# Testing the line trace facility. from test import support import unittest import sys import difflib import gc from functools import wraps import asyncio from test.support import import_helper, requires_subprocess import contextlib import os import tempfile import textwrap import subprocess import warnings try: import _testinternalcapi except ImportError: _testinternalcapi = None support.requires_working_socket(module=True) class tracecontext: """Context manager that traces its enter and exit.""" def __init__(self, output, value): self.output = output self.value = value def __enter__(self): self.output.append(self.value) def __exit__(self, *exc_info): self.output.append(-self.value) class asynctracecontext: """Asynchronous context manager that traces its aenter and aexit.""" def __init__(self, output, value): self.output = output self.value = value async def __aenter__(self): self.output.append(self.value) async def __aexit__(self, *exc_info): self.output.append(-self.value) async def asynciter(iterable): """Convert an iterable to an asynchronous iterator.""" for x in iterable: yield x def clean_asynciter(test): @wraps(test) async def wrapper(*args, **kwargs): cleanups = [] def wrapped_asynciter(iterable): it = asynciter(iterable) cleanups.append(it.aclose) return it try: return await test(*args, **kwargs, asynciter=wrapped_asynciter) finally: while cleanups: await cleanups.pop()() return wrapper # A very basic example. If this fails, we're in deep trouble. def basic(): return 1 basic.events = [(0, 'call'), (1, 'line'), (1, 'return')] # Many of the tests below are tricky because they involve pass statements. # If there is implicit control flow around a pass statement (in an except # clause or else clause) under what conditions do you set a line number # following that clause? # Some constructs like "while 0:", "if 0:" or "if 1:...else:..." could be optimized # away. Make sure that those lines aren't skipped. def arigo_example0(): x = 1 del x while 0: pass x = 1 arigo_example0.events = [(0, 'call'), (1, 'line'), (2, 'line'), (3, 'line'), (5, 'line'), (5, 'return')] def arigo_example1(): x = 1 del x if 0: pass x = 1 arigo_example1.events = [(0, 'call'), (1, 'line'), (2, 'line'), (3, 'line'), (5, 'line'), (5, 'return')] def arigo_example2(): x = 1 del x if 1: x = 1 else: pass return None arigo_example2.events = [(0, 'call'), (1, 'line'), (2, 'line'), (3, 'line'), (4, 'line'), (7, 'line'), (7, 'return')] # check that lines consisting of just one instruction get traced: def one_instr_line(): x = 1 del x x = 1 one_instr_line.events = [(0, 'call'), (1, 'line'), (2, 'line'), (3, 'line'), (3, 'return')] def no_pop_tops(): # 0 x = 1 # 1 for a in range(2): # 2 if a: # 3 x = 1 # 4 else: # 5 x = 1 # 6 no_pop_tops.events = [(0, 'call'), (1, 'line'), (2, 'line'), (3, 'line'), (6, 'line'), (2, 'line'), (3, 'line'), (4, 'line'), (2, 'line'), (2, 'return')] def no_pop_blocks(): y = 1 while not y: bla x = 1 no_pop_blocks.events = [(0, 'call'), (1, 'line'), (2, 'line'), (4, 'line'), (4, 'return')] def called(): # line -3 x = 1 def call(): # line 0 called() call.events = [(0, 'call'), (1, 'line'), (-3, 'call'), (-2, 'line'), (-2, 'return'), (1, 'return')] def raises(): raise Exception def test_raise(): try: raises() except Exception: pass test_raise.events = [(0, 'call'), (1, 'line'), (2, 'line'), (-3, 'call'), (-2, 'line'), (-2, 'exception'), (-2, 'return'), (2, 'exception'), (3, 'line'), (4, 'line'), (4, 'return')] def _settrace_and_return(tracefunc): sys.settrace(tracefunc) sys._getframe().f_back.f_trace = tracefunc def settrace_and_return(tracefunc): _settrace_and_return(tracefunc) settrace_and_return.events = [(1, 'return')] def _settrace_and_raise(tracefunc): sys.settrace(tracefunc) sys._getframe().f_back.f_trace = tracefunc raise RuntimeError def settrace_and_raise(tracefunc): try: _settrace_and_raise(tracefunc) except RuntimeError: pass settrace_and_raise.events = [(2, 'exception'), (3, 'line'), (4, 'line'), (4, 'return')] # implicit return example # This test is interesting because of the else: pass # part of the code. The code generate for the true # part of the if contains a jump past the else branch. # The compiler then generates an implicit "return None" # Internally, the compiler visits the pass statement # and stores its line number for use on the next instruction. # The next instruction is the implicit return None. def ireturn_example(): a = 5 b = 5 if a == b: b = a+1 else: pass ireturn_example.events = [(0, 'call'), (1, 'line'), (2, 'line'), (3, 'line'), (4, 'line'), (4, 'return')] # Tight loop with while(1) example (SF #765624) def tightloop_example(): items = range(0, 3) try: i = 0 while 1: b = items[i]; i+=1 except IndexError: pass tightloop_example.events = [(0, 'call'), (1, 'line'), (2, 'line'), (3, 'line'), (4, 'line'), (5, 'line'), (4, 'line'), (5, 'line'), (4, 'line'), (5, 'line'), (4, 'line'), (5, 'line'), (5, 'exception'), (6, 'line'), (7, 'line'), (7, 'return')] def tighterloop_example(): items = range(1, 4) try: i = 0 while 1: i = items[i] except IndexError: pass tighterloop_example.events = [(0, 'call'), (1, 'line'), (2, 'line'), (3, 'line'), (4, 'line'), (4, 'line'), (4, 'line'), (4, 'line'), (4, 'exception'), (5, 'line'), (6, 'line'), (6, 'return')] def generator_function(): try: yield True "continued" finally: "finally" def generator_example(): # any() will leave the generator before its end x = any(generator_function()) # the following lines were not traced for x in range(10): y = x generator_example.events = ([(0, 'call'), (2, 'line'), (-6, 'call'), (-5, 'line'), (-4, 'line'), (-4, 'return'), (-4, 'call'), (-4, 'exception'), (-1, 'line'), (-1, 'return')] + [(5, 'line'), (6, 'line')] * 10 + [(5, 'line'), (5, 'return')]) def lineno_matches_lasti(frame): last_line = None for start, end, line in frame.f_code.co_lines(): if start <= frame.f_lasti < end: last_line = line return last_line == frame.f_lineno class Tracer: def __init__(self, trace_line_events=None, trace_opcode_events=None): self.trace_line_events = trace_line_events self.trace_opcode_events = trace_opcode_events self.events = [] def _reconfigure_frame(self, frame): if self.trace_line_events is not None: frame.f_trace_lines = self.trace_line_events if self.trace_opcode_events is not None: frame.f_trace_opcodes = self.trace_opcode_events def trace(self, frame, event, arg): assert lineno_matches_lasti(frame) self._reconfigure_frame(frame) self.events.append((frame.f_lineno, event)) return self.trace def traceWithGenexp(self, frame, event, arg): self._reconfigure_frame(frame) (o for o in [1]) self.events.append((frame.f_lineno, event)) return self.trace class TraceTestCase(unittest.TestCase): # Disable gc collection when tracing, otherwise the # deallocators may be traced as well. def setUp(self): self.using_gc = gc.isenabled() gc.disable() self.addCleanup(sys.settrace, sys.gettrace()) def tearDown(self): if self.using_gc: gc.enable() @staticmethod def make_tracer(): """Helper to allow test subclasses to configure tracers differently""" return Tracer() def compare_events(self, line_offset, events, expected_events): events = [(l - line_offset if l is not None else None, e) for (l, e) in events] if events != expected_events: self.fail( "events did not match expectation:\n" + "\n".join(difflib.ndiff([str(x) for x in expected_events], [str(x) for x in events]))) def run_and_compare(self, func, events): tracer = self.make_tracer() sys.settrace(tracer.trace) func() sys.settrace(None) self.compare_events(func.