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mod.rs
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// Copyright (c) 2017-present PyO3 Project and Contributors
use crate::panic::PanicException;
use crate::type_object::PyTypeInfo;
use crate::types::{PyTraceback, PyType};
use crate::{
exceptions::{self, PyBaseException},
ffi,
};
use crate::{AsPyPointer, IntoPy, IntoPyPointer, Py, PyAny, PyObject, Python, ToPyObject};
use std::borrow::Cow;
use std::cell::UnsafeCell;
use std::ffi::CString;
use std::os::raw::c_int;
mod err_state;
mod impls;
pub use err_state::PyErrArguments;
use err_state::{boxed_args, PyErrState, PyErrStateNormalized};
/// Represents a Python exception.
///
/// Python exceptions can be raised in a "lazy" fashion, where the full Python object for the
/// exception is not created until needed. The process of creating the full object is known
/// as "normalization". An exception which has not yet been created is known as "unnormalized".
///
/// This struct builds upon that design, supporting all lazily-created Python exceptions and also
/// supporting exceptions lazily-created from Rust.
pub struct PyErr {
// Safety: can only hand out references when in the "normalized" state. Will never change
// after normalization.
//
// The state is temporarily removed from the PyErr during normalization, to avoid
// concurrent modifications.
state: UnsafeCell<Option<PyErrState>>,
}
// The inner value is only accessed through ways that require proving the gil is held
#[cfg(feature = "nightly")]
unsafe impl crate::marker::Ungil for PyErr {}
unsafe impl Send for PyErr {}
unsafe impl Sync for PyErr {}
/// Represents the result of a Python call.
pub type PyResult<T> = Result<T, PyErr>;
/// Error that indicates a failure to convert a PyAny to a more specific Python type.
#[derive(Debug)]
pub struct PyDowncastError<'a> {
from: &'a PyAny,
to: Cow<'static, str>,
}
impl<'a> PyDowncastError<'a> {
pub fn new(from: &'a PyAny, to: impl Into<Cow<'static, str>>) -> Self {
PyDowncastError {
from,
to: to.into(),
}
}
}
impl PyErr {
/// Creates a new PyErr of type `T`.
///
/// `args` can be:
/// * a tuple: the exception instance will be created using the equivalent to the Python
/// expression `T(*tuple)`
/// * any other value: the exception instance will be created using the equivalent to the Python
/// expression `T(value)`
///
/// This error will be stored in an unnormalized state. This avoids the need for the Python GIL
/// to be held, but requires `args` to be `Send` and `Sync`. If `args` is not `Send` or `Sync`,
/// consider using [`PyErr::from_value`] instead.
///
/// If an error occurs during normalization (for example if `T` is not a Python type which
/// extends from `BaseException`), then a different error may be produced during normalization.
///
/// # Examples
///
/// ```
/// use pyo3::prelude::*;
/// use pyo3::exceptions::PyTypeError;
///
/// #[pyfunction]
/// fn always_throws() -> PyResult<()> {
/// Err(PyErr::new::<PyTypeError, _>("Error message"))
/// }
/// #
/// # Python::with_gil(|py| {
/// # let fun = pyo3::wrap_pyfunction!(always_throws, py).unwrap();
/// # let err = fun.call0().expect_err("called a function that should always return an error but the return value was Ok");
/// # assert!(err.is_instance_of::<PyTypeError>(py))
/// # });
/// ```
///
/// In most cases, you can use a concrete exception's constructor instead:
///
/// ```
/// use pyo3::prelude::*;
/// use pyo3::exceptions::PyTypeError;
///
/// #[pyfunction]
/// fn always_throws() -> PyResult<()> {
/// Err(PyTypeError::new_err("Error message"))
/// }
/// #
/// # Python::with_gil(|py| {
/// # let fun = pyo3::wrap_pyfunction!(always_throws, py).unwrap();
/// # let err = fun.call0().expect_err("called a function that should always return an error but the return value was Ok");
/// # assert!(err.is_instance_of::<PyTypeError>(py))
/// # });
/// ```
#[inline]
pub fn new<T, A>(args: A) -> PyErr
where
T: PyTypeInfo,
A: PyErrArguments + Send + Sync + 'static,
{
PyErr::from_state(PyErrState::LazyTypeAndValue {
ptype: T::type_object,
pvalue: boxed_args(args),
})
}
/// Constructs a new PyErr from the given Python type and arguments.
