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https://github.com/rust-lang/rust.git
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Implement missing ABI structures in StableMIR
This commit is contained in:
parent
6db96de66c
commit
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@ -6,11 +6,12 @@ use crate::rustc_smir::{Stable, Tables};
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use rustc_middle::ty;
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use rustc_target::abi::call::Conv;
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use stable_mir::abi::{
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ArgAbi, CallConvention, FieldsShape, FnAbi, Layout, LayoutShape, PassMode, TagEncoding,
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TyAndLayout, ValueAbi, VariantsShape,
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AddressSpace, ArgAbi, CallConvention, FieldsShape, FnAbi, IntegerLength, Layout, LayoutShape,
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PassMode, Primitive, Scalar, TagEncoding, TyAndLayout, ValueAbi, VariantsShape, WrappingRange,
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};
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use stable_mir::ty::{Align, IndexedVal, Size, VariantIdx};
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use stable_mir::{opaque, Opaque};
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use stable_mir::opaque;
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use stable_mir::target::MachineSize as Size;
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use stable_mir::ty::{Align, IndexedVal, VariantIdx};
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impl<'tcx> Stable<'tcx> for rustc_target::abi::VariantIdx {
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type T = VariantIdx;
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@ -220,7 +221,7 @@ impl<'tcx> Stable<'tcx> for rustc_abi::Size {
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type T = Size;
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fn stable(&self, _tables: &mut Tables<'_>) -> Self::T {
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self.bytes_usize()
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Size::from_bits(self.bits_usize())
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}
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}
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@ -233,9 +234,60 @@ impl<'tcx> Stable<'tcx> for rustc_abi::Align {
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}
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impl<'tcx> Stable<'tcx> for rustc_abi::Scalar {
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type T = Opaque;
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type T = Scalar;
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fn stable(&self, _tables: &mut Tables<'_>) -> Self::T {
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opaque(self)
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fn stable(&self, tables: &mut Tables<'_>) -> Self::T {
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match self {
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rustc_abi::Scalar::Initialized { value, valid_range } => Scalar::Initialized {
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value: value.stable(tables),
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valid_range: valid_range.stable(tables),
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},
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rustc_abi::Scalar::Union { value } => Scalar::Union { value: value.stable(tables) },
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}
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}
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}
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impl<'tcx> Stable<'tcx> for rustc_abi::Primitive {
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type T = Primitive;
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fn stable(&self, tables: &mut Tables<'_>) -> Self::T {
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match self {
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rustc_abi::Primitive::Int(length, signed) => {
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Primitive::Int { length: length.stable(tables), signed: *signed }
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}
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rustc_abi::Primitive::F32 => Primitive::F32,
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rustc_abi::Primitive::F64 => Primitive::F64,
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rustc_abi::Primitive::Pointer(space) => Primitive::Pointer(space.stable(tables)),
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}
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}
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}
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impl<'tcx> Stable<'tcx> for rustc_abi::AddressSpace {
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type T = AddressSpace;
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fn stable(&self, _tables: &mut Tables<'_>) -> Self::T {
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AddressSpace(self.0)
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}
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}
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impl<'tcx> Stable<'tcx> for rustc_abi::Integer {
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type T = IntegerLength;
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fn stable(&self, _tables: &mut Tables<'_>) -> Self::T {
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match self {
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rustc_abi::Integer::I8 => IntegerLength::I8,
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rustc_abi::Integer::I16 => IntegerLength::I16,
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rustc_abi::Integer::I32 => IntegerLength::I32,
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rustc_abi::Integer::I64 => IntegerLength::I64,
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rustc_abi::Integer::I128 => IntegerLength::I128,
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}
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}
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}
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impl<'tcx> Stable<'tcx> for rustc_abi::WrappingRange {
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type T = WrappingRange;
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fn stable(&self, _tables: &mut Tables<'_>) -> Self::T {
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WrappingRange { start: self.start, end: self.end }
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}
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}
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@ -1,7 +1,11 @@
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use crate::compiler_interface::with;
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use crate::error;
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use crate::mir::FieldIdx;
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use crate::ty::{Align, IndexedVal, Size, Ty, VariantIdx};
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use crate::target::{MachineInfo, MachineSize as Size};
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use crate::ty::{Align, IndexedVal, Ty, VariantIdx};
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use crate::Error;
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use crate::Opaque;
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use std::fmt::{self, Debug};
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use std::num::NonZeroUsize;
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use std::ops::RangeInclusive;
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@ -100,7 +104,7 @@ impl LayoutShape {
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/// Returns `true` if the type is sized and a 1-ZST (meaning it has size 0 and alignment 1).