__code__.co_firstlineno, tracer.events, events) def run_test(self, func): self.run_and_compare(func, func.events) def run_test2(self, func): tracer = self.make_tracer() func(tracer.trace) sys.settrace(None) self.compare_events(func.__code__.co_firstlineno, tracer.events, func.events) def test_set_and_retrieve_none(self): sys.settrace(None) assert sys.gettrace() is None def test_set_and_retrieve_func(self): def fn(*args): pass sys.settrace(fn) try: assert sys.gettrace() is fn finally: sys.settrace(None) def test_01_basic(self): self.run_test(basic) def test_02_arigo0(self): self.run_test(arigo_example0) def test_02_arigo1(self): self.run_test(arigo_example1) def test_02_arigo2(self): self.run_test(arigo_example2) def test_03_one_instr(self): self.run_test(one_instr_line) def test_04_no_pop_blocks(self): self.run_test(no_pop_blocks) def test_05_no_pop_tops(self): self.run_test(no_pop_tops) def test_06_call(self): self.run_test(call) def test_07_raise(self): self.run_test(test_raise) def test_08_settrace_and_return(self): self.run_test2(settrace_and_return) def test_09_settrace_and_raise(self): self.run_test2(settrace_and_raise) def test_10_ireturn(self): self.run_test(ireturn_example) def test_11_tightloop(self): self.run_test(tightloop_example) def test_12_tighterloop(self): self.run_test(tighterloop_example) def test_13_genexp(self): self.run_test(generator_example) # issue1265: if the trace function contains a generator, # and if the traced function contains another generator # that is not completely exhausted, the trace stopped. # Worse: the 'finally' clause was not invoked. tracer = self.make_tracer() sys.settrace(tracer.traceWithGenexp) generator_example() sys.settrace(None) self.compare_events(generator_example.__code__.co_firstlineno, tracer.events, generator_example.events) def test_14_onliner_if(self): def onliners(): if True: x=False else: x=True return 0 self.run_and_compare( onliners, [(0, 'call'), (1, 'line'), (3, 'line'), (3, 'return')]) def test_15_loops(self): # issue1750076: "while" expression is skipped by debugger def for_example(): for x in range(2): pass self.run_and_compare( for_example, [(0, 'call'), (1, 'line'), (2, 'line'), (1, 'line'), (2, 'line'), (1, 'line'), (1, 'return')]) def while_example(): # While expression should be traced on every loop x = 2 while x > 0: x -= 1 self.run_and_compare( while_example, [(0, 'call'), (2, 'line'), (3, 'line'), (4, 'line'), (3, 'line'), (4, 'line'), (3, 'line'), (3, 'return')]) def test_16_blank_lines(self): namespace = {} exec("def f():\n" + "\n" * 256 + " pass", namespace) self.run_and_compare( namespace["f"], [(0, 'call'), (257, 'line'), (257, 'return')]) def test_17_none_f_trace(self): # Issue 20041: fix TypeError when f_trace is set to None. def func(): sys._getframe().f_trace = None lineno = 2 self.run_and_compare(func, [(0, 'call'), (1, 'line')]) def test_18_except_with_name(self): def func(): try: try: raise Exception except Exception as e: raise x = "Something" y = "Something" except Exception: pass self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (3, 'line'), (3, 'exception'), (4, 'line'), (5, 'line'), (8, 'line'), (9, 'line'), (9, 'return')]) def test_19_except_with_finally(self): def func(): try: try: raise Exception finally: y = "Something" except Exception: b = 23 self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (3, 'line'), (3, 'exception'), (5, 'line'), (6, 'line'), (7, 'line'), (7, 'return')]) def test_20_async_for_loop(self): class AsyncIteratorWrapper: def __init__(self, obj): self._it = iter(obj) def __aiter__(self): return self async def __anext__(self): try: return next(self._it) except StopIteration: raise StopAsyncIteration async def doit_async(): async for letter in AsyncIteratorWrapper("abc"): x = letter y = 42 def run(tracer): x = doit_async() try: sys.settrace(tracer) x.send(None) finally: sys.settrace(None) tracer = self.make_tracer() events = [ (0, 'call'), (1, 'line'), (-12, 'call'), (-11, 'line'), (-11, 'return'), (-9, 'call'), (-8, 'line'), (-8, 'return'), (-6, 'call'), (-5, 'line'), (-4, 'line'), (-4, 'return'), (1, 'exception'), (2, 'line'), (1, 'line'), (-6, 'call'), (-5, 'line'), (-4, 'line'), (-4, 'return'), (1, 'exception'), (2, 'line'), (1, 'line'), (-6, 'call'), (-5, 'line'), (-4, 'line'), (-4, 'return'), (1, 'exception'), (2, 'line'), (1, 'line'), (-6, 'call'), (-5, 'line'), (-4, 'line'), (-4, 'exception'), (-3, 'line'), (-2, 'line'), (-2, 'exception'), (-2, 'return'), (1, 'exception'), (3, 'line'), (3, 'return')] try: run(tracer.trace) except Exception: pass self.compare_events(doit_async.__code__.co_firstlineno, tracer.events, events) def test_async_for_backwards_jump_has_no_line(self): async def arange(n): for i in range(n): yield i async def f(): async for i in arange(3): if i > 100: break # should never be traced tracer = self.make_tracer() coro = f() try: sys.settrace(tracer.trace) coro.send(None) except Exception: pass finally: sys.settrace(None) events = [ (0, 'call'), (1, 'line'), (-3, 'call'), (-2, 'line'), (-1, 'line'), (-1, 'return'), (1, 'exception'), (2, 'line'), (1, 'line'), (-1, 'call'), (-2, 'line'), (-1, 'line'), (-1, 'return'), (1, 'exception'), (2, 'line'), (1, 'line'), (-1, 'call'), (-2, 'line'), (-1, 'line'), (-1, 'return'), (1, 'exception'), (2, 'line'), (1, 'line'), (-1, 'call'), (-2, 'line'), (-2, 'return'), (1, 'exception'), (1, 'return'), ] self.compare_events(f.__code__.co_firstlineno, tracer.events, events) def test_21_repeated_pass(self): def func(): pass pass self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (2, 'return')]) def test_loop_in_try_except(self): # https://bugs.python.org/issue41670 def func(): try: for i in []: pass return 1 except: return 2 self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (3, 'line'), (3, 'return')]) def test_try_except_no_exception(self): def func(): try: 2 except: 4 else: 6 if False: 8 else: 10 if func.__name__ == 'Fred': 12 finally: 14 self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (6, 'line'), (7, 'line'), (10, 'line'), (11, 'line'), (14, 'line'), (14, 'return')]) def test_try_exception_in_else(self): def func(): try: try: 3 except: 5 else: 7 raise Exception finally: 10 except: 12 finally: 14 self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (3, 'line'), (7, 'line'), (8, 'line'), (8, 'exception'), (10, 'line'), (11, 'line'), (12, 'line'), (14, 'line'), (14, 'return')]) def test_nested_loops(self): def func(): for i in range(2): for j in range(2): a = i + j return a == 1 self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (3, 'line'), (2, 'line'), (3, 'line'), (2, 'line'), (1, 'line'), (2, 'line'), (3, 'line'), (2, 'line'), (3, 'line'), (2, 'line'), (1, 'line'), (4, 'line'), (4, 'return')]) def test_if_break(self): def func(): seq = [1, 0] while seq: n = seq.pop() if n: break # line 5 else: n = 99 return n # line 8 self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (3, 'line'), (4, 'line'), (2, 'line'), (3, 'line'), (4, 'line'), (5, 'line'), (8, 'line'), (8, 'return')]) def test_break_through_finally(self): def func(): a, c, d, i = 1, 1, 1, 99 