///
/// `ty` is the exception type; usually one of the standard exceptions
/// like `exceptions::PyRuntimeError`.
///
/// `args` is either a tuple or a single value, with the same meaning as in [`PyErr::new`].
///
/// If an error occurs during normalization (for example if `T` is not a Python type which
/// extends from `BaseException`), then a different error may be produced during normalization.
///
/// This error will be stored in an unnormalized state.
pub fn from_type<A>(ty: &PyType, args: A) -> PyErr
where
A: PyErrArguments + Send + Sync + 'static,
{
if unsafe { ffi::PyExceptionClass_Check(ty.as_ptr()) } == 0 {
return exceptions_must_derive_from_base_exception(ty.py());
}
PyErr::from_state(PyErrState::LazyValue {
ptype: ty.into(),
pvalue: boxed_args(args),
})
}
/// Creates a new PyErr.
///
/// If `obj` is a Python exception object, the PyErr will contain that object. The error will be
/// in a normalized state.
///
/// If `obj` is a Python exception type object, this is equivalent to `PyErr::from_type(obj, ())`.
///
/// Otherwise, a `TypeError` is created.
///
/// # Examples
/// ```rust
/// use pyo3::prelude::*;
/// use pyo3::exceptions::PyTypeError;
/// use pyo3::types::{PyType, PyString};
///
/// Python::with_gil(|py| {
/// // Case #1: Exception object
/// let err = PyErr::from_value(PyTypeError::new_err("some type error").value(py));
/// assert_eq!(err.to_string(), "TypeError: some type error");
///
/// // Case #2: Exception type
/// let err = PyErr::from_value(PyType::new::<PyTypeError>(py));
/// assert_eq!(err.to_string(), "TypeError: ");
///
/// // Case #3: Invalid exception value
/// let err = PyErr::from_value(PyString::new(py, "foo").into());
/// assert_eq!(
/// err.to_string(),
/// "TypeError: exceptions must derive from BaseException"
/// );
/// });
/// ```
pub fn from_value(obj: &PyAny) -> PyErr {
let ptr = obj.as_ptr();
let state = if unsafe { ffi::PyExceptionInstance_Check(ptr) } != 0 {
PyErrState::Normalized(PyErrStateNormalized {
ptype: obj.get_type().into(),
pvalue: unsafe { Py::from_borrowed_ptr(obj.py(), obj.as_ptr()) },
ptraceback: None,
})
} else if unsafe { ffi::PyExceptionClass_Check(obj.as_ptr()) } != 0 {
PyErrState::FfiTuple {
ptype: obj.into(),
pvalue: None,
ptraceback: None,
}
} else {
return exceptions_must_derive_from_base_exception(obj.py());
};
PyErr::from_state(state)
}
/// Returns the type of this exception.
///
/// The object will be normalized first if needed.
///
/// # Examples
/// ```rust
/// use pyo3::{exceptions::PyTypeError, types::PyType, PyErr, Python};
///
/// Python::with_gil(|py| {
/// let err: PyErr = PyTypeError::new_err(("some type error",));
/// assert!(err.get_type(py).is(PyType::new::<PyTypeError>(py)));
/// });
/// ```
pub fn get_type<'py>(&'py self, py: Python<'py>) -> &'py PyType {
self.normalized(py).ptype.as_ref(py)
}
/// Returns the value of this exception.
///
/// The object will be normalized first if needed.
///
/// # Examples
///
/// ```rust
/// use pyo3::{exceptions::PyTypeError, PyErr, Python};
///
/// Python::with_gil(|py| {
/// let err: PyErr = PyTypeError::new_err(("some type error",));
/// assert!(err.is_instance_of::<PyTypeError>(py));
/// assert_eq!(err.value(py).to_string(), "some type error");
/// });
/// ```
pub fn value<'py>(&'py self, py: Python<'py>) -> &'py PyBaseException {
self.normalized(py).pvalue.as_ref(py)
}
/// Consumes self to take ownership of the exception value contained in this error.
pub fn into_value(self, py: Python<'_>) -> Py<PyBaseException> {
// NB technically this causes one reference count increase and decrease in quick succession
// on pvalue, but it's probably not worth optimizing this right now for the additional code
// complexity.
self.normalized(py).pvalue.clone_ref(py)
}
/// Returns the traceback of this exception object.
///
/// The object will be normalized first if needed.