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pub fn is_1zst(&self) -> bool {
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self.is_sized() && self.size == 0 && self.abi_align == 1
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self.is_sized() && self.size.bits() == 0 && self.abi_align == 1
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}
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}
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@ -245,8 +249,155 @@ impl ValueAbi {
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}
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}
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/// We currently do not support `Scalar`, and use opaque instead.
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type Scalar = Opaque;
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/// Information about one scalar component of a Rust type.
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#[derive(Clone, Copy, PartialEq, Eq, Hash, Debug)]
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pub enum Scalar {
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Initialized {
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/// The primitive type used to represent this value.
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value: Primitive,
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/// The range that represents valid values.
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/// The range must be valid for the `primitive` size.
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valid_range: WrappingRange,
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},
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Union {
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/// Unions never have niches, so there is no `valid_range`.
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/// Even for unions, we need to use the correct registers for the kind of
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/// values inside the union, so we keep the `Primitive` type around.
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/// It is also used to compute the size of the scalar.
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value: Primitive,
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},
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}
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impl Scalar {
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pub fn has_niche(&self, target: &MachineInfo) -> bool {
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match self {
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Scalar::Initialized { value, valid_range } => {
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!valid_range.is_full(value.size(target)).unwrap()
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}
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Scalar::Union { .. } => false,
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}
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}
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}
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/// Fundamental unit of memory access and layout.
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#[derive(Copy, Clone, PartialEq, Eq, Hash, Debug)]
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pub enum Primitive {
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/// The `bool` is the signedness of the `Integer` type.
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///
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/// One would think we would not care about such details this low down,
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/// but some ABIs are described in terms of C types and ISAs where the
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/// integer arithmetic is done on {sign,zero}-extended registers, e.g.
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/// a negative integer passed by zero-extension will appear positive in
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/// the callee, and most operations on it will produce the wrong values.
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Int {
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length: IntegerLength,
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signed: bool,
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},
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F32,
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F64,
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Pointer(AddressSpace),
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}
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impl Primitive {
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pub fn size(self, target: &MachineInfo) -> Size {
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match self {
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Primitive::Int { length, .. } => Size::from_bits(length.bits()),
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Primitive::F32 => Size::from_bits(32),
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Primitive::F64 => Size::from_bits(64),
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Primitive::Pointer(_) => target.pointer_width,
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}
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}
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}
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/// Enum representing the existing integer lengths.
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#[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Hash, Debug)]
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pub enum IntegerLength {
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I8,
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I16,
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I32,
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I64,
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I128,
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}
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impl IntegerLength {
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pub fn bits(self) -> usize {
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match self {
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IntegerLength::I8 => 8,
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IntegerLength::I16 => 16,
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IntegerLength::I32 => 32,
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IntegerLength::I64 => 64,
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IntegerLength::I128 => 128,
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}
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}
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}
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/// An identifier that specifies the address space that some operation
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/// should operate on. Special address spaces have an effect on code generation,
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/// depending on the target and the address spaces it implements.
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#[derive(Copy, Clone, Debug, PartialEq, Eq, PartialOrd, Ord, Hash)]
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pub struct AddressSpace(pub u32);
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impl AddressSpace {
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/// The default address space, corresponding to data space.
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pub const DATA: Self = AddressSpace(0);
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}
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/// Inclusive wrap-around range of valid values (bitwise representation), that is, if
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/// start > end, it represents `start..=MAX`, followed by `0..=end`.
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///
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/// That is, for an i8 primitive, a range of `254..=2` means following
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/// sequence:
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///
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/// 254 (-2), 255 (-1), 0, 1, 2
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#[derive(Clone, Copy, PartialEq, Eq, Hash)]
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pub struct WrappingRange {
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pub start: u128,
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pub end: u128,
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}
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impl WrappingRange {
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/// Returns `true` if `size` completely fills the range.
