linenumbers: self.set_breakpoint(breakpoint_linenumber) def update_breakpoints(self): "Retrieves all the breakpoints in the current window" text = self.text ranges = text.tag_ranges("BREAK") linenumber_list = self.ranges_to_linenumbers(ranges) self.breakpoints = linenumber_list def ranges_to_linenumbers(self, ranges): lines = [] for index in range(0, len(ranges), 2): lineno = int(float(ranges[index].string)) end = int(float(ranges[index+1].string)) while lineno < end: lines.append(lineno) lineno += 1 return lines # XXX 13 Dec 2002 KBK Not used currently # def saved_change_hook(self): # "Extend base method - clear breaks if module is modified" # if not self.get_saved(): # self.clear_file_breaks() # EditorWindow.saved_change_hook(self) def _close(self): "Extend base method - clear breaks when module is closed" self.clear_file_breaks() EditorWindow._close(self) class PyShellFileList(FileList): "Extend base class: IDLE supports a shell and breakpoints" # override FileList's class variable, instances return PyShellEditorWindow # instead of EditorWindow when new edit windows are created. EditorWindow = PyShellEditorWindow pyshell = None def open_shell(self, event=None): if self.pyshell: self.pyshell.top.wakeup() else: self.pyshell = PyShell(self) if self.pyshell: if not self.pyshell.begin(): return None return self.pyshell class ModifiedColorDelegator(ColorDelegator): "Extend base class: colorizer for the shell window itself" def __init__(self): ColorDelegator.__init__(self) self.LoadTagDefs() def recolorize_main(self): self.tag_remove("TODO", "1.0", "iomark") self.tag_add("SYNC", "1.0", "iomark") ColorDelegator.recolorize_main(self) def LoadTagDefs(self): ColorDelegator.LoadTagDefs(self) theme = idleConf.GetOption('main','Theme','name') self.tagdefs.update({ "stdin": {'background':None,'foreground':None}, "stdout": idleConf.GetHighlight(theme, "stdout"), "stderr": idleConf.GetHighlight(theme, "stderr"), "console": idleConf.GetHighlight(theme, "console"), }) def removecolors(self): # Don't remove shell color tags before "iomark" for tag in self.tagdefs: self.tag_remove(tag, "iomark", "end") class ModifiedUndoDelegator(UndoDelegator): "Extend base class: forbid insert/delete before the I/O mark" def insert(self, index, chars, tags=None): try: if self.delegate.compare(index, "<", "iomark"): self.delegate.bell() return except TclError: pass UndoDelegator.insert(self, index, chars, tags) def delete(self, index1, index2=None): try: if self.delegate.compare(index1, "<", "iomark"): self.delegate.bell() return except TclError: pass UndoDelegator.delete(self, index1, index2) class MyRPCClient(rpc.RPCClient): def handle_EOF(self): "Override the base class - just re-raise EOFError" raise EOFError class ModifiedInterpreter(InteractiveInterpreter): def __init__(self, tkconsole): self.tkconsole = tkconsole locals = sys.modules['__main__'].__dict__ InteractiveInterpreter.__init__(self, locals=locals) self.save_warnings_filters = None self.restarting = False self.subprocess_arglist = None self.port = PORT self.original_compiler_flags = self.compile.compiler.flags rpcclt = None rpcpid = None def spawn_subprocess(self): if self.subprocess_arglist is None: self.subprocess_arglist = self.build_subprocess_arglist() args = self.subprocess_arglist self.rpcpid = os.spawnv(os.P_NOWAIT, sys.executable, args) def build_subprocess_arglist(self): assert (self.port!=0), ( "Socket should have been assigned a port number.") w = ['-W' + s for s in sys.warnoptions] if 1/2 > 0: # account for new division w.append('-Qnew') # Maybe IDLE is installed and is being accessed via sys.path, # or maybe it's not installed and the idle.py script is being # run from the IDLE source directory. del_exitf = idleConf.GetOption('main', 'General', 'delete-exitfunc', default=False, type='bool') if __name__ == 'idlelib.PyShell': command = "__import__('idlelib.run').run.main(%r)" % (del_exitf,) else: command = "__import__('run').main(%r)" % (del_exitf,) if sys.platform[:3] == 'win' and ' ' in sys.executable: # handle embedded space in path by quoting the argument decorated_exec = '"%s"' % sys.executable else: decorated_exec = sys.executable return [decorated_exec] + w + ["-c", command, str(self.port)] def start_subprocess(self): addr = (HOST, self.port) # GUI makes several attempts to acquire socket, listens for connection for i in