///
/// # Examples
/// ```rust
/// use pyo3::{exceptions::PyTypeError, Python};
///
/// Python::with_gil(|py| {
/// let err = PyTypeError::new_err(("some type error",));
/// assert!(err.traceback(py).is_none());
/// });
/// ```
pub fn traceback<'py>(&'py self, py: Python<'py>) -> Option<&'py PyTraceback> {
self.normalized(py)
.ptraceback
.as_ref()
.map(|obj| obj.as_ref(py))
}
/// Gets whether an error is present in the Python interpreter's global state.
#[inline]
pub fn occurred(_: Python<'_>) -> bool {
unsafe { !ffi::PyErr_Occurred().is_null() }
}
/// Takes the current error from the Python interpreter's global state and clears the global
/// state. If no error is set, returns `None`.
///
/// If the error is a `PanicException` (which would have originated from a panic in a pyo3
/// callback) then this function will resume the panic.
///
/// Use this function when it is not known if an error should be present. If the error is
/// expected to have been set, for example from [`PyErr::occurred`] or by an error return value
/// from a C FFI function, use [`PyErr::fetch`].
pub fn take(py: Python<'_>) -> Option<PyErr> {
let (ptype, pvalue, ptraceback) = unsafe {
let mut ptype: *mut ffi::PyObject = std::ptr::null_mut();
let mut pvalue: *mut ffi::PyObject = std::ptr::null_mut();
let mut ptraceback: *mut ffi::PyObject = std::ptr::null_mut();
ffi::PyErr_Fetch(&mut ptype, &mut pvalue, &mut ptraceback);
// Convert to Py immediately so that any references are freed by early return.
let ptype = Py::from_owned_ptr_or_opt(py, ptype);
let pvalue = Py::from_owned_ptr_or_opt(py, pvalue);
let ptraceback = Py::from_owned_ptr_or_opt(py, ptraceback);
// A valid exception state should always have a non-null ptype, but the other two may be
// null.
let ptype = match ptype {
Some(ptype) => ptype,
None => {
debug_assert!(
pvalue.is_none(),
"Exception type was null but value was not null"
);
debug_assert!(
ptraceback.is_none(),
"Exception type was null but traceback was not null"
);
return None;
}
};
(ptype, pvalue, ptraceback)
};
if ptype.as_ptr() == PanicException::type_object(py).as_ptr() {
let msg: String = pvalue
.as_ref()
.and_then(|obj| obj.extract(py).ok())
.unwrap_or_else(|| String::from("Unwrapped panic from Python code"));
eprintln!(
"--- PyO3 is resuming a panic after fetching a PanicException from Python. ---"
);
eprintln!("Python stack trace below:");
unsafe {
ffi::PyErr_Restore(ptype.into_ptr(), pvalue.into_ptr(), ptraceback.into_ptr());
ffi::PyErr_PrintEx(0);
}
std::panic::resume_unwind(Box::new(msg))
}
Some(PyErr::from_state(PyErrState::FfiTuple {
ptype,
pvalue,
ptraceback,
}))
}
/// Equivalent to [PyErr::take], but when no error is set:
/// - Panics in debug mode.
/// - Returns a `SystemError` in release mode.
///
/// This behavior is consistent with Python's internal handling of what happens when a C return
/// value indicates an error occurred but the global error state is empty. (A lack of exception
/// should be treated as a bug in the code which returned an error code but did not set an
/// exception.)
///
/// Use this function when the error is expected to have been set, for example from
/// [PyErr::occurred] or by an error return value from a C FFI function.
#[cfg_attr(all(debug_assertions, track_caller), track_caller)]
#[inline]
pub fn fetch(py: Python<'_>) -> PyErr {
const FAILED_TO_FETCH: &str = "attempted to fetch exception but none was set";
match PyErr::take(py) {
Some(err) => err,
#[cfg(debug_assertions)]
None => panic!("{}", FAILED_TO_FETCH),
#[cfg(not(debug_assertions))]
None => exceptions::PySystemError::new_err(FAILED_TO_FETCH),
}
}
/// Creates a new exception type with the given name and docstring.
///
/// - `base` can be an existing exception type to subclass, or a tuple of classes.
/// - `dict` specifies an optional dictionary of class variables and methods.
/// - `doc` will be the docstring seen by python users.
///
///
/// # Errors
///
/// This function returns an error if `name` is not of the form `<module>.<ExceptionName>`.