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#[inline]
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pub fn is_full(&self, size: Size) -> Result<bool, Error> {
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let Some(max_value) = size.unsigned_int_max() else {
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return Err(error!("Expected size <= 128 bits, but found {} instead", size.bits()));
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};
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if self.start <= max_value && self.end <= max_value {
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Ok(self.start == 0 && max_value == self.end)
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} else {
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Err(error!("Range `{self:?}` out of bounds for size `{}` bits.", size.bits()))
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}
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}
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/// Returns `true` if `v` is contained in the range.
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#[inline(always)]
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pub fn contains(&self, v: u128) -> bool {
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if self.wraps_around() {
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self.start <= v || v <= self.end
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} else {
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self.start <= v && v <= self.end
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}
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}
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/// Returns `true` if the range wraps around.
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/// I.e., the range represents the union of `self.start..=MAX` and `0..=self.end`.
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/// Returns `false` if this is a non-wrapping range, i.e.: `self.start..=self.end`.
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#[inline]
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pub fn wraps_around(&self) -> bool {
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self.start > self.end
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}
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}
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impl Debug for WrappingRange {
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fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result {
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if self.start > self.end {
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write!(fmt, "(..={}) | ({}..)", self.end, self.start)?;
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} else {
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write!(fmt, "{}..={}", self.start, self.end)?;
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}
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Ok(())
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}
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}
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/// General language calling conventions.
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#[derive(Copy, Clone, Debug, PartialEq, Eq, Hash)]
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@ -5,12 +5,14 @@
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//! - [Error]: Generic error that represents the reason why a request that could not be fulfilled.
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use std::fmt::{Debug, Display, Formatter};
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use std::{error, fmt, io};
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use std::{fmt, io};
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macro_rules! error {
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($fmt: literal $(,)?) => { Error(format!($fmt)) };
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($fmt: literal, $($arg:tt)*) => { Error(format!($fmt, $($arg)*)) };
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}
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}
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pub(crate) use error;
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/// An error type used to represent an error that has already been reported by the compiler.
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#[derive(Clone, Copy, PartialEq, Eq)]
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@ -72,8 +74,9 @@ where
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}
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}
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impl error::Error for Error {}
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impl<T> error::Error for CompilerError<T> where T: Display + Debug {}
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impl std::error::Error for Error {}
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impl<T> std::error::Error for CompilerError<T> where T: Display + Debug {}
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impl From<io::Error> for Error {
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fn from(value: io::Error) -> Self {
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@ -30,21 +30,29 @@ pub enum Endian {
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}
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/// Represent the size of a component.
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#[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord)]
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#[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Hash, Debug)]
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pub struct MachineSize {
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num_bits: usize,
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}
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impl MachineSize {
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#[inline(always)]
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pub fn bytes(self) -> usize {
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self.num_bits / 8
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}
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#[inline(always)]
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pub fn bits(self) -> usize {
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self.num_bits
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}
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#[inline(always)]
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pub fn from_bits(num_bits: usize) -> MachineSize {
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MachineSize { num_bits }
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}
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#[inline]
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pub fn unsigned_int_max(self) -> Option<u128> {
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(self.num_bits <= 128).then(|| u128::MAX >> (128 - self.bits()))
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}
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}
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@ -324,7 +324,9 @@ impl TyKind {
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#[inline]
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pub fn is_cstr(&self) -> bool {
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let TyKind::RigidTy(RigidTy::Adt(def, _)) = self else { return false };
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let TyKind::RigidTy(RigidTy::Adt(def, _)) = self else {
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return false;
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};
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with(|cx| cx.adt_is_cstr(*def))
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}
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@ -1032,10 +1034,13 @@ pub struct BoundTy {
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}
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pub type Bytes = Vec<Option<u8>>;
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/// Size in bytes.
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pub type Size = usize;
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#[derive(Clone, Copy, PartialEq, Eq, Debug, Hash)]
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pub struct Prov(pub AllocId);
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pub type Align = u64;
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pub type Promoted = u32;
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pub type InitMaskMaterialized = Vec<u64>;
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@ -19,8 +19,12 @@ extern crate rustc_interface;
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extern crate stable_mir;
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use rustc_smir::rustc_internal;