range(3): time.sleep(i) try: self.rpcclt = MyRPCClient(addr) break except socket.error, err: pass else: self.display_port_binding_error() return None # if PORT was 0, system will assign an 'ephemeral' port. Find it out: self.port = self.rpcclt.listening_sock.getsockname()[1] # if PORT was not 0, probably working with a remote execution server if PORT != 0: # To allow reconnection within the 2MSL wait (cf. Stevens TCP # V1, 18.6), set SO_REUSEADDR. Note that this can be problematic # on Windows since the implementation allows two active sockets on # the same address! self.rpcclt.listening_sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1) self.spawn_subprocess() #time.sleep(20) # test to simulate GUI not accepting connection # Accept the connection from the Python execution server self.rpcclt.listening_sock.settimeout(10) try: self.rpcclt.accept() except socket.timeout, err: self.display_no_subprocess_error() return None self.rpcclt.register("console", self.tkconsole) self.rpcclt.register("stdin", self.tkconsole.stdin) self.rpcclt.register("stdout", self.tkconsole.stdout) self.rpcclt.register("stderr", self.tkconsole.stderr) self.rpcclt.register("flist", self.tkconsole.flist) self.rpcclt.register("linecache", linecache) self.rpcclt.register("interp", self) self.transfer_path(with_cwd=True) self.poll_subprocess() return self.rpcclt def restart_subprocess(self, with_cwd=False): if self.restarting: return self.rpcclt self.restarting = True # close only the subprocess debugger debug = self.getdebugger() if debug: try: # Only close subprocess debugger, don't unregister gui_adap! RemoteDebugger.close_subprocess_debugger(self.rpcclt) except: pass # Kill subprocess, spawn a new one, accept connection. self.rpcclt.close() self.unix_terminate() console = self.tkconsole was_executing = console.executing console.executing = False self.spawn_subprocess() try: self.rpcclt.accept() except socket.timeout, err: self.display_no_subprocess_error() return None self.transfer_path(with_cwd=with_cwd) # annotate restart in shell window and mark it console.text.delete("iomark", "end-1c") if was_executing: console.write('\n') console.showprompt() halfbar = ((int(console.width) - 16) // 2) * '=' console.write(halfbar + ' RESTART ' + halfbar) console.text.mark_set("restart", "end-1c") console.text.mark_gravity("restart", "left") console.showprompt() # restart subprocess debugger if debug: # Restarted debugger connects to current instance of debug GUI gui = RemoteDebugger.restart_subprocess_debugger(self.rpcclt) # reload remote debugger breakpoints for all PyShellEditWindows debug.load_breakpoints() self.compile.compiler.flags = self.original_compiler_flags self.restarting = False return self.rpcclt def __request_interrupt(self): self.rpcclt.remotecall("exec", "interrupt_the_server", (), {}) def interrupt_subprocess(self): threading.Thread(target=self.__request_interrupt).start() def kill_subprocess(self): try: self.rpcclt.close() except AttributeError: # no socket pass self.unix_terminate() self.tkconsole.executing = False self.rpcclt = None def unix_terminate(self): "UNIX: make sure subprocess is terminated and collect status" if hasattr(os, 'kill'): try: os.kill(self.rpcpid, SIGTERM) except OSError: # process already terminated: return else: try: os.waitpid(self.rpcpid, 0) except OSError: return def transfer_path(self, with_cwd=False): if with_cwd: # Issue 13506 path = [''] # include Current Working Directory path.extend(sys.path) else: path = sys.path self.runcommand("""if 1: import sys as _sys _sys.path = %r del _sys \n""" % (path,)) active_seq = None def poll_subprocess(self): clt = self.rpcclt if clt is None: return try: response = clt.pollresponse(self.active_seq, wait=0.05) except (EOFError, IOError, KeyboardInterrupt): # lost connection or subprocess terminated itself, restart # [the KBI is from rpc.SocketIO.handle_EOF()] if self.tkconsole.closing: return response = None self.restart_subprocess() if response: self.tkconsole.resetoutput() self.active_seq = None how, what = response console = self.tkconsole.console if how == "OK": if what is not None: print >>console, repr(what) elif how == "EXCEPTION": if self.tkconsole.getvar("<<toggle-jit-stack-viewer>>"): self.remote_stack_viewer() elif how == "ERROR": errmsg = "PyShell.ModifiedInterpreter: Subprocess ERROR:\n" print >>sys.