///
/// # Panics
///
/// This function will panic if `name` or `doc` cannot be converted to [`CString`]s.
pub fn new_type(
py: Python<'_>,
name: &str,
doc: Option<&str>,
base: Option<&PyType>,
dict: Option<PyObject>,
) -> PyResult<Py<PyType>> {
let base: *mut ffi::PyObject = match base {
None => std::ptr::null_mut(),
Some(obj) => obj.as_ptr(),
};
let dict: *mut ffi::PyObject = match dict {
None => std::ptr::null_mut(),
Some(obj) => obj.as_ptr(),
};
let null_terminated_name =
CString::new(name).expect("Failed to initialize nul terminated exception name");
let null_terminated_doc =
doc.map(|d| CString::new(d).expect("Failed to initialize nul terminated docstring"));
let null_terminated_doc_ptr = match null_terminated_doc.as_ref() {
Some(c) => c.as_ptr(),
None => std::ptr::null(),
};
let ptr = unsafe {
ffi::PyErr_NewExceptionWithDoc(
null_terminated_name.as_ptr(),
null_terminated_doc_ptr,
base,
dict,
)
};
unsafe { Py::from_owned_ptr_or_err(py, ptr) }
}
/// Prints a standard traceback to `sys.stderr`.
pub fn print(&self, py: Python<'_>) {
self.clone_ref(py).restore(py);
unsafe { ffi::PyErr_PrintEx(0) }
}
/// Prints a standard traceback to `sys.stderr`, and sets
/// `sys.last_{type,value,traceback}` attributes to this exception's data.
pub fn print_and_set_sys_last_vars(&self, py: Python<'_>) {
self.clone_ref(py).restore(py);
unsafe { ffi::PyErr_PrintEx(1) }
}
/// Returns true if the current exception matches the exception in `exc`.
///
/// If `exc` is a class object, this also returns `true` when `self` is an instance of a subclass.
/// If `exc` is a tuple, all exceptions in the tuple (and recursively in subtuples) are searched for a match.
pub fn matches<T>(&self, py: Python<'_>, exc: T) -> bool
where
T: ToPyObject,
{
unsafe {
ffi::PyErr_GivenExceptionMatches(self.type_ptr(py), exc.to_object(py).as_ptr()) != 0
}
}
/// Returns true if the current exception is instance of `T`.
#[inline]
pub fn is_instance(&self, py: Python<'_>, typ: &PyType) -> bool {
unsafe { ffi::PyErr_GivenExceptionMatches(self.type_ptr(py), typ.as_ptr()) != 0 }
}
/// Returns true if the current exception is instance of `T`.
#[inline]
pub fn is_instance_of<T>(&self, py: Python<'_>) -> bool
where
T: PyTypeInfo,
{
self.is_instance(py, T::type_object(py))
}
/// Writes the error back to the Python interpreter's global state.
/// This is the opposite of `PyErr::fetch()`.
#[inline]
pub fn restore(self, py: Python<'_>) {
let (ptype, pvalue, ptraceback) = self
.state
.into_inner()
.expect("Cannot restore a PyErr while normalizing it")
.into_ffi_tuple(py);
unsafe { ffi::PyErr_Restore(ptype, pvalue, ptraceback) }
}
/// Issues a warning message.
/// May return a `PyErr` if warnings-as-errors is enabled.
pub fn warn(py: Python<'_>, category: &PyAny, message: &str, stacklevel: i32) -> PyResult<()> {
let message = CString::new(message)?;
unsafe {
error_on_minusone(
py,
ffi::PyErr_WarnEx(
category.as_ptr(),
message.as_ptr(),
stacklevel as ffi::Py_ssize_t,
),
)
}
}
/// Clone the PyErr. This requires the GIL, which is why PyErr does not implement Clone.
