401 lines
14 KiB
Rust
401 lines
14 KiB
Rust
use std;
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use std::ffi::CString;
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use std::os::raw::c_char;
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use libc;
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use ffi;
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use python::{ToPyPointer, IntoPyPointer, Python, PyDowncastInto, PyClone};
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use objects::{PyObject, PyType, exc};
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use typeob::{PyTypeObject};
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use conversion::{ToPyObject, IntoPyTuple, IntoPyObject};
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/**
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Defines a new exception type.
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# Syntax
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`py_exception!(module, MyError)`
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* `module` is the name of the containing module.
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* `MyError` is the name of the new exception type.
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# Example
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```
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#[macro_use]
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extern crate pyo3;
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use pyo3::{Python, PyDict};
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py_exception!(mymodule, CustomError);
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fn main() {
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let gil = Python::acquire_gil();
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let py = gil.python();
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let ctx = PyDict::new(py);
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ctx.set_item(py, "CustomError", py.get_type::<CustomError>()).unwrap();
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py.run("assert str(CustomError) == \"<class 'mymodule.CustomError'>\"", None, Some(&ctx)).unwrap();
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py.run("assert CustomError('oops').args == ('oops',)", None, Some(&ctx)).unwrap();
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}
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```
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*/
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#[macro_export]
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macro_rules! py_exception {
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($module: ident, $name: ident, $base: ty) => {
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pub struct $name;
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// pyobject_nativetype!($name);
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impl $name {
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pub fn new<T: $crate::IntoPyObject>(py: $crate::Python, args: T) -> $crate::PyErr {
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$crate::PyErr::new::<$name, T>(py, args)
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}
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}
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impl $crate::PyTypeObject for $name {
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#[inline]
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fn type_object(py: $crate::Python) -> $crate::PyType {
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unsafe {
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#[allow(non_upper_case_globals)]
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static mut type_object: *mut $crate::ffi::PyTypeObject = 0 as *mut $crate::ffi::PyTypeObject;
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if type_object.is_null() {
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type_object = $crate::PyErr::new_type(
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py,
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concat!(stringify!($module), ".", stringify!($name)),
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Some(py.get_type::<$base>()), None).as_type_ptr();
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}
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$crate::PyType::from_type_ptr(py, type_object)
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}
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}
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}
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};
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($module: ident, $name: ident) => {
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py_exception!($module, $name, $crate::exc::Exception);
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}
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}
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/// Represents a Python exception that was raised.
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#[derive(Debug)]
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pub struct PyErr {
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/// The type of the exception. This should be either a `PyClass` or a `PyType`.
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pub ptype: PyType,
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/// The value of the exception.
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///
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/// This can be either an instance of `ptype`,
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/// a tuple of arguments to be passed to `ptype`'s constructor,
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/// or a single argument to be passed to `ptype`'s constructor.
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/// Call `PyErr::instance()` to get the exception instance in all cases.
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pub pvalue: Option<PyObject>,
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/// The `PyTraceBack` object associated with the error.
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pub ptraceback: Option<PyObject>,
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}
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/// Represents the result of a Python call.
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pub type PyResult<T> = Result<T, PyErr>;
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// Marker type that indicates an error while downcasting
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pub struct PyDowncastError<'p>(pub Python<'p>, pub Option<&'p str>);
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impl PyErr {
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/// Creates a new PyErr of type `T`.
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///
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/// `value` can be:
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/// * `NoArgs`: the exception instance will be created using python `T()`
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/// * a tuple: the exception instance will be created using python `T(*tuple)`
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/// * any other value: the exception instance will be created using python `T(value)`
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///
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/// Panics if `T` is not a python class derived from `BaseException`.
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///
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/// Example:
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/// `return Err(PyErr::new::<exc::TypeError, _>(py, "Error message"));`
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pub fn new<T, V>(py: Python, value: V) -> PyErr
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where T: PyTypeObject, V: IntoPyObject
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{
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PyErr::new_helper(py, py.get_type::<T>(), value.into_object(py))
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}
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/// Gets whether an error is present in the Python interpreter's global state.
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#[inline]
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pub fn occurred(_ : Python) -> bool {
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unsafe { !ffi::PyErr_Occurred().is_null() }
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}
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/// Creates a new exception type with the given name, which must be of the form
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/// `<module>.<ExceptionName>`, as required by `PyErr_NewException`.
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///
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/// `base` can be an existing exception type to subclass, or a tuple of classes
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/// `dict` specifies an optional dictionary of class variables and methods
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pub fn new_type(py: Python, name: &str, base: Option<PyType>, dict: Option<PyObject>)
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-> PyType
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{
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let base: *mut ffi::PyObject = match base {
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None => std::ptr::null_mut(),
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Some(obj) => obj.into_ptr()
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};
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let dict: *mut ffi::PyObject = match dict {
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None => std::ptr::null_mut(),
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Some(obj) => obj.into_ptr(),
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};
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unsafe {
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let null_terminated_name = CString::new(name).unwrap();
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let ptr = ffi::PyErr_NewException(
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null_terminated_name.as_ptr() as *mut c_char,
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base, dict) as *mut ffi::PyTypeObject;
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PyType::from_type_ptr(py, ptr)
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}
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}
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/// Retrieves the current error from the Python interpreter's global state.