__stderr__, errmsg, what print >>console, errmsg, what # we received a response to the currently active seq number: try: self.tkconsole.endexecuting() except AttributeError: # shell may have closed pass # Reschedule myself if not self.tkconsole.closing: self.tkconsole.text.after(self.tkconsole.pollinterval, self.poll_subprocess) debugger = None def setdebugger(self, debugger): self.debugger = debugger def getdebugger(self): return self.debugger def open_remote_stack_viewer(self): """Initiate the remote stack viewer from a separate thread. This method is called from the subprocess, and by returning from this method we allow the subprocess to unblock. After a bit the shell requests the subprocess to open the remote stack viewer which returns a static object looking at the last exception. It is queried through the RPC mechanism. """ self.tkconsole.text.after(300, self.remote_stack_viewer) return def remote_stack_viewer(self): from idlelib import RemoteObjectBrowser oid = self.rpcclt.remotequeue("exec", "stackviewer", ("flist",), {}) if oid is None: self.tkconsole.root.bell() return item = RemoteObjectBrowser.StubObjectTreeItem(self.rpcclt, oid) from idlelib.TreeWidget import ScrolledCanvas, TreeNode top = Toplevel(self.tkconsole.root) theme = idleConf.GetOption('main','Theme','name') background = idleConf.GetHighlight(theme, 'normal')['background'] sc = ScrolledCanvas(top, bg=background, highlightthickness=0) sc.frame.pack(expand=1, fill="both") node = TreeNode(sc.canvas, None, item) node.expand() # XXX Should GC the remote tree when closing the window gid = 0 def execsource(self, source): "Like runsource() but assumes complete exec source" filename = self.stuffsource(source) self.execfile(filename, source) def execfile(self, filename, source=None): "Execute an existing file" if source is None: source = open(filename, "r").read() try: code = compile(source, filename, "exec") except (OverflowError, SyntaxError): self.tkconsole.resetoutput() tkerr = self.tkconsole.stderr print>>tkerr, '*** Error in script or command!\n' print>>tkerr, 'Traceback (most recent call last):' InteractiveInterpreter.showsyntaxerror(self, filename) self.tkconsole.showprompt() else: self.runcode(code) def runsource(self, source): "Extend base class method: Stuff the source in the line cache first" filename = self.stuffsource(source) self.more = 0 self.save_warnings_filters = warnings.filters[:] warnings.filterwarnings(action="error", category=SyntaxWarning) if isinstance(source, types.UnicodeType): from idlelib import IOBinding try: source = source.encode(IOBinding.encoding) except UnicodeError: self.tkconsole.resetoutput() self.write("Unsupported characters in input\n") return try: # InteractiveInterpreter.runsource() calls its runcode() method, # which is overridden (see below) return InteractiveInterpreter.runsource(self, source, filename) finally: if self.save_warnings_filters is not None: warnings.filters[:] = self.save_warnings_filters self.save_warnings_filters = None def stuffsource(self, source): "Stuff source in the filename cache" filename = "<pyshell#%d>" % self.gid self.gid = self.gid + 1 lines = source.split("\n") linecache.cache[filename] = len(source)+1, 0, lines, filename return filename def prepend_syspath(self, filename): "Prepend sys.path with file's directory if not already included" self.runcommand("""if 1: _filename = %r import sys as _sys from os.path import dirname as _dirname _dir = _dirname(_filename) if not _dir in _sys.path: _sys.path.insert(0, _dir) del _filename, _sys, _dirname, _dir \n""" % (filename,)) def showsyntaxerror(self, filename=None): """Extend base class method: Add Colorizing Color the offending position instead of printing it and pointing at it with a caret. """ text = self.tkconsole.text stuff = self.unpackerror() if stuff: msg, lineno, offset, line = stuff if lineno == 1: pos = "iomark + %d chars" % (offset-1) else: pos = "iomark linestart + %d lines + %d chars" % \ (lineno-1, offset-1) text.tag_add("ERROR", pos) text.see(pos) char = text.get(pos) if char and char in IDENTCHARS: text.tag_add("ERROR", pos + " wordstart", pos) self.tkconsole.resetoutput() self.write("SyntaxError: %s\n" % str(msg)) else: self.tkconsole.resetoutput() InteractiveInterpreter.showsyntaxerror(self, filename) self.tkconsole.showprompt() def unpackerror(self): type, value, tb = sys.exc_info() ok = type is SyntaxError if ok: try: msg, (dummy_filename, lineno, offset, line) = value if not offset: offset = 0 except: ok = 0 if ok: return msg, lineno, offset, line else: return None def showtraceback(self): "Extend base class method to reset output properly" self.tkconsole.resetoutput() self.checklinecache() InteractiveInterpreter.showtraceback(self) if self.tkconsole.getvar("<<toggle-jit-stack-viewer>>"): self.tkconsole.open_stack_viewer() def checklinecache(self): c = linecache.cache for key in c.keys(): if key[:1] + key[-1:] != "<>": del c[key] def runcommand(self, code): "Run the code without invoking the debugger" # The code better not raise an exception! if self.tkconsole.executing: self.display_executing_dialog() return 0 if self.rpcclt: self.rpcclt.remotequeue("exec", "runcode", (code,), {}) else: exec code in self.locals return 1 def runcode(self, code): "Override base class method" if self.tkconsole.executing: self.interp.restart_subprocess() self.checklinecache() if self.save_warnings_filters is not None: warnings.filters[:] = self.save_warnings_filters self.save_warnings_filters = None debugger = self.debugger try: self.tkconsole.beginexecuting() if not debugger and self.rpcclt is not None: self.active_seq = self.rpcclt.asyncqueue("exec", "runcode", (code,), {}) elif debugger: debugger.run(code, self.locals) else: exec code in self.locals except SystemExit: if not self.tkconsole.closing: if tkMessageBox.askyesno( "Exit?", "Do you want to exit altogether?", default="yes", master=self.tkconsole.text): raise else: self.showtraceback() else: raise except: if use_subprocess: print >>self.tkconsole.stderr, \ "IDLE internal error in runcode()" self.showtraceback() self.tkconsole.endexecuting() else: if self.tkconsole.canceled: self.tkconsole.canceled = False print >>self.tkconsole.stderr, "KeyboardInterrupt" else: self.showtraceback() finally: if not use_subprocess: try: self.tkconsole.endexecuting() except AttributeError: # shell may have closed pass def write(self, s): "Override base class method" self.tkconsole.stderr.write(s) def display_port_binding_error(self): tkMessageBox.showerror( "Port Binding Error", "IDLE can't bind to a TCP/IP port, which is necessary to " "communicate with its Python execution server. This might be " "because no networking is installed on this computer. " "Run IDLE with the -n command line switch to start without a " "subprocess and refer to Help/IDLE Help 'Running without a " "subprocess' for further details.", master=self.tkconsole.text) def display_no_subprocess_error(self): tkMessageBox.showerror( "Subprocess Startup Error", "IDLE's subprocess didn't make connection. Either IDLE can't " "start a subprocess or personal firewall software is blocking " "the connection.", master=self.tkconsole.text) def display_executing_dialog(self): tkMessageBox.showerror( "Already executing", "The Python Shell window is already executing a command; " "please wait until it is finished.", master=self.tkconsole.text) class PyShell(OutputWindow): shell_title = "Python Shell" # Override classes ColorDelegator = ModifiedColorDelegator UndoDelegator = ModifiedUndoDelegator # Override menus menu_specs = [ ("file", "_File"), ("edit", "_Edit"), ("debug", "_Debug"), ("options", "_Options"), ("windows", "_Windows"), ("help", "_Help"), ] if macosxSupport.runningAsOSXApp(): del menu_specs[-3] menu_specs[-2] = ("windows", "_Window") # New classes from idlelib.IdleHistory import History def __init__(self, flist=None): if use_subprocess: ms = self.menu_specs if ms[2][0] != "shell": ms.insert(2, ("shell", "She_ll")) self.interp = ModifiedInterpreter(self) if flist is None: root = Tk() fixwordbreaks(root) root.withdraw() flist = PyShellFileList(root) # OutputWindow.__init__(self, flist, None, None) # ## self.config(usetabs=1, indentwidth=8, context_use_ps1=1) self.usetabs = True # indentwidth must be 8 when using tabs. See note in EditorWindow: self.indentwidth = 8 self.context_use_ps1 = True # text = self.text text.configure(wrap="char") text.bind("<<newline-and-indent>>", self.enter_callback) text.bind("<<plain-newline-and-indent>>", self.linefeed_callback) text.bind("<<interrupt-execution>>", self.cancel_callback) text.bind("<<end-of-file>>", self.eof_callback) text.bind("<<open-stack-viewer>>", self.open_stack_viewer) text.bind("<<toggle-debugger>>", self.toggle_debugger) text.bind("<<toggle-jit-stack-viewer>>", self.toggle_jit_stack_viewer) if