try: for i in range(3): try: a = 5 if i > 0: break # line 7 a = 8 finally: c = 10 except: d = 12 # line 12 assert a == 5 and c == 10 and d == 1 # line 13 self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (3, 'line'), (4, 'line'), (5, 'line'), (6, 'line'), (8, 'line'), (10, 'line'), (3, 'line'), (4, 'line'), (5, 'line'), (6, 'line'), (7, 'line'), (10, 'line')] + ([(13, 'line'), (13, 'return')] if __debug__ else [(10, 'return')])) def test_continue_through_finally(self): def func(): a, b, c, d, i = 1, 1, 1, 1, 99 try: for i in range(2): try: a = 5 if i > 0: continue # line 7 b = 8 finally: c = 10 except: d = 12 # line 12 assert (a, b, c, d) == (5, 8, 10, 1) # line 13 self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (3, 'line'), (4, 'line'), (5, 'line'), (6, 'line'), (8, 'line'), (10, 'line'), (3, 'line'), (4, 'line'), (5, 'line'), (6, 'line'), (7, 'line'), (10, 'line'), (3, 'line')] + ([(13, 'line'), (13, 'return')] if __debug__ else [(3, 'return')])) def test_return_through_finally(self): def func(): try: return 2 finally: 4 self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (4, 'line'), (4, 'return')]) def test_try_except_with_wrong_type(self): def func(): try: 2/0 except IndexError: 4 finally: return 6 self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (2, 'exception'), (3, 'line'), (6, 'line'), (6, 'return')]) def test_finally_with_conditional(self): # See gh-105658 condition = True def func(): try: try: raise Exception finally: if condition: result = 1 result = 2 except: result = 3 return result self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (3, 'line'), (3, 'exception'), (5, 'line'), (6, 'line'), (8, 'line'), (9, 'line'), (10, 'line'), (10, 'return')]) def test_break_to_continue1(self): def func(): TRUE = 1 x = [1] while x: x.pop() while TRUE: break continue self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (3, 'line'), (4, 'line'), (5, 'line'), (6, 'line'), (7, 'line'), (3, 'line'), (3, 'return')]) def test_break_to_continue2(self): def func(): TRUE = 1 x = [1] while x: x.pop() while TRUE: break else: continue self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (3, 'line'), (4, 'line'), (5, 'line'), (6, 'line'), (3, 'line'), (3, 'return')]) def test_break_to_break(self): def func(): TRUE = 1 while TRUE: while TRUE: break break self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (3, 'line'), (4, 'line'), (5, 'line'), (5, 'return')]) def test_nested_ifs(self): def func(): a = b = 1 if a == 1: if b == 1: x = 4 else: y = 6 else: z = 8 self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (3, 'line'), (4, 'line'), (4, 'return')]) def test_nested_ifs_with_and(self): def func(): if A: if B: if C: if D: return False else: return False elif E and F: return True A = B = True C = False self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (3, 'line'), (3, 'return')]) def test_nested_try_if(self): def func(): x = "hello" try: 3/0 except ZeroDivisionError: if x == 'raise': raise ValueError() # line 6 f = 7 self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (3, 'line'), (3, 'exception'), (4, 'line'), (5, 'line'), (7, 'line'), (7, 'return')]) def test_if_false_in_with(self): class C: def __enter__(self): return self def __exit__(*args): pass def func(): with C(): if False: pass self.run_and_compare(func, [(0, 'call'), (1, 'line'), (-5, 'call'), (-4, 'line'), (-4, 'return'), (2, 'line'), (1, 'line'), (-3, 'call'), (-2, 'line'), (-2, 'return'), (1, 'return')]) def test_if_false_in_try_except(self): def func(): try: if False: pass except Exception: X self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (2, 'return')]) def test_implicit_return_in_class(self): def func(): class A: if 3 < 9: a = 1 else: a = 2 self.run_and_compare(func, [(0, 'call'), (1, 'line'), (1, 'call'), (1, 'line'), (2, 'line'), (3, 'line'), (3, 'return'), (1, 'return')]) def test_try_in_try(self): def func(): try: try: pass except Exception as ex: pass except Exception: pass self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (3, 'line'), (3, 'return')]) def test_try_in_try_with_exception(self): def func(): try: try: raise TypeError except ValueError as ex: 5 except TypeError: 7 self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (3, 'line'), (3, 'exception'), (4, 'line'), (6, 'line'), (7, 'line'), (7, 'return')]) def func(): try: try: raise ValueError except ValueError as ex: 5 except TypeError: 7 self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (3, 'line'), (3, 'exception'), (4, 'line'), (5, 'line'), (5, 'return')]) def test_if_in_if_in_if(self): def func(a=0, p=1, z=1): if p: if a: if z: pass else: pass else: pass self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (2, 'return')]) def test_early_exit_with(self): class C: def __enter__(self): return self def __exit__(*args): pass def func_break(): for i in (1,2): with C(): break pass def func_return(): with C(): return self.run_and_compare(func_break, [(0, 'call'), (1, 'line'), (2, 'line'), (-5, 'call'), (-4, 'line'), (-4, 'return'), (3, 'line'), (2, 'line'), (-3, 'call'), (-2, 'line'), (-2, 'return'), (4, 'line'), (4, 'return')]) self.run_and_compare(func_return, [(0, 'call'), (1, 'line'), (-11, 'call'), (-10, 'line'), (-10, 'return'), (2, 'line'), (1, 'line'), (-9, 'call'), (-8, 'line'), (-8, 'return'), (1, 'return')]) def test_flow_converges_on_same_line(self): def foo(x): if x: try: 1/(x - 1) except ZeroDivisionError: pass return x def func(): for i in range(2): foo(i) self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (-8, 'call'), (-7, 'line'), (-2, 'line'), (-2, 'return'), (1, 'line'), (2, 'line'), (-8, 'call'), (-7, 'line'), (-6, 'line'), (-5, 'line'), (-5, 'exception'), (-4, 'line'), (-3, 'line'), (-2, 'line'), (-2, 'return'), (1, 'line'), (1, 'return')]) def test_no_tracing_of_named_except_cleanup(self): def func(): x = 0 try: 1/x except ZeroDivisionError as error: if x: raise return "done" self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (3, 'line'), (3, 'exception'), (4, 'line'), (5, 'line'), (7, 'line'), (7, 'return')]) def test_tracing_exception_raised_in_with(self): class NullCtx: def __enter__(self): return self def __exit__(self, *excinfo): pass def func(): try: with NullCtx(): 1/0 except ZeroDivisionError: pass self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (-5, 'call'), (-4, 'line'), (-4, 'return'), (3, 'line'), (3, 'exception'), (2, 'line'), (-3, 'call'), (-2, 'line'), (-2, 'return'), (4, 'line'), (5, 'line'), (5, 'return')]) def test_try_except_star_no_exception(self): def func(): try: 2 except* Exception: 4 else: 6 if False: 8 else: 10 if func.