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/// The error is cleared from the Python interpreter.
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/// If no error is set, returns a `SystemError`.
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pub fn fetch(py: Python) -> PyErr {
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unsafe {
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let mut ptype : *mut ffi::PyObject = std::ptr::null_mut();
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let mut pvalue : *mut ffi::PyObject = std::ptr::null_mut();
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let mut ptraceback : *mut ffi::PyObject = std::ptr::null_mut();
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ffi::PyErr_Fetch(&mut ptype, &mut pvalue, &mut ptraceback);
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PyErr::new_from_ffi_tuple(py, ptype, pvalue, ptraceback)
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}
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}
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unsafe fn new_from_ffi_tuple(py: Python,
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ptype: *mut ffi::PyObject,
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pvalue: *mut ffi::PyObject,
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ptraceback: *mut ffi::PyObject) -> PyErr {
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// Note: must not panic to ensure all owned pointers get acquired correctly,
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// and because we mustn't panic in normalize().
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PyErr {
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ptype: if ptype.is_null() {
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py.get_type::<exc::SystemError>()
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} else {
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PyObject::from_owned_ptr(py, ptype).unchecked_cast_into::<PyType>()
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},
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pvalue: PyObject::from_owned_ptr_or_opt(py, pvalue),
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ptraceback: PyObject::from_owned_ptr_or_opt(py, ptraceback)
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}
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}
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fn new_helper(_py: Python, ty: PyType, value: PyObject) -> PyErr {
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assert!(unsafe { ffi::PyExceptionClass_Check(ty.as_ptr()) } != 0);
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PyErr {
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ptype: ty,
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pvalue: Some(value),
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ptraceback: None
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}
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}
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/// Creates a new PyErr.
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///
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/// `obj` must be an Python exception instance, the PyErr will use that instance.
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/// If `obj` is a Python exception type object, the PyErr will (lazily) create a new instance of that type.
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/// Otherwise, a `TypeError` is created instead.
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pub fn from_instance<O>(py: Python, obj: O) -> PyErr where O: IntoPyObject {
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PyErr::from_instance_helper(py, obj.into_object(py))
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}
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fn from_instance_helper<'p>(py: Python, obj: PyObject) -> PyErr {
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if unsafe { ffi::PyExceptionInstance_Check(obj.as_ptr()) } != 0 {
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PyErr {
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ptype: unsafe { PyObject::from_borrowed_ptr(
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py, ffi::PyExceptionInstance_Class(obj.as_ptr()))
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.unchecked_cast_into::<PyType>() },
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pvalue: Some(obj),
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ptraceback: None
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}
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} else if unsafe { ffi::PyExceptionClass_Check(obj.as_ptr()) } != 0 {
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PyErr {
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ptype: PyType::downcast_into(py, obj).unwrap(),
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pvalue: None,
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ptraceback: None
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}
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} else {
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PyErr {
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ptype: py.get_type::<exc::TypeError>(),
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pvalue: Some("exceptions must derive from BaseException".into_object(py)),
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ptraceback: None
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}
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}
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}
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/// Construct a new error, with the usual lazy initialization of Python exceptions.
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/// `exc` is the exception type; usually one of the standard exceptions like `py.get_type::<exc::RuntimeError>()`.
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/// `value` is the exception instance, or a tuple of arguments to pass to the exception constructor.
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#[inline]
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pub fn new_lazy_init(exc: PyType, value: Option<PyObject>) -> PyErr {
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PyErr {
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ptype: exc,
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pvalue: value,
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ptraceback: None
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}
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}
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/// Construct a new error, with the usual lazy initialization of Python exceptions.
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/// `exc` is the exception type; usually one of the standard exceptions like `py.get_type::<exc::RuntimeError>()`.
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/// `args` is the a tuple of arguments to pass to the exception constructor.
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#[inline]
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pub fn new_err<A>(py: Python, exc: &PyType, args: A) -> PyErr
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where A: IntoPyTuple
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{
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PyErr {
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ptype: exc.clone_ref(py),
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pvalue: Some(args.into_tuple(py).into()),
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ptraceback: None
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}
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}
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/// Print a standard traceback to sys.stderr.
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pub fn print(self, py: Python) {
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self.restore(py);
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unsafe { ffi::PyErr_PrintEx(0) }
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}
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/// Print a standard traceback to sys.stderr.
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pub fn print_and_set_sys_last_vars(self, py: Python) {
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self.restore(py);
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unsafe { ffi::PyErr_PrintEx(1) }
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}
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/// Return true if the current exception matches the exception in `exc`.
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/// If `exc` is a class object, this also returns `true` when `self` is an instance of a subclass.