use_subprocess: text.bind("<<view-restart>>", self.view_restart_mark) text.bind("<<restart-shell>>", self.restart_shell) # self.save_stdout = sys.stdout self.save_stderr = sys.stderr self.save_stdin = sys.stdin from idlelib import IOBinding self.stdin = PseudoInputFile(self, "stdin", IOBinding.encoding) self.stdout = PseudoOutputFile(self, "stdout", IOBinding.encoding) self.stderr = PseudoOutputFile(self, "stderr", IOBinding.encoding) self.console = PseudoOutputFile(self, "console", IOBinding.encoding) if not use_subprocess: sys.stdout = self.stdout sys.stderr = self.stderr sys.stdin = self.stdin # self.history = self.History(self.text) # self.pollinterval = 50 # millisec def get_standard_extension_names(self): return idleConf.GetExtensions(shell_only=True) reading = False executing = False canceled = False endoffile = False closing = False def set_warning_stream(self, stream): global warning_stream warning_stream = stream def get_warning_stream(self): return warning_stream def toggle_debugger(self, event=None): if self.executing: tkMessageBox.showerror("Don't debug now", "You can only toggle the debugger when idle", master=self.text) self.set_debugger_indicator() return "break" else: db = self.interp.getdebugger() if db: self.close_debugger() else: self.open_debugger() def set_debugger_indicator(self): db = self.interp.getdebugger() self.setvar("<<toggle-debugger>>", not not db) def toggle_jit_stack_viewer(self, event=None): pass # All we need is the variable def close_debugger(self): db = self.interp.getdebugger() if db: self.interp.setdebugger(None) db.close() if self.interp.rpcclt: RemoteDebugger.close_remote_debugger(self.interp.rpcclt) self.resetoutput() self.console.write("[DEBUG OFF]\n") sys.ps1 = ">>> " self.showprompt() self.set_debugger_indicator() def open_debugger(self): if self.interp.rpcclt: dbg_gui = RemoteDebugger.start_remote_debugger(self.interp.rpcclt, self) else: dbg_gui = Debugger.Debugger(self) self.interp.setdebugger(dbg_gui) dbg_gui.load_breakpoints() sys.ps1 = "[DEBUG ON]\n>>> " self.showprompt() self.set_debugger_indicator() def beginexecuting(self): "Helper for ModifiedInterpreter" self.resetoutput() self.executing = 1 def endexecuting(self): "Helper for ModifiedInterpreter" self.executing = 0 self.canceled = 0 self.showprompt() def close(self): "Extend EditorWindow.close()" if self.executing: response = tkMessageBox.askokcancel( "Kill?", "The program is still running!\n Do you want to kill it?", default="ok", parent=self.text) if response is False: return "cancel" if self.reading: self.top.quit() self.canceled = True self.closing = True # Wait for poll_subprocess() rescheduling to stop self.text.after(2 * self.pollinterval, self.close2) def close2(self): return EditorWindow.close(self) def _close(self): "Extend EditorWindow._close(), shut down debugger and execution server" self.close_debugger() if use_subprocess: self.interp.kill_subprocess() # Restore std streams sys.stdout = self.save_stdout sys.stderr = self.save_stderr sys.stdin = self.save_stdin # Break cycles self.interp = None self.console = None self.flist.pyshell = None self.history = None EditorWindow._close(self) def ispythonsource(self, filename): "Override EditorWindow method: never remove the colorizer" return True def short_title(self): return self.shell_title COPYRIGHT = \ 'Type "copyright", "credits" or "license()" for more information.' def begin(self): self.resetoutput() if use_subprocess: nosub = '' client = self.interp.start_subprocess() if not client: self.close() return False else: nosub = "==== No Subprocess ====" self.write("Python %s on %s\n%s\n%s" % (sys.version, sys.platform, self.COPYRIGHT, nosub)) self.showprompt() import Tkinter Tkinter._default_root = None # 03Jan04 KBK What's this? return True def readline(self): save = self.reading try: self.reading = 1 self.top.mainloop() # nested mainloop() finally: self.reading = save line = self.text.get("iomark", "end-1c") if len(line) == 0: # may be EOF if we quit our mainloop with Ctrl-C line = "\n" if isinstance(line, unicode): from idlelib import IOBinding try: line = line.encode(IOBinding.encoding) except UnicodeError: pass self.resetoutput() if self.canceled: self.canceled = 0 if not use_subprocess: raise KeyboardInterrupt if self.endoffile: self.endoffile = 0 line = "" return line def isatty(self): return True def cancel_callback(self, event=None): try: if self.text.compare("sel.first", "!