///
/// # Examples
/// ```rust
/// use pyo3::{exceptions::PyTypeError, PyErr, Python};
/// Python::with_gil(|py| {
/// let err: PyErr = PyTypeError::new_err(("some type error",));
/// let err_clone = err.clone_ref(py);
/// assert!(err.get_type(py).is(err_clone.get_type(py)));
/// assert!(err.value(py).is(err_clone.value(py)));
/// match err.traceback(py) {
/// None => assert!(err_clone.traceback(py).is_none()),
/// Some(tb) => assert!(err_clone.traceback(py).unwrap().is(tb)),
/// }
/// });
/// ```
#[inline]
pub fn clone_ref(&self, py: Python<'_>) -> PyErr {
PyErr::from_state(PyErrState::Normalized(self.normalized(py).clone()))
}
/// Return the cause (either an exception instance, or None, set by `raise ... from ...`)
/// associated with the exception, as accessible from Python through `__cause__`.
pub fn cause(&self, py: Python<'_>) -> Option<PyErr> {
let ptr = unsafe { ffi::PyException_GetCause(self.value(py).as_ptr()) };
let obj = unsafe { py.from_owned_ptr_or_opt::<PyAny>(ptr) };
obj.map(Self::from_value)
}
/// Set the cause associated with the exception, pass `None` to clear it.
pub fn set_cause(&self, py: Python<'_>, cause: Option<Self>) {
unsafe {
// PyException_SetCause _steals_ a reference to cause, so must use .into_ptr()
ffi::PyException_SetCause(
self.value(py).as_ptr(),
cause.map_or(std::ptr::null_mut(), |err| err.into_value(py).into_ptr()),
);
}
}
#[inline]
fn from_state(state: PyErrState) -> PyErr {
PyErr {
state: UnsafeCell::new(Some(state)),
}
}
/// Returns borrowed reference to this Err's type
fn type_ptr(&self, py: Python<'_>) -> *mut ffi::PyObject {
match unsafe { &*self.state.get() } {
// In lazy type case, normalize before returning ptype in case the type is not a valid
// exception type.
Some(PyErrState::LazyTypeAndValue { .. }) => self.normalized(py).ptype.as_ptr(),
Some(PyErrState::LazyValue { ptype, .. }) => ptype.as_ptr(),
Some(PyErrState::FfiTuple { ptype, .. }) => ptype.as_ptr(),
Some(PyErrState::Normalized(n)) => n.ptype.as_ptr(),
None => panic!("Cannot access exception type while normalizing"),
}
}
#[inline]
fn normalized(&self, py: Python<'_>) -> &PyErrStateNormalized {
if let Some(PyErrState::Normalized(n)) = unsafe {
// Safety: self.state will never be written again once normalized.
&*self.state.get()
} {
return n;
}
self.make_normalized(py)
}
#[cold]
fn make_normalized(&self, py: Python<'_>) -> &PyErrStateNormalized {
// This process is safe because:
// - Access is guaranteed not to be concurrent thanks to `Python` GIL token
// - Write happens only once, and then never will change again.
// - State is set to None during the normalization process, so that a second
// concurrent normalization attempt will panic before changing anything.
let state = unsafe {
(*self.state.get())
.take()
.expect("Cannot normalize a PyErr while already normalizing it.")
};
let (mut ptype, mut pvalue, mut ptraceback) = state.into_ffi_tuple(py);
unsafe {
ffi::PyErr_NormalizeException(&mut ptype, &mut pvalue, &mut ptraceback);
let self_state = &mut *self.state.get();
*self_state = Some(PyErrState::Normalized(PyErrStateNormalized {
ptype: Py::from_owned_ptr_or_opt(py, ptype).expect("Exception type missing"),
pvalue: Py::from_owned_ptr_or_opt(py, pvalue).expect("Exception value missing"),
ptraceback: Py::from_owned_ptr_or_opt(py, ptraceback),
}));
match self_state {
Some(PyErrState::Normalized(n)) => n,
_ => unreachable!(),
}
}
}
/// Deprecated name for [`PyErr::get_type`].
#[deprecated(
since = "0.16.0",
note = "Use err.get_type(py) instead of err.ptype(py)"
)]
pub fn ptype<'py>(&'py self, py: Python<'py>) -> &'py PyType {
self.get_type(py)
}
/// Deprecated name for [`PyErr::value`].
#[deprecated(since = "0.16.0", note = "Use err.value(py) instead of err.pvalue(py)")]
pub fn pvalue<'py>(&'py self, py: Python<'py>) -> &'py PyBaseException {
self.value(py)
}
/// Deprecated name for [`PyErr::traceback`].
#[deprecated(
since = "0.16.0",
note = "Use err.traceback(py) instead of err.ptraceback(py)"
)]
pub fn ptraceback<'py>(&'py self, py: Python<'py>) -> Option<&'py PyTraceback> {
self.traceback(py)
}
/// Deprecated name for [`PyErr::value`].