__name__ == 'Fred': 12 finally: 14 self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (6, 'line'), (7, 'line'), (10, 'line'), (11, 'line'), (14, 'line'), (14, 'return')]) def test_try_except_star_named_no_exception(self): def func(): try: 2 except* Exception as e: 4 else: 6 finally: 8 self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (6, 'line'), (8, 'line'), (8, 'return')]) def test_try_except_star_exception_caught(self): def func(): try: raise ValueError(2) except* ValueError: 4 else: 6 finally: 8 self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (2, 'exception'), (3, 'line'), (4, 'line'), (8, 'line'), (8, 'return')]) def test_try_except_star_named_exception_caught(self): def func(): try: raise ValueError(2) except* ValueError as e: 4 else: 6 finally: 8 self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (2, 'exception'), (3, 'line'), (4, 'line'), (8, 'line'), (8, 'return')]) def test_try_except_star_exception_not_caught(self): def func(): try: try: raise ValueError(3) except* TypeError: 5 except ValueError: 7 self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (3, 'line'), (3, 'exception'), (4, 'line'), (6, 'line'), (7, 'line'), (7, 'return')]) def test_try_except_star_named_exception_not_caught(self): def func(): try: try: raise ValueError(3) except* TypeError as e: 5 except ValueError: 7 self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (3, 'line'), (3, 'exception'), (4, 'line'), (6, 'line'), (7, 'line'), (7, 'return')]) def test_try_except_star_nested(self): def func(): try: try: raise ExceptionGroup( 'eg', [ValueError(5), TypeError('bad type')]) except* TypeError as e: 7 except* OSError: 9 except* ValueError: raise except* ValueError: try: raise TypeError(14) except* OSError: 16 except* TypeError as e: 18 return 0 self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (3, 'line'), (4, 'line'), (5, 'line'), (3, 'line'), (3, 'exception'), (6, 'line'), (7, 'line'), (8, 'line'), (10, 'line'), (11, 'line'), (12, 'line'), (13, 'line'), (14, 'line'), (14, 'exception'), (15, 'line'), (17, 'line'), (18, 'line'), (19, 'line'), (19, 'return')]) def test_notrace_lambda(self): #Regression test for issue 46314 def func(): 1 lambda x: 2 3 self.run_and_compare(func, [(0, 'call'), (1, 'line'), (2, 'line'), (3, 'line'), (3, 'return')]) def test_class_creation_with_docstrings(self): def func(): class Class_1: ''' the docstring. 2''' def __init__(self): ''' Another docstring. 4''' self.a = 5 self.run_and_compare(func, [(0, 'call'), (1, 'line'), (1, 'call'), (1, 'line'), (2, 'line'), (3, 'line'), (3, 'return'), (1, 'return')]) def test_class_creation_with_decorator(self): def func(): def decorator(arg): def _dec(c): return c return _dec @decorator(6) @decorator( len([8]), ) class MyObject: pass self.run_and_compare(func, [ (0, 'call'), (1, 'line'), (6, 'line'), (1, 'call'), (2, 'line'), (4, 'line'), (4, 'return'), (7, 'line'), (8, 'line'), (7, 'line'), (1, 'call'), (2, 'line'), (4, 'line'), (4, 'return'), (10, 'line'), (6, 'call'), (6, 'line'), (11, 'line'), (11, 'return'), (7, 'line'), (2, 'call'), (3, 'line'), (3, 'return'), (6, 'line'), (2, 'call'), (3, 'line'), (3, 'return'), (10, 'line'), (10, 'return'), ]) @support.cpython_only def test_no_line_event_after_creating_generator(self): # Spurious line events before call events only show up with C tracer # Skip this test if the _testcapi module isn't available. _testcapi = import_helper.import_module('_testcapi') def gen(): yield 1 def func(): for _ in ( gen() ): pass EXPECTED_EVENTS = [ (0, 'call'), (2, 'line'), (-3, 'call'), (-2, 'line'), (-2, 'return'), (1, 'line'), (4, 'line'), (2, 'line'), (-2, 'call'), (-2, 'return'), (2, 'return'), ] # C level events should be the same as expected and the same as Python level. events = [] # Turning on and off tracing must be on same line to avoid unwanted LINE events. _testcapi.settrace_to_record(events); func(); sys.settrace(None) start_line = func.__code__.co_firstlineno events = [ (line-start_line, EVENT_NAMES[what]) for (what, line, arg) in events ] self.assertEqual(events, EXPECTED_EVENTS) self.run_and_compare(func, EXPECTED_EVENTS) def test_correct_tracing_quickened_call_class_init(self): class C: def __init__(self): self def func(): C() EXPECTED_EVENTS = [ (0, 'call'), (1, 'line'), (-3, 'call'), (-2, 'line'), (-2, 'return'), (1, 'return')] self.run_and_compare(func, EXPECTED_EVENTS) # Quicken for _ in range(100): func() self.run_and_compare(func, EXPECTED_EVENTS) def test_settrace_error(self): raised = False def error_once(frame, event, arg): nonlocal raised if not raised: raised = True raise Exception return error try: sys._getframe().f_trace = error_once sys.settrace(error_once) len([]) except Exception as ex: count = 0 tb = ex.__traceback__ while tb: if tb.tb_frame.f_code.co_name == "test_settrace_error": count += 1 tb = tb.tb_next if count == 0: self.fail("Traceback is missing frame") elif count > 1: self.fail("Traceback has frame more than once") else: self.fail("No exception raised") finally: sys.settrace(None) @support.cpython_only def test_testcapi_settrace_error(self): # Skip this test if the _testcapi module isn't available. _testcapi = import_helper.import_module('_testcapi') try: _testcapi.settrace_to_error([]) len([]) except Exception as ex: count = 0 tb = ex.__traceback__ while tb: if tb.tb_frame.f_code.co_name == "test_testcapi_settrace_error": count += 1 tb = tb.tb_next if count == 0: self.fail("Traceback is missing frame") elif count > 1: self.fail("Traceback has frame more than once") else: self.fail("No exception raised") finally: sys.settrace(None) def test_very_large_function(self): # There is a separate code path when the number of lines > (1 << 15). d = {} exec("""def f(): # line 0 x = 0 # line 1 y = 1 # line 2 %s # lines 3 through (1 << 16) x += 1 # return""" % ('\n' * (1 << 16),), d) f = d['f'] EXPECTED_EVENTS = [ (0, 'call'), (1, 'line'), (2, 'line'), (65540, 'line'), (65541, 'line'), (65541, 'return'), ] self.run_and_compare(f, EXPECTED_EVENTS) EVENT_NAMES = [ 'call', 'exception', 'line', 'return' ] class SkipLineEventsTraceTestCase(TraceTestCase): """Repeat the trace tests, but with per-line events skipped""" def compare_events(self, line_offset, events, expected_events): skip_line_events = [e for e in expected_events if e[1] != 'line'] super().compare_events(line_offset, events, skip_line_events) @staticmethod def make_tracer(): return Tracer(trace_line_events=False) @support.cpython_only class TraceOpcodesTestCase(TraceTestCase): """Repeat the trace tests, but with per-opcodes events enabled""" def compare_events(self, line_offset, events, expected_events): skip_opcode_events = [e for e in events if e[1] != 'opcode'] if len(events) > 1: self.assertLess(len(skip_opcode_events), len(events), msg="No 'opcode' events received by the tracer") super().compare_events(line_offset, skip_opcode_events, expected_events) @staticmethod def make_tracer(): return Tracer(trace_opcode_events=True) @requires_subprocess() def test_trace_opcodes_after_settrace(self): """Make sure setting f_trace_opcodes after starting trace works even if it's the first time f_trace_opcodes is being set. GH-103615""" code = textwrap.dedent(""" import sys def opcode_trace_func(frame, event, arg): if event == "opcode": print("opcode trace triggered") return opcode_trace_func sys.settrace(opcode_trace_func) sys._getframe().f_trace = opcode_trace_func sys._getframe().f_trace_opcodes = True a = 1 """) # We can't use context manager because Windows can't execute a file while # it's being written tmp = tempfile.NamedTemporaryFile(delete=False, suffix='.py') tmp.write(code.encode('utf-8')) tmp.close() try: p = subprocess.Popen([sys.executable, tmp.name], stdout=subprocess.PIPE, stderr=subprocess.PIPE) p.wait() out = p.stdout.read() finally: os.remove(tmp.name) p.stdout.close() p.stderr.close() self.assertIn(b"opcode trace triggered", out) class RaisingTraceFuncTestCase(unittest.TestCase): def setUp(self): self.addCleanup(sys.settrace, sys.gettrace()) def