=", "sel.last"): return # Active selection -- always use default binding except: pass if not (self.executing or self.reading): self.resetoutput() self.interp.write("KeyboardInterrupt\n") self.showprompt() return "break" self.endoffile = 0 self.canceled = 1 if (self.executing and self.interp.rpcclt): if self.interp.getdebugger(): self.interp.restart_subprocess() else: self.interp.interrupt_subprocess() if self.reading: self.top.quit() # exit the nested mainloop() in readline() return "break" def eof_callback(self, event): if self.executing and not self.reading: return # Let the default binding (delete next char) take over if not (self.text.compare("iomark", "==", "insert") and self.text.compare("insert", "==", "end-1c")): return # Let the default binding (delete next char) take over if not self.executing: self.resetoutput() self.close() else: self.canceled = 0 self.endoffile = 1 self.top.quit() return "break" def linefeed_callback(self, event): # Insert a linefeed without entering anything (still autoindented) if self.reading: self.text.insert("insert", "\n") self.text.see("insert") else: self.newline_and_indent_event(event) return "break" def enter_callback(self, event): if self.executing and not self.reading: return # Let the default binding (insert '\n') take over # If some text is selected, recall the selection # (but only if this before the I/O mark) try: sel = self.text.get("sel.first", "sel.last") if sel: if self.text.compare("sel.last", "<=", "iomark"): self.recall(sel, event) return "break" except: pass # If we're strictly before the line containing iomark, recall # the current line, less a leading prompt, less leading or # trailing whitespace if self.text.compare("insert", "<", "iomark linestart"): # Check if there's a relevant stdin range -- if so, use it prev = self.text.tag_prevrange("stdin", "insert") if prev and self.text.compare("insert", "<", prev[1]): self.recall(self.text.get(prev[0], prev[1]), event) return "break" next = self.text.tag_nextrange("stdin", "insert") if next and self.text.compare("insert lineend", ">=", next[0]): self.recall(self.text.get(next[0], next[1]), event) return "break" # No stdin mark -- just get the current line, less any prompt indices = self.text.tag_nextrange("console", "insert linestart") if indices and \ self.text.compare(indices[0], "<=", "insert linestart"): self.recall(self.text.get(indices[1], "insert lineend"), event) else: self.recall(self.text.get("insert linestart", "insert lineend"), event) return "break" # If we're between the beginning of the line and the iomark, i.e. # in the prompt area, move to the end of the prompt if self.text.compare("insert", "<", "iomark"): self.text.mark_set("insert", "iomark") # If we're in the current input and there's only whitespace # beyond the cursor, erase that whitespace first s = self.text.get("insert", "end-1c") if s and not s.strip(): self.text.delete("insert", "end-1c") # If we're in the current input before its last line, # insert a newline right at the insert point if self.text.compare("insert", "<", "end-1c linestart"): self.newline_and_indent_event(event) return "break" # We're in the last line; append a newline and submit it self.text.mark_set("insert", "end-1c") if self.reading: self.text.insert("insert", "\n") self.text.see("insert") else: self.newline_and_indent_event(event) self.text.tag_add("stdin", "iomark", "end-1c") self.text.update_idletasks() if self.reading: self.top.quit() # Break out of recursive mainloop() in raw_input() else: self.runit() return "break" def recall(self, s, event): # remove leading and trailing empty or whitespace lines s = re.sub(r'^\s*\n', '' , s) s = re.sub(r'\n\s*$', '', s) lines = s.split('\n') self.text.undo_block_start() try: self.text.tag_remove("sel", "1.0", "end") self.text.mark_set("insert", "end-1c") prefix = self.text.get("insert linestart", "insert") if prefix.rstrip().endswith(':'): self.newline_and_indent_event(event) prefix = self.text.get("insert linestart", "insert") self.text.insert("insert", lines[0].strip()) if len(lines) > 1: orig_base_indent = re.search(r'^([ \t]*)', lines[0]).group(0) new_base_indent = re.search(r'^([ \t]*)', prefix).group(0) for line in lines[1:]: if line.startswith(orig_base_indent): # replace orig base