#[deprecated(
since = "0.16.0",
note = "Use err.value(py) instead of err.instance(py)"
)]
pub fn instance<'py>(&'py self, py: Python<'py>) -> &'py PyBaseException {
self.value(py)
}
/// Deprecated name for [`PyErr::from_value`].
#[deprecated(
since = "0.16.0",
note = "Use err.from_value(py, obj) instead of err.from_instance(py, obj)"
)]
pub fn from_instance(value: &PyAny) -> PyErr {
PyErr::from_value(value)
}
/// Deprecated name for [`PyErr::into_value`].
#[deprecated(
since = "0.16.0",
note = "Use err.into_value(py) instead of err.into_instance(py)"
)]
pub fn into_instance(self, py: Python<'_>) -> Py<PyBaseException> {
self.into_value(py)
}
}
impl std::fmt::Debug for PyErr {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> Result<(), std::fmt::Error> {
Python::with_gil(|py| {
f.debug_struct("PyErr")
.field("type", self.get_type(py))
.field("value", self.value(py))
.field("traceback", &self.traceback(py))
.finish()
})
}
}
impl std::fmt::Display for PyErr {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
Python::with_gil(|py| {
let value = self.value(py);
let type_name = value.get_type().name().map_err(|_| std::fmt::Error)?;
write!(f, "{}", type_name)?;
if let Ok(s) = value.str() {
write!(f, ": {}", &s.to_string_lossy())
} else {
write!(f, ": <exception str() failed>")
}
})
}
}
impl std::error::Error for PyErr {}
impl IntoPy<PyObject> for PyErr {
fn into_py(self, py: Python<'_>) -> PyObject {
self.into_value(py).into()
}
}
impl ToPyObject for PyErr {
fn to_object(&self, py: Python<'_>) -> PyObject {
self.clone_ref(py).into_py(py)
}
}
impl<'a> IntoPy<PyObject> for &'a PyErr {
fn into_py(self, py: Python<'_>) -> PyObject {
self.clone_ref(py).into_py(py)
}
}
struct PyDowncastErrorArguments {
from: Py<PyType>,
to: Cow<'static, str>,
}
impl PyErrArguments for PyDowncastErrorArguments {
fn arguments(self, py: Python<'_>) -> PyObject {
format!(
"'{}' object cannot be converted to '{}'",
self.from
.as_ref(py)
.name()
.unwrap_or("<failed to extract type name>"),
self.to
)
.to_object(py)
}
}
/// Convert `PyDowncastError` to Python `TypeError`.
impl<'a> std::convert::From<PyDowncastError<'a>> for PyErr {
fn from(err: PyDowncastError<'_>) -> PyErr {
let args = PyDowncastErrorArguments {
from: err.from.get_type().into(),
to: err.to,
};
exceptions::PyTypeError::new_err(args)
}
}
impl<'a> std::error::Error for PyDowncastError<'a> {}
impl<'a> std::fmt::Display for PyDowncastError<'a> {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> Result<(), std::fmt::Error> {
write!(
f,
"'{}' object cannot be converted to '{}'",
self.from.get_type().name().map_err(|_| std::fmt::Error)?,
self.to
)
}
}
pub fn panic_after_error(_py: Python<'_>) -> ! {
unsafe {
ffi::PyErr_Print();
}
panic!("Python API call failed");
}
/// Returns Ok if the error code is not -1.
