import pytest from _pytest._io.saferepr import _pformat_dispatch from _pytest._io.saferepr import saferepr def test_simple_repr(): assert saferepr(1) == "1" assert saferepr(None) == "None" def test_maxsize(): s = saferepr("x" * 50, maxsize=25) assert len(s) == 25 expected = repr("x" * 10 + "..." + "x" * 10) assert s == expected def test_maxsize_error_on_instance(): class A: def __repr__(self): raise ValueError("...") s = saferepr(("*" * 50, A()), maxsize=25) assert len(s) == 25 assert s[0] == "(" and s[-1] == ")" def test_exceptions(): class BrokenRepr: def __init__(self, ex): self.ex = ex def __repr__(self): raise self.ex class BrokenReprException(Exception): __str__ = None __repr__ = None assert "Exception" in saferepr(BrokenRepr(Exception("broken"))) s = saferepr(BrokenReprException("really broken")) assert "TypeError" in s assert "TypeError" in saferepr(BrokenRepr("string")) none = None try: none() except BaseException as exc: exp_exc = repr(exc) obj = BrokenRepr(BrokenReprException("omg even worse")) s2 = saferepr(obj) assert s2 == ( "<[unpresentable exception ({!s}) raised in repr()] BrokenRepr object at 0x{:x}>".format( exp_exc, id(obj) ) ) def test_baseexception(): """Test saferepr() with BaseExceptions, which includes pytest outcomes.""" class RaisingOnStrRepr(BaseException): def __init__(self, exc_types): self.exc_types = exc_types def raise_exc(self, *args): try: self.exc_type = self.exc_types.pop(0) except IndexError: pass if hasattr(self.exc_type, "__call__"): raise self.exc_type(*args) raise self.exc_type def __str__(self): self.raise_exc("__str__") def __repr__(self): self.raise_exc("__repr__") class BrokenObj: def __init__(self, exc): self.exc = exc def __repr__(self): raise self.exc __str__ = __repr__ baseexc_str = BaseException("__str__") obj = BrokenObj(RaisingOnStrRepr([BaseException])) assert saferepr(obj) == ( "<[unpresentable exception ({!r}) " "raised in repr()] BrokenObj object at 0x{:x}>".format(baseexc_str, id(obj)) ) obj = BrokenObj(RaisingOnStrRepr([RaisingOnStrRepr([BaseException])])) assert saferepr(obj) == ( "<[{!r} raised in repr()] BrokenObj object at 0x{:x}>".format( baseexc_str, id(obj) ) ) with pytest.raises(KeyboardInterrupt): saferepr(BrokenObj(KeyboardInterrupt())) with pytest.raises(SystemExit): saferepr(BrokenObj(SystemExit())) with pytest.raises(KeyboardInterrupt): saferepr(BrokenObj(RaisingOnStrRepr([KeyboardInterrupt]))) with pytest.raises(SystemExit): saferepr(BrokenObj(RaisingOnStrRepr([SystemExit]))) with pytest.raises(KeyboardInterrupt): print(saferepr(BrokenObj(RaisingOnStrRepr([BaseException, KeyboardInterrupt])))) with pytest.raises(SystemExit): saferepr(BrokenObj(RaisingOnStrRepr([BaseException, SystemExit]))) def test_buggy_builtin_repr(): # Simulate a case where a repr for a builtin raises. # reprlib dispatches by type name, so use "int". class int: def __repr__(self): raise ValueError("Buggy repr!") assert "Buggy" in saferepr(int()) def test_big_repr(): from _pytest._io.saferepr import SafeRepr assert len(saferepr(range(1000))) <= len("[" + SafeRepr(0).maxlist * "1000" + "]") def test_repr_on_newstyle(): class Function: def __repr__(self): return "<%s>" % (self.name) assert saferepr(Function()) def test_unicode(): val = "£€" reprval = "'£€'" assert saferepr(val) == reprval def test_pformat_dispatch(): assert _pformat_dispatch("a") == "'a'" assert _pformat_dispatch("a" * 10, width=5) == "'aaaaaaaaaa'" assert _pformat_dispatch("foo bar", width=5) == "('foo '\n 'bar')" def test_broken_getattribute(): """saferepr() can create proper representations of classes with broken __getattribute__ (#7145) """ class SomeClass: def __getattribute__(self, attr): raise RuntimeError def __repr__(self): raise RuntimeError assert saferepr(SomeClass()).startswith( "<[RuntimeError() raised in repr()] SomeClass object at 0x" )