indentation with new indentation line = new_base_indent + line[len(orig_base_indent):] self.text.insert('insert', '\n'+line.rstrip()) finally: self.text.see("insert") self.text.undo_block_stop() def runit(self): line = self.text.get("iomark", "end-1c") # Strip off last newline and surrounding whitespace. # (To allow you to hit return twice to end a statement.) i = len(line) while i > 0 and line[i-1] in " \t": i = i-1 if i > 0 and line[i-1] == "\n": i = i-1 while i > 0 and line[i-1] in " \t": i = i-1 line = line[:i] more = self.interp.runsource(line) def open_stack_viewer(self, event=None): if self.interp.rpcclt: return self.interp.remote_stack_viewer() try: sys.last_traceback except: tkMessageBox.showerror("No stack trace", "There is no stack trace yet.\n" "(sys.last_traceback is not defined)", master=self.text) return from idlelib.StackViewer import StackBrowser sv = StackBrowser(self.root, self.flist) def view_restart_mark(self, event=None): self.text.see("iomark") self.text.see("restart") def restart_shell(self, event=None): "Callback for Run/Restart Shell Cntl-F6" self.interp.restart_subprocess(with_cwd=True) def showprompt(self): self.resetoutput() try: s = str(sys.ps1) except: s = "" self.console.write(s) self.text.mark_set("insert", "end-1c") self.set_line_and_column() self.io.reset_undo() def resetoutput(self): source = self.text.get("iomark", "end-1c") if self.history: self.history.history_store(source) if self.text.get("end-2c") != "\n": self.text.insert("end-1c", "\n") self.text.mark_set("iomark", "end-1c") self.set_line_and_column() sys.stdout.softspace = 0 def write(self, s, tags=()): try: self.text.mark_gravity("iomark", "right") OutputWindow.write(self, s, tags, "iomark") self.text.mark_gravity("iomark", "left") except: pass if self.canceled: self.canceled = 0 if not use_subprocess: raise KeyboardInterrupt def rmenu_check_cut(self): try: if self.text.compare('sel.first', '<', 'iomark'): return 'disabled' except TclError: # no selection, so the index 'sel.first' doesn't exist return 'disabled' return super(PyShell, self).rmenu_check_cut() def rmenu_check_paste(self): if self.text.compare('insert', '<', 'iomark'): return 'disabled' return super(PyShell, self).rmenu_check_paste() class PseudoFile(io.TextIOBase): def __init__(self, shell, tags, encoding=None): self.shell = shell self.tags = tags self.softspace = 0 self._encoding = encoding @property def encoding(self): return self._encoding @property def name(self): return '<%s>' % self.tags def isatty(self): return True class PseudoOutputFile(PseudoFile): def writable(self): return True def write(self, s): if self.closed: raise ValueError("write to closed file") if not isinstance(s, (basestring, bytearray)): raise TypeError('must be string, not ' + type(s).__name__) return self.shell.write(s, self.tags) class PseudoInputFile(PseudoFile): def __init__(self, shell, tags, encoding=None): PseudoFile.__init__(self, shell, tags, encoding) self._line_buffer = '' def readable(self): return True def read(self, size=-1): if self.closed: raise ValueError("read from closed file") if size is None: size = -1 elif not isinstance(size, int): raise TypeError('must be int, not ' + type(size).__name__) result = self._line_buffer self._line_buffer = '' if size < 0: while True: line = self.shell.readline() if not line: break result += line else: while len(result) < size: line = self.shell.readline() if not line: break result += line self._line_buffer = result[size:] result = result[:size] return result def readline(self, size=-1): if self.closed: raise ValueError("read from closed file") if size is None: size = -1 elif not isinstance(size, int): raise TypeError('must be int, not ' + type(size).__name__) line = self._line_buffer or self.shell.readline() if size < 0: size = len(line) self._line_buffer = line[size:] return line[:size] usage_msg = """\ USAGE: idle [-deins] [-t title] [file]* idle [-dns] [-t title] (-c cmd | -r file) [arg]* idle [-dns] [-t title] - [arg]* -h print this help message and exit -n run IDLE without a subprocess (see Help/IDLE Help for details) The following options will override the IDLE 'settings' configuration: -e open an edit window -i open a shell window The following options imply -i and will open a shell: -c cmd run the command in a shell, or -r file run script from file -d enable the debugger -s run $IDLESTARTUP