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/// If `exc` is a tuple, all exceptions in the tuple (and recursively in subtuples) are searched for a match.
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pub fn matches<T>(&self, py: Python, exc: T) -> bool
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where T: ToPyObject
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{
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exc.with_borrowed_ptr(py, |exc| unsafe {
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ffi::PyErr_GivenExceptionMatches(self.ptype.as_ptr(), exc) != 0
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})
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}
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/// Normalizes the error. This ensures that the exception value is an instance of the exception type.
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pub fn normalize(&mut self, py: Python) {
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// The normalization helper function involves temporarily moving out of the &mut self,
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// which requires some unsafe trickery:
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unsafe {
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std::ptr::write(self, std::ptr::read(self).into_normalized(py));
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}
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// This is safe as long as normalized() doesn't unwind due to a panic.
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}
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/// Helper function for normalizing the error by deconstructing and reconstructing the PyErr.
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/// Must not panic for safety in normalize()
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fn into_normalized(self, py: Python) -> PyErr {
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let PyErr { ptype, pvalue, ptraceback } = self;
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let mut ptype = ptype.into_ptr();
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let mut pvalue = pvalue.into_ptr();
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let mut ptraceback = ptraceback.into_ptr();
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unsafe {
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ffi::PyErr_NormalizeException(&mut ptype, &mut pvalue, &mut ptraceback);
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PyErr::new_from_ffi_tuple(py, ptype, pvalue, ptraceback)
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}
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}
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/// Retrieves the exception type.
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pub fn get_type(&self, py: Python) -> PyType {
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self.ptype.clone_ref(py)
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}
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/// Retrieves the exception instance for this error.
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/// This method takes `&mut self` because the error might need
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/// to be normalized in order to create the exception instance.
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pub fn instance(&mut self, py: Python) -> PyObject {
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self.normalize(py);
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match self.pvalue {
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Some(ref instance) => instance.to_object(py),
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None => py.None(),
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}
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}
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/// Writes the error back to the Python interpreter's global state.
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/// This is the opposite of `PyErr::fetch()`.
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#[inline]
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pub fn restore(self, _py: Python) {
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let PyErr { ptype, pvalue, ptraceback } = self;
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unsafe {
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ffi::PyErr_Restore(ptype.into_ptr(), pvalue.into_ptr(), ptraceback.into_ptr())
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}
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}
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/// Issue a warning message.
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/// May return a PyErr if warnings-as-errors is enabled.
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pub fn warn(py: Python, category: &PyObject, message: &str, stacklevel: i32) -> PyResult<()> {
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let message = CString::new(message).unwrap();
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unsafe {
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error_on_minusone(py, ffi::PyErr_WarnEx(
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category.as_ptr(), message.as_ptr(), stacklevel as ffi::Py_ssize_t))
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}
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}
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pub fn clone_ref(&self, py: Python) -> PyErr {
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PyErr {
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ptype: self.ptype.clone_ref(py),
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pvalue: self.pvalue.clone_ref(py),
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ptraceback: self.ptraceback.clone_ref(py),
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}
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}
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pub fn release(self, py: Python) {
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let PyErr { ptype, pvalue, ptraceback } = self;
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py.release(ptype);
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py.release(pvalue);
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py.release(ptraceback);
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}
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}
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/// Converts `PyDowncastError` to Python `TypeError`.
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impl <'p> std::convert::From<PyDowncastError<'p>> for PyErr {
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fn from(err: PyDowncastError<'p>) -> PyErr {
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PyErr::new_lazy_init(err.0.get_type::<exc::TypeError>(), None)
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}
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}
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impl <'p> std::fmt::Debug for PyDowncastError<'p> {
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fn fmt(&self, f : &mut std::fmt::Formatter) -> Result<(), std::fmt::Error> {
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f.write_str("PyDowncastError")
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}
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}
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/// Convert PyErr to io::Error
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impl std::convert::From<PyErr> for std::io::Error {
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fn from(err: PyErr) -> Self {
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std::io::Error::new(
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std::io::ErrorKind::Other, format!("Python exception: {:?}", err))
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}
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}
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pub fn panic_after_error() -> ! {
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unsafe { ffi::PyErr_Print(); }
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panic!("Python API called failed");
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}
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/// Returns Ok if the error code is not -1.
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#[inline]
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pub fn error_on_minusone(py: Python, result: libc::c_int) -> PyResult<()> {
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if result != -1 {
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Ok(())
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} else {
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Err(PyErr::fetch(py))
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}
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}
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#[cfg(test)]
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mod tests {
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use ::{Python, PyErr};
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use objects::exc;
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#[test]
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fn set_typeerror() {
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let gil = Python::acquire_gil();
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let py = gil.python();
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PyErr::new_lazy_init(py.get_type::<exc::TypeError>(), None).restore(py);
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assert!(PyErr::occurred(py));
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drop(PyErr::fetch(py));
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}
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}
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