might_permit_raw_init: also check aggregate fields
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@ -1135,16 +1135,31 @@ pub fn might_permit_raw_init<C, E>(self, cx: &C, zero: bool) -> Result<bool, E>
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Abi::Scalar(s) => scalar_allows_raw_init(s),
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Abi::ScalarPair(s1, s2) => scalar_allows_raw_init(s1) && scalar_allows_raw_init(s2),
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Abi::Vector { element: s, count } => *count == 0 || scalar_allows_raw_init(s),
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Abi::Aggregate { .. } => true, // Cannot be excluded *right now*.
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Abi::Aggregate { .. } => true, // Fields are checked below.
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};
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if !valid {
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// This is definitely not okay.
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trace!("might_permit_raw_init({:?}, zero={}): not valid", self.layout, zero);
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return Ok(false);
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}
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// If we have not found an error yet, we need to recursively descend.
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// FIXME(#66151): For now, we are conservative and do not do this.
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// If we have not found an error yet, we need to recursively descend into fields.
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match &self.fields {
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FieldsShape::Primitive | FieldsShape::Union { .. } => {}
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FieldsShape::Array { .. } => {
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// FIXME(#66151): For now, we are conservative and do not check arrays.
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}
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FieldsShape::Arbitrary { offsets, .. } => {
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for idx in 0..offsets.len() {
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let field = self.field(cx, idx).to_result()?;
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if !field.might_permit_raw_init(cx, zero)? {
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// We found a field that is unhappy with this kind of initialization.
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return Ok(false);
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}
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}
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}
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}
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// FIXME(#66151): For now, we are conservative and do not check `self.variants`.
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Ok(true)
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}
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}
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@ -3,7 +3,7 @@
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// This test checks panic emitted from `mem::{uninitialized,zeroed}`.
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#![feature(never_type)]
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#![feature(never_type, arbitrary_enum_discriminant)]
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#![allow(deprecated, invalid_value)]
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use std::{
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@ -24,6 +24,20 @@ enum Bar {}
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#[allow(dead_code)]
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enum OneVariant { Variant(i32) }
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#[allow(dead_code, non_camel_case_types)]
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enum OneVariant_NonZero {
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Variant(i32, i32, num::NonZeroI32),
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DeadVariant(Bar),
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}
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// An `Aggregate` abi enum where 0 is not a valid discriminant.
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#[allow(dead_code)]
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#[repr(i32)]
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enum NoNullVariant {
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Variant1(i32, i32) = 1,
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Variant2(i32, i32) = 2,
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}
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// An enum with ScalarPair layout
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#[allow(dead_code)]
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enum LR {
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@ -125,6 +139,7 @@ fn main() {
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"attempted to zero-initialize type `std::mem::ManuallyDrop<LR_NonZero>`, \
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which is invalid"
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);
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*/
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test_panic_msg(
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|| mem::uninitialized::<(NonNull<u32>, u32, u32)>(),
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@ -136,7 +151,28 @@ fn main() {
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"attempted to zero-initialize type `(std::ptr::NonNull<u32>, u32, u32)`, \
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which is invalid"
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);
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*/
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test_panic_msg(
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|| mem::uninitialized::<OneVariant_NonZero>(),
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"attempted to leave type `OneVariant_NonZero` uninitialized, \
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which is invalid"
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);
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test_panic_msg(
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|| mem::zeroed::<OneVariant_NonZero>(),
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"attempted to zero-initialize type `OneVariant_NonZero`, \
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which is invalid"
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);
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test_panic_msg(
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|| mem::uninitialized::<NoNullVariant>(),
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"attempted to leave type `NoNullVariant` uninitialized, \
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which is invalid"
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);
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test_panic_msg(
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|| mem::zeroed::<NoNullVariant>(),
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"attempted to zero-initialize type `NoNullVariant`, \
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which is invalid"
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);
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// Types that can be zero, but not uninit.
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test_panic_msg(
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