or $PYTHONSTARTUP before anything else -t title set title of shell window A default edit window will be bypassed when -c, -r, or - are used. [arg]* are passed to the command (-c) or script (-r) in sys.argv[1:]. Examples: idle Open an edit window or shell depending on IDLE's configuration. idle foo.py foobar.py Edit the files, also open a shell if configured to start with shell. idle -est "Baz" foo.py Run $IDLESTARTUP or $PYTHONSTARTUP, edit foo.py, and open a shell window with the title "Baz". idle -c "import sys; print sys.argv" "foo" Open a shell window and run the command, passing "-c" in sys.argv[0] and "foo" in sys.argv[1]. idle -d -s -r foo.py "Hello World" Open a shell window, run a startup script, enable the debugger, and run foo.py, passing "foo.py" in sys.argv[0] and "Hello World" in sys.argv[1]. echo "import sys; print sys.argv" | idle - "foobar" Open a shell window, run the script piped in, passing '' in sys.argv[0] and "foobar" in sys.argv[1]. """ def main(): global flist, root, use_subprocess use_subprocess = True enable_shell = True enable_edit = False debug = False cmd = None script = None startup = False try: opts, args = getopt.getopt(sys.argv[1:], "c:deihnr:st:") except getopt.error, msg: sys.stderr.write("Error: %s\n" % str(msg)) sys.stderr.write(usage_msg) sys.exit(2) for o, a in opts: if o == '-c': cmd = a enable_shell = True if o == '-d': debug = True enable_shell = True if o == '-e': enable_edit = True enable_shell = False if o == '-h': sys.stdout.write(usage_msg) sys.exit() if o == '-i': enable_shell = True if o == '-n': use_subprocess = False if o == '-r': script = a if os.path.isfile(script): pass else: print "No script file: ", script sys.exit() enable_shell = True if o == '-s': startup = True enable_shell = True if o == '-t': PyShell.shell_title = a enable_shell = True if args and args[0] == '-': cmd = sys.stdin.read() enable_shell = True # process sys.argv and sys.path: for i in range(len(sys.path)): sys.path[i] = os.path.abspath(sys.path[i]) if args and args[0] == '-': sys.argv = [''] + args[1:] elif cmd: sys.argv = ['-c'] + args elif script: sys.argv = [script] + args elif args: enable_edit = True pathx = [] for filename in args: pathx.append(os.path.dirname(filename)) for dir in pathx: dir = os.path.abspath(dir) if dir not in sys.path: sys.path.insert(0, dir) else: dir = os.getcwd() if not dir in sys.path: sys.path.insert(0, dir) # check the IDLE settings configuration (but command line overrides) edit_start = idleConf.GetOption('main', 'General', 'editor-on-startup', type='bool') enable_edit = enable_edit or edit_start # start editor and/or shell windows: root = Tk(className="Idle") fixwordbreaks(root) root.withdraw() flist = PyShellFileList(root) macosxSupport.setupApp(root, flist) if enable_edit: if not (cmd or script): for filename in args[:]: if flist.open(filename) is None: # filename is a directory actually, disconsider it args.remove(filename) if not args: flist.new() if enable_shell: shell = flist.open_shell() if not shell: return # couldn't open shell if macosxSupport.runningAsOSXApp() and flist.dict: # On OSX: when the user has double-clicked on a file that causes # IDLE to be launched the shell window will open just in front of # the file she wants to see. Lower the interpreter window when # there are open files. shell.top.lower() shell = flist.pyshell # handle remaining options: if debug: shell.open_debugger() if startup: filename = os.environ.get("IDLESTARTUP") or \ os.environ.get("PYTHONSTARTUP") if filename and os.path.isfile(filename): shell.interp.execfile(filename) if shell and cmd or script: shell.interp.runcommand("""if 1: import sys as _sys _sys.argv = %r del _sys \n""" % (sys.argv,)) if cmd: shell.interp.execsource(cmd) elif script: shell.interp.prepend_syspath(script) shell.interp.execfile(script) # Check for problematic OS X Tk versions and print a warning message # in the IDLE shell window; this is less intrusive than always opening # a separate window. tkversionwarning = macosxSupport.tkVersionWarning(root) if tkversionwarning: shell.interp.runcommand(''.join(("print('", tkversionwarning, "')"))) while flist.inversedict: # keep IDLE running while files are open. root.mainloop() root.destroy() if __name__ == "__main__": sys.modules['PyShell'] = sys.modules['__main__'] main()
generated by cgit v0.12 at 2025-12-04 00:41:46 (GMT)