trace(self, frame, event, arg): """A trace function that raises an exception in response to a specific trace event.""" if event == self.raiseOnEvent: raise ValueError # just something that isn't RuntimeError else: return self.trace def f(self): """The function to trace; raises an exception if that's the case we're testing, so that the 'exception' trace event fires.""" if self.raiseOnEvent == 'exception': x = 0 y = 1/x else: return 1 def run_test_for_event(self, event): """Tests that an exception raised in response to the given event is handled OK.""" self.raiseOnEvent = event try: for i in range(sys.getrecursionlimit() + 1): sys.settrace(self.trace) try: self.f() except ValueError: pass else: self.fail("exception not raised!") except RuntimeError: self.fail("recursion counter not reset") # Test the handling of exceptions raised by each kind of trace event. def test_call(self): self.run_test_for_event('call') def test_line(self): self.run_test_for_event('line') def test_return(self): self.run_test_for_event('return') def test_exception(self): self.run_test_for_event('exception') def test_trash_stack(self): def f(): for i in range(5): print(i) # line tracing will raise an exception at this line def g(frame, why, extra): if (why == 'line' and frame.f_lineno == f.__code__.co_firstlineno + 2): raise RuntimeError("i am crashing") return g sys.settrace(g) try: f() except RuntimeError: # the test is really that this doesn't segfault: import gc gc.collect() else: self.fail("exception not propagated") def test_exception_arguments(self): def f(): x = 0 # this should raise an error x.no_such_attr def g(frame, event, arg): if (event == 'exception'): type, exception, trace = arg self.assertIsInstance(exception, Exception) return g existing = sys.gettrace() try: sys.settrace(g) try: f() except AttributeError: # this is expected pass finally: sys.settrace(existing) def test_line_event_raises_before_opcode_event(self): exception = ValueError("BOOM!") def trace(frame, event, arg): if event == "line": raise exception frame.f_trace_opcodes = True return trace def f(): pass with self.assertRaises(ValueError) as caught: sys.settrace(trace) f() self.assertIs(caught.exception, exception) # 'Jump' tests: assigning to frame.f_lineno within a trace function # moves the execution position - it's how debuggers implement a Jump # command (aka. "Set next statement"). class JumpTracer: """Defines a trace function that jumps from one place to another.""" def __init__(self, function, jumpFrom, jumpTo, event='line', decorated=False): self.code = function.__code__ self.jumpFrom = jumpFrom self.jumpTo = jumpTo self.event = event self.firstLine = None if decorated else self.code.co_firstlineno self.done = False def trace(self, frame, event, arg): if self.done: return assert lineno_matches_lasti(frame) # frame.f_code.co_firstlineno is the first line of the decorator when # 'function' is decorated and the decorator may be written using # multiple physical lines when it is too long. Use the first line # trace event in 'function' to find the first line of 'function'. if (self.firstLine is None and frame.f_code == self.code and event == 'line'): self.firstLine = frame.f_lineno - 1 if (event == self.event and self.firstLine is not None and frame.f_lineno == self.firstLine + self.jumpFrom): f = frame while f is not None and f.f_code != self.code: f = f.f_back if f is not None: # Cope with non-integer self.jumpTo (because of # no_jump_to_non_integers below). try: frame.f_lineno = self.firstLine + self.jumpTo except TypeError: frame.f_lineno = self.jumpTo self.done = True return self.trace # This verifies the line-numbers-must-be-integers rule. def no_jump_to_non_integers(output): try: output.append(2) except ValueError as e: output.append('integer' in str(e)) # This verifies that you can't set f_lineno via _getframe or similar # trickery. def no_jump_without_trace_function(): try: previous_frame = sys._getframe().f_back previous_frame.f_lineno = previous_frame.f_lineno except ValueError as e: # This is the exception we wanted; make sure the error message # talks about trace functions. if 'trace' not in str(e): raise else: # Something's wrong - the expected exception wasn't raised. raise AssertionError("Trace-function-less jump failed to fail") class JumpTestCase(unittest.TestCase): unbound_locals = r"assigning None to [0-9]+ unbound local" def setUp(self): self.addCleanup(sys.settrace, sys.gettrace()) sys.settrace(None) def compare_jump_output(self, expected, received): if received != expected: self.fail( "Outputs don't match:\n" + "Expected: " + repr(expected) + "\n" + "Received: " + repr(received)) def run_test(self, func, jumpFrom, jumpTo, expected, error=None, event='line', decorated=False, warning=None): wrapped = func while hasattr(wrapped, '__wrapped__'): wrapped = wrapped.__wrapped__ tracer = JumpTracer(wrapped, jumpFrom, jumpTo, event, decorated) sys.settrace(tracer.trace) output = [] with contextlib.ExitStack() as stack: if error is not None: stack.enter_context(self.assertRaisesRegex(*error)) if warning is not None: stack.enter_context(self.assertWarnsRegex(*warning)) else: stack.enter_context(warnings.catch_warnings()) warnings.simplefilter('error') func(output) sys.settrace(None) self.compare_jump_output(expected, output) def run_async_test(self, func, jumpFrom, jumpTo, expected, error=None, event='line', decorated=False, warning=None): wrapped = func while hasattr(wrapped, '__wrapped__'): wrapped = wrapped.__wrapped__ tracer = JumpTracer(wrapped, jumpFrom, jumpTo, event, decorated) sys.settrace(tracer.trace) output = [] with contextlib.ExitStack() as stack: if error is not None: stack.enter_context(self.assertRaisesRegex(*error)) if warning is not None: stack.enter_context(self.assertWarnsRegex(*warning)) asyncio.run(func(output)) sys.settrace(None) asyncio.set_event_loop_policy(None) self.compare_jump_output(expected, output) def jump_test(jumpFrom, jumpTo, expected, error=None, event='line', warning=None): """Decorator that creates a test that makes a jump from one place to another in the following code. """ def decorator(func): @wraps(func) def test(self): self.run_test(func, jumpFrom, jumpTo, expected, error=error, event=event, decorated=True, warning=warning) return test return decorator def async_jump_test(jumpFrom, jumpTo, expected, error=None, event='line', warning=None): """Decorator that creates a test that makes a jump from one place to another in the following asynchronous code. """ def decorator(func): @wraps(func) def test(self): self.run_async_test(func, jumpFrom, jumpTo, expected, error=error, event=event, decorated=True, warning=warning) return test return decorator ## The first set of 'jump' tests are for things that are allowed: @jump_test(1, 3, [3]) def test_jump_simple_forwards(output): output.append(1) output.append(2) output.append(3) @jump_test(2, 1, [1, 1, 2]) def test_jump_simple_backwards(output): output.append(1) output.append(2) @jump_test(1, 4, [5], warning=(RuntimeWarning, unbound_locals)) def test_jump_is_none_forwards(output): x = None if x is None: output.append(3) else: output.append(5) @jump_test(6, 5, [3, 5, 6]) def test_jump_is_none_backwards(output): x = None if x is None: output.append(3) else: output.append(5) output.append(6) @jump_test(2, 4, [5]) def