#[inline]
pub fn error_on_minusone(py: Python<'_>, result: c_int) -> PyResult<()> {
if result != -1 {
Ok(())
} else {
Err(PyErr::fetch(py))
}
}
#[inline]
fn exceptions_must_derive_from_base_exception(py: Python<'_>) -> PyErr {
PyErr::from_state(PyErrState::exceptions_must_derive_from_base_exception(py))
}
#[cfg(test)]
mod tests {
use super::PyErrState;
use crate::exceptions;
use crate::{AsPyPointer, PyErr, Python};
#[test]
fn no_error() {
assert!(Python::with_gil(PyErr::take).is_none());
}
#[test]
fn set_valueerror() {
Python::with_gil(|py| {
let err: PyErr = exceptions::PyValueError::new_err("some exception message");
assert!(err.is_instance_of::<exceptions::PyValueError>(py));
err.restore(py);
assert!(PyErr::occurred(py));
let err = PyErr::fetch(py);
assert!(err.is_instance_of::<exceptions::PyValueError>(py));
assert_eq!(err.to_string(), "ValueError: some exception message");
})
}
#[test]
fn invalid_error_type() {
Python::with_gil(|py| {
let err: PyErr = PyErr::new::<crate::types::PyString, _>(());
assert!(err.is_instance_of::<exceptions::PyTypeError>(py));
err.restore(py);
let err = PyErr::fetch(py);
assert!(err.is_instance_of::<exceptions::PyTypeError>(py));
assert_eq!(
err.to_string(),
"TypeError: exceptions must derive from BaseException"
);
})
}
#[test]
fn set_typeerror() {
let gil = Python::acquire_gil();
let py = gil.python();
let err: PyErr = exceptions::PyTypeError::new_err(());
err.restore(py);
assert!(PyErr::occurred(py));
drop(PyErr::fetch(py));
}
#[test]
#[should_panic(expected = "new panic")]
fn fetching_panic_exception_resumes_unwind() {
use crate::panic::PanicException;
Python::with_gil(|py| {
let err: PyErr = PanicException::new_err("new panic");
err.restore(py);
assert!(PyErr::occurred(py));
// should resume unwind
let _ = PyErr::fetch(py);
});
}
#[test]
fn err_debug() {
// Debug representation should be like the following (without the newlines):
// PyErr {
// type: <class 'Exception'>,
// value: Exception('banana'),
// traceback: Some(<traceback object at 0x..)"
// }
Python::with_gil(|py| {
let err = py
.run("raise Exception('banana')", None, None)
.expect_err("raising should have given us an error");
let debug_str = format!("{:?}", err);
assert!(debug_str.starts_with("PyErr { "));
assert!(debug_str.ends_with(" }"));
// strip "PyErr { " and " }"
let mut fields = debug_str["PyErr { ".len()..debug_str.len() - 2].split(", ");
assert_eq!(fields.next().unwrap(), "type: <class 'Exception'>");
assert_eq!(fields.next().unwrap(), "value: Exception('banana')");
let traceback = fields.next().unwrap();
assert!(traceback.starts_with("traceback: Some(<traceback object at 0x"));
assert!(traceback.ends_with(">)"));
assert!(fields.next().is_none());
});
}
#[test]
fn err_display() {
Python::with_gil(|py| {
let err = py
.run("raise Exception('banana')", None, None)
.expect_err("raising should have given us an error");
assert_eq!(err.to_string(), "Exception: banana");
});
}
#[test]
fn test_pyerr_send_sync() {
fn is_send<T: Send>() {}
fn is_sync<T: Sync>() {}
is_send::<PyErr>();
is_sync::<PyErr>();
is_send::<PyErrState>();
is_sync::<PyErrState>();
}
#[test]
fn test_pyerr_cause() {
Python::with_gil(|py| {
let err = py
.run("raise Exception('banana')", None, None)
.expect_err("raising should have given us an error");
assert!(err.cause(py).is_none());
let err = py
.run(
"raise Exception('banana') from Exception('apple')",
None,
None,
)
.expect_err("raising should have given us an error");
let cause = err
.cause(py)
.expect("raising from should have given us a cause");
assert_eq!(cause.to_string(), "Exception: apple");
err.set_cause(py, None);
assert!(err.cause(py).is_none());
let new_cause = exceptions::PyValueError::new_err("orange");
err.set_cause(py, Some(new_cause));
let cause = err
.cause(py)
.expect("set_cause should have given us a cause");
assert_eq!(cause.to_string(), "ValueError: orange");
});
}
#[allow(deprecated)]
#[test]
fn deprecations() {
let err = exceptions::PyValueError::new_err("an error");
Python::with_gil(|py| {
assert_eq!(err.ptype(py).as_ptr(), err.get_type(py).as_ptr());
assert_eq!(err.pvalue(py).as_ptr(), err.value(py).as_ptr());
assert_eq!(err.instance(py).as_ptr(), err.value(py).as_ptr());
assert_eq!(
err.ptraceback(py).map(|t| t.as_ptr()),
err.traceback(py).map(|t| t.as_ptr())
);
assert_eq!(
err.clone_ref(py).into_instance(py).as_ref(py).as_ptr(),
err.value(py).as_ptr()
);
assert_eq!(
PyErr::from_instance(err.value(py)).value(py).as_ptr(),
err.value(py).as_ptr()
);
});
}
}