test_jump_is_not_none_forwards(output): x = None if x is not None: output.append(3) else: output.append(5) @jump_test(6, 5, [5, 5, 6]) def test_jump_is_not_none_backwards(output): x = None if x is not None: output.append(3) else: output.append(5) output.append(6) @jump_test(3, 5, [2, 5], warning=(RuntimeWarning, unbound_locals)) def test_jump_out_of_block_forwards(output): for i in 1, 2: output.append(2) for j in [3]: # Also tests jumping over a block output.append(4) output.append(5) @jump_test(6, 1, [1, 3, 5, 1, 3, 5, 6, 7]) def test_jump_out_of_block_backwards(output): output.append(1) for i in [1]: output.append(3) for j in [2]: # Also tests jumping over a block output.append(5) output.append(6) output.append(7) @async_jump_test(4, 5, [3, 5]) @clean_asynciter async def test_jump_out_of_async_for_block_forwards(output, asynciter): for i in [1]: async for i in asynciter([1, 2]): output.append(3) output.append(4) output.append(5) @async_jump_test(5, 2, [2, 4, 2, 4, 5, 6]) @clean_asynciter async def test_jump_out_of_async_for_block_backwards(output, asynciter): for i in [1]: output.append(2) async for i in asynciter([1]): output.append(4) output.append(5) output.append(6) @jump_test(1, 2, [3]) def test_jump_to_codeless_line(output): output.append(1) # Jumping to this line should skip to the next one. output.append(3) @jump_test(2, 2, [1, 2, 3]) def test_jump_to_same_line(output): output.append(1) output.append(2) output.append(3) # Tests jumping within a finally block, and over one. @jump_test(4, 9, [2, 9]) def test_jump_in_nested_finally(output): try: output.append(2) finally: output.append(4) try: output.append(6) finally: output.append(8) output.append(9) @jump_test(6, 7, [2, 7], (ZeroDivisionError, '')) def test_jump_in_nested_finally_2(output): try: output.append(2) 1/0 return finally: output.append(6) output.append(7) output.append(8) @jump_test(6, 11, [2, 11], (ZeroDivisionError, '')) def test_jump_in_nested_finally_3(output): try: output.append(2) 1/0 return finally: output.append(6) try: output.append(8) finally: output.append(10) output.append(11) output.append(12) @jump_test(5, 11, [2, 4], (ValueError, 'comes after the current code block')) def test_no_jump_over_return_try_finally_in_finally_block(output): try: output.append(2) finally: output.append(4) output.append(5) return try: output.append(8) finally: output.append(10) pass output.append(12) @jump_test(3, 4, [1], (ValueError, 'after')) def test_no_jump_infinite_while_loop(output): output.append(1) while True: output.append(3) output.append(4) @jump_test(2, 4, [4, 4]) def test_jump_forwards_into_while_block(output): i = 1 output.append(2) while i <= 2: output.append(4) i += 1 @jump_test(5, 3, [3, 3, 3, 5]) def test_jump_backwards_into_while_block(output): i = 1 while i <= 2: output.append(3) i += 1 output.append(5) @jump_test(2, 3, [1, 3]) def test_jump_forwards_out_of_with_block(output): with tracecontext(output, 1): output.append(2) output.append(3) @async_jump_test(2, 3, [1, 3]) async def test_jump_forwards_out_of_async_with_block(output): async with asynctracecontext(output, 1): output.append(2) output.append(3) @jump_test(3, 1, [1, 2, 1, 2, 3, -2]) def test_jump_backwards_out_of_with_block(output): output.append(1) with tracecontext(output, 2): output.append(3) @async_jump_test(3, 1, [1, 2, 1, 2, 3, -2]) async def test_jump_backwards_out_of_async_with_block(output): output.append(1) async with asynctracecontext(output, 2): output.append(3) @jump_test(2, 5, [5]) def test_jump_forwards_out_of_try_finally_block(output): try: output.append(2) finally: output.append(4) output.append(5) @jump_test(3, 1, [1, 1, 3, 5]) def test_jump_backwards_out_of_try_finally_block(output): output.append(1) try: output.append(3) finally: output.append(5) @jump_test(2, 6, [6]) def test_jump_forwards_out_of_try_except_block(output): try: output.append(2) except: output.append(4) raise output.append(6) @jump_test(3, 1, [1, 1, 3]) def test_jump_backwards_out_of_try_except_block(output): output.append(1) try: output.append(3) except: output.append(5) raise @jump_test(5, 7, [4, 7, 8]) def test_jump_between_except_blocks(output): try: 1/0 except ZeroDivisionError: output.append(4) output.append(5) except FloatingPointError: output.append(7) output.append(8) @jump_test(5, 7, [4, 7, 8]) def test_jump_from_except_to_finally(output): try: 1/0 except ZeroDivisionError: output.append(4) output.append(5) finally: output.append(7) output.append(8) @jump_test(5, 6, [4, 6, 7]) def test_jump_within_except_block(output): try: 1/0 except: output.append(4) output.append(5) output.append(6) output.append(7) @jump_test(6, 1, [1, 5, 1, 5], warning=(RuntimeWarning, unbound_locals)) def test_jump_over_try_except(output): output.append(1) try: 1 / 0 except ZeroDivisionError as e: output.append(5) x = 42 # has to be a two-instruction block @jump_test(2, 4, [1, 4, 5, -4]) def test_jump_across_with(output): output.append(1) with tracecontext(output, 2): output.append(3) with tracecontext(output, 4): output.append(5) @async_jump_test(2, 4, [1, 4, 5, -4]) async def test_jump_across_async_with(output): output.append(1) async with asynctracecontext(output, 2): output.append(3) async with asynctracecontext(output, 4): output.append(5) @jump_test(4, 5, [1, 3, 5, 6]) def test_jump_out_of_with_block_within_for_block(output): output.append(1) for i in [1]: with tracecontext(output, 3): output.append(4) output.append(5) output.append(6) @async_jump_test(4, 5, [1, 3, 5, 6]) async def test_jump_out_of_async_with_block_within_for_block(output): output.append(1) for i in [1]: async with asynctracecontext(output, 3): output.append(4) output.append(5) output.append(6) @jump_test(4, 5, [1, 2, 3, 5, -2, 6]) def test_jump_out_of_with_block_within_with_block(output): output.append(1) with tracecontext(output, 2): with tracecontext(output, 3): output.append(4) output.append(5) output.append(6) @async_jump_test(4, 5, [1, 2, 3, 5, -2, 6]) async def test_jump_out_of_async_with_block_within_with_block(output): output.append(1) with tracecontext(output, 2): async with asynctracecontext(output, 3): output.append(4) output.append(5) output.append(6) @jump_test(5, 6, [2, 4, 6, 7]) def test_jump_out_of_with_block_within_finally_block(output): try: output.append(2) finally: with tracecontext(output, 4): output.append(5) output.append(6) output.append(7) @async_jump_test(5, 6, [2, 4, 6, 7]) async def test_jump_out_of_async_with_block_within_finally_block(output): try: output.append(2) finally: async with asynctracecontext(output, 4): output.append(5) output.append(6) output.append(7) @jump_test(8, 11, [1, 3, 5, 11, 12]) def test_jump_out_of_complex_nested_blocks(output): output.append(1) for i in [1]: output.append(3) for j in [1, 2]: output.append(5) try: for k in [1, 2]: output.append(8) finally: output.append(10) output.append(11) output.append(12) @jump_test(3, 5, [1, 2, 5], warning=(RuntimeWarning, unbound_locals)) def test_jump_out_of_with_assignment(output): output.append(1) with tracecontext(output, 2) \ as x: output.append(4) output.append(5) @async_jump_test(3, 5, [1, 2, 5], warning=(RuntimeWarning, unbound_locals)) async def test_jump_out_of_async_with_assignment(output): output.append(1) async with asynctracecontext(output, 2) \ as x: output.append(4) output.append(5) @jump_test(3, 6, [1, 6, 8, 9]) def test_jump_over_return_in_try_finally_block(output): output.append(1) try: output.append(3) if not output: # always false return output.append(6) finally: output.append(8) output.append(9) @jump_test(5, 8, [1, 3, 8, 10, 11, 13]) def test_jump_over_break_in_try_finally_block(output): output.append(1) while True: output.append(3) try: output.append(5) if not output: # always false break output.append(8) finally: output.append(10) output.append(11) break output.append(13) @jump_test(1, 7, [7, 8], warning=(RuntimeWarning, unbound_locals)) def test_jump_over_for_block_before_else(output): output.append(1) if not output: # always false for i in [3]: output.append(4) else: output.append(6) output.append(7) output.append(8) @async_jump_test(1, 7, [7, 8], warning=(RuntimeWarning, unbound_locals)) async def test_jump_over_async_for_block_before_else(output): output.append(1) if not output: # always false async for i in asynciter([3]): output.append(4) else: output.append(6) output.append(7) output.append(8) # The second set of 'jump' tests are for things that are not allowed: @jump_test(2, 3, [1], (ValueError, 'after')) def test_no_jump_too_far_forwards(output): output.append(1) output.append(2) @jump_test(2, -2, [1], (ValueError, 'before')) def test_no_jump_too_far_backwards(output): output.append(1) output.append(2) # Test each kind of 'except' line. @jump_test(2, 3, [4], (ValueError, 'except')) def test_no_jump_to_except_1(output): try: output.append(2) except: output.append(4) raise @jump_test(2, 3, [4], (ValueError, 'except')) def test_no_jump_to_except_2(output): try: output.append(2) except ValueError: output.append(4) raise @jump_test(2, 3, [4], (ValueError, 'except')) def test_no_jump_to_except_3(output): try: output.append(2) except ValueError as e: output.append(4) raise e @jump_test(2, 3, [4], (ValueError, 'except')) def test_no_jump_to_except_4(output): try: output.append(2) except (ValueError, RuntimeError) as e: output.append(4) raise e @jump_test(1, 3, [], (ValueError, 'into')) def test_no_jump_forwards_into_for_block(output): output.append(1) for i in 1, 2: output.append(3) @async_jump_test(1, 3, [], (ValueError, 'into')) async def test_no_jump_forwards_into_async_for_block(output): output.append(1) async for i in asynciter([1, 2]): output.append(3) pass @jump_test(3, 2, [2, 2], (ValueError, 'into')) def test_no_jump_backwards_into_for_block(output): for i in 1, 2: output.append(2) output.append(3) @async_jump_test(3, 2, [2, 2], (ValueError, "can't jump into the body of a for loop")) async def test_no_jump_backwards_into_async_for_block(output): async for i in asynciter([1, 2]): output.append(2) output.append(3) @jump_test(1, 3, [], (ValueError, 'stack')) def test_no_jump_forwards_into_with_block(output): output.append(1) with tracecontext(output, 2): output.append(3) @async_jump_test(1, 3, [], (ValueError, 'stack')) async def test_no_jump_forwards_into_async_with_block(output): output.append(1) async with asynctracecontext(output, 2): output.append(3) @jump_test(3, 2, [1, 2, -1], (ValueError, 'stack')) def test_no_jump_backwards_into_with_block(output): with tracecontext(output, 1): output.append(2) output.append(3) @async_jump_test(3, 2, [1, 2, -1], (ValueError, 'stack')) async def test_no_jump_backwards_into_async_with_block(output): async with asynctracecontext(output, 1): output.append(2) output.append(3) @jump_test(1, 3, [3, 5]) def test_jump_forwards_into_try_finally_block(output): output.append(1) try: output.append(3) finally: output.append(5) @jump_test(5, 2, [2, 4, 2, 4, 5]) def test_jump_backwards_into_try_finally_block(output): try: output.append(2) finally: output.append(4) output.append(5) @jump_test(1, 3, [3]) def test_jump_forwards_into_try_except_block(output): output.append(1) try: output.append(3) except: output.append(5) raise @jump_test(6, 2, [2, 2, 6]) def test_jump_backwards_into_try_except_block(output): try: output.append(2) except: output.append(4) raise output.append(6) # 'except' with a variable creates an implicit finally block @jump_test(5, 7, [4, 7, 8], warning=(RuntimeWarning, unbound_locals)) def test_jump_between_except_blocks_2(output): try: 1/0 except ZeroDivisionError: output.append(4) output.append(5) except FloatingPointError as e: output.append(7) output.append(8) @jump_test(1, 5, [5]) def test_jump_into_finally_block(output): output.append(1) try: output.append(3) finally: output.append(5) @jump_test(3, 6, [2, 6, 7]) def test_jump_into_finally_block_from_try_block(output): try: output.append(2) output.append(3) finally: # still executed if the jump is failed output.append(5) output.append(6) output.append(7) @jump_test(5, 1, [1, 3, 1, 3, 5]) def test_jump_out_of_finally_block(output): output.append(1) try: output.append(3) finally: output.append(5) @jump_test(1, 5, [], (ValueError, "can't jump into an 'except' block as there's no exception")) def test_no_jump_into_bare_except_block(output): output.append(1) try: output.append(3) except: output.append(5) @jump_test(1, 5, [], (ValueError, "can't jump into an 'except' block as there's no exception")) def test_no_jump_into_qualified_except_block(output): output.append(1) try: output.append(3) except Exception: output.append(5) @jump_test(3, 6, [2, 5, 6], (ValueError, "can't jump into an 'except' block as there's no exception")) def test_no_jump_into_bare_except_block_from_try_block(output): try: output.append(2) output.append(3) except: # executed if the jump is failed output.append(5) output.append(6) raise output.append(8) @jump_test(3, 6, [2], (ValueError, "can't jump into an 'except' block as there's no exception")) def test_no_jump_into_qualified_except_block_from_try_block(output): try: output.append(2) output.append(3) except ZeroDivisionError: output.append(5) output.append(6) raise output.append(8) @jump_test(7, 1, [1, 3, 6, 1, 3, 6, 7]) def test_jump_out_of_bare_except_block(output): output.append(1) try: output.append(3) 1/0 except: output.append(6) output.append(7) @jump_test(7, 1, [1, 3, 6, 1, 3, 6, 7]) def test_jump_out_of_qualified_except_block(output): output.append(1) try: output.append(3) 1/0 except Exception: output.append(6) output.append(7) @jump_test(3, 5, [1, 2, 5, -2]) def test_jump_between_with_blocks(output): output.append(1) with tracecontext(output, 2): output.append(3) with tracecontext(output, 4): output.append(5) @async_jump_test(3, 5, [1, 2, 5, -2]) async def test_jump_between_async_with_blocks(output): output.append(1) async with asynctracecontext(output, 2): output.append(3) async with asynctracecontext(output, 4): output.append(5) @jump_test(5, 7, [2, 4], (ValueError, "after")) def test_no_jump_over_return_out_of_finally_block(output): try: output.append(2) finally: output.append(4) output.append(5) return output.append(7) @jump_test(7, 4, [1, 6], (ValueError, 'into')) def test_no_jump_into_for_block_before_else(output): output.append(1) if not output: # always false for i in [3]: output.append(4) else: output.append(6) output.append(7) output.append(8) @async_jump_test(7, 4, [1, 6], (ValueError, 'into')) async def test_no_jump_into_async_for_block_before_else(output): output.append(1) if not output: # always false async for i in asynciter([3]): output.append(4) else: output.append(6) output.append(7) output.append(8) def test_no_jump_to_non_integers(self): self.run_test(no_jump_to_non_integers, 2, "Spam", [True]) def test_no_jump_without_trace_function(self): # Must set sys.settrace(None) in setUp(), else condition is not # triggered. no_jump_without_trace_function() def test_large_function(self): d = {} exec("""def f(output): # line 0 x = 0 # line 1 y = 1 # line 2 ''' # line 3 %s # lines 4-1004 ''' # line 1005 x += 1 # line 1006 output.append(x) # line 1007 return""" % ('\n' * 1000,), d) f = d['f'] self.run_test(f, 2, 1007, [0], warning=(RuntimeWarning, self.unbound_locals)) def test_jump_to_firstlineno(self): # This tests that PDB can jump back to the first line in a # file. See issue #1689458. It can only be triggered in a # function call if the function is defined on a single line. code = compile(""" # Comments don't count. output.append(2) # firstlineno is here. output.append(3) output.append(4) """, "", "exec") class fake_function: __code__ = code tracer = JumpTracer(fake_function, 4, 1) sys.settrace(tracer.trace) namespace = {"output": []} exec(code, namespace) sys.settrace(None) self.compare_jump_output([2, 3, 2, 3, 4], namespace["output"]) @jump_test(2, 3, [1], event='call', error=(ValueError, "can't jump from" " the 'call' trace event of a new frame")) def test_no_jump_from_call(output): output.append(1) def nested(): output.append(3) nested() output.append(5) @jump_test(2, 1, [1], event='return', error=(ValueError, "can only jump from a 'line' trace event")) def test_no_jump_from_return_event(output): output.append(1) return @jump_test(2, 1, [1], event='exception', error=(ValueError, "can only jump from a 'line' trace event")) def test_no_jump_from_exception_event(output): output.append(1) 1 / 0 @jump_test(3, 2, [2, 5], event='return') def test_jump_from_yield(output): def gen(): output.append(2) yield 3 next(gen()) output.append(5) @jump_test(2, 3, [1, 3], warning=(RuntimeWarning, unbound_locals)) def test_jump_forward_over_listcomp(output): output.append(1) x = [i for i in range(10)] output.append(3) # checking for segfaults. # See https://github.com/python/cpython/issues/92311 @jump_test(3, 1, [], warning=(RuntimeWarning, unbound_locals)) def test_jump_backward_over_listcomp(output): a = 1 x = [i for i in range(10)] c = 3 @jump_test(8, 2, [2, 7, 2], warning=(RuntimeWarning, unbound_locals)) def test_jump_backward_over_listcomp_v2(output): flag = False output.append(2) if flag: return x = [i for i in range(5)] flag = 6 output.append(7) output.append(8) @async_jump_test(2, 3, [1, 3], warning=(RuntimeWarning, unbound_locals)) async def test_jump_forward_over_async_listcomp(output): output.append(1) x = [i async for i in asynciter(range(10))] output.append(3) @async_jump_test(3, 1, [], warning=(RuntimeWarning, unbound_locals)) async def test_jump_backward_over_async_listcomp(output): a = 1 x = [i async for i in asynciter(range(10))] c = 3 @async_jump_test(8, 2, [2, 7, 2], warning=(RuntimeWarning, unbound_locals)) async def test_jump_backward_over_async_listcomp_v2(output): flag = False output.append(2) if flag: return x = [i async for i in asynciter(range(5))] flag = 6 output.append(7) output.append(8) # checking for segfaults. @jump_test(3, 7, [], error=(ValueError, "stack")) def test_jump_with_null_on_stack_load_global(output): a = 1 print( output.append(3) ) output.append(5) ( ( # 7 a + 10 ) + 13 ) output.append(15) # checking for segfaults. @jump_test(4, 8, [], error=(ValueError, "stack")) def test_jump_with_null_on_stack_push_null(output): a = 1 f = print f( output.append(4) ) output.append(6) ( ( # 8 a + 11 ) + 14 ) output.append(16) # checking for segfaults. @jump_test(3, 7, [], error=(ValueError, "stack")) def test_jump_with_null_on_stack_load_attr(output): a = 1 list.append( output, 3 ) output.append(5) ( ( # 7 a + 10 ) + 13 ) output.append(15) @jump_test(2, 3, [1, 3], warning=(RuntimeWarning, unbound_locals)) def test_jump_extended_args_unpack_ex_simple(output): output.append(1) _, *_, _ = output.append(2) or "Spam" output.append(3) @jump_test(3, 4, [1, 4, 4, 5], warning=(RuntimeWarning, unbound_locals)) def test_jump_extended_args_unpack_ex_tricky(output): output.append(1) ( _, *_, _ ) = output.append(4) or "Spam" output.append(5) @support.requires_resource('cpu') def test_jump_extended_args_for_iter(self): # In addition to failing when extended arg handling is broken, this can # also hang for a *very* long time: source = [ "def f(output):", " output.append(1)", " for _ in spam:", *(f" output.append({i})" for i in range(3, 100_000)), f" output.append(100_000)", ] namespace = {} exec("\n".join(source), namespace) f = namespace["f"] self.run_test(f, 2, 100_000, [1, 100_000], warning=(RuntimeWarning, self.unbound_locals)) @jump_test(2, 3, [1, 3], warning=(RuntimeWarning, unbound_locals)) def test_jump_or_pop(output): output.append(1) _ = output.append(2) and "Spam" output.append(3) class TestExtendedArgs(unittest.TestCase): def setUp(self): self.addCleanup(sys.settrace, sys.gettrace()) sys.settrace(None) def count_traces(self, func): # warmup for _ in range(20): func() counts = {"call": 0, "line": 0, "return": 0} def trace(frame, event, arg): counts[event] += 1 return trace sys.settrace(trace) func() sys.settrace(None) return counts def test_trace_unpack_long_sequence(self): ns = {} code = "def f():\n (" + "y,\n "*300 + ") = range(300)" exec(code, ns) counts = self.count_traces(ns["f"]) self.assertEqual(counts, {'call': 1, 'line': 301, 'return': 1}) def test_trace_lots_of_globals(self): count = min(1000, int(support.get_c_recursion_limit() * 0.8)) code = """if 1: def f(): return ( {} ) """.format("\n+\n".join(f"var{i}\n" for i in range(count))) ns = {f"var{i}": i for i in range(count)} exec(code, ns) counts = self.count_traces(ns["f"]) self.assertEqual(counts, {'call': 1, 'line': count * 2, 'return': 1}) class TestEdgeCases(unittest.TestCase): def setUp(self): self.addCleanup(sys.settrace, sys.gettrace()) sys.settrace(None) def test_reentrancy(self): def foo(*args): ... def bar(*args): ... class A: def __call__(self, *args): pass def __del__(self): sys.settrace(bar) sys.settrace(A()) sys.settrace(foo) self.assertEqual(sys.gettrace(), bar) def test_same_object(self): def foo(*args): ... sys.settrace(foo) del foo sys.settrace(sys.gettrace()) class TestLinesAfterTraceStarted(TraceTestCase): def test_events(self): tracer = Tracer() sys._getframe().f_trace = tracer.trace sys.settrace(tracer.trace) line = 4 line = 5 sys.settrace(None) self.compare_events( TestLinesAfterTraceStarted.test_events.__code__.co_firstlineno, tracer.events, [ (4, 'line'), (5, 'line'), (6, 'line')]) class TestSetLocalTrace(TraceTestCase): def test_with_branches(self): def tracefunc(frame, event, arg): if frame.f_code.co_name == "func": frame.f_trace = tracefunc line = frame.f_lineno - frame.f_code.co_firstlineno events.append((line, event)) return tracefunc def func(arg = 1): N = 1 if arg >= 2: not_reached = 3 else: reached = 5 if arg >= 3: not_reached = 7 else: reached = 9 the_end = 10 EXPECTED_EVENTS = [ (0, 'call'), (1, 'line'), (2, 'line'), (5, 'line'), (6, 'line'), (9, 'line'), (10, 'line'), (10, 'return'), ] events = [] sys.settrace(tracefunc) sys._getframe().f_trace = tracefunc func() self.assertEqual(events, EXPECTED_EVENTS) sys.settrace(None) if __name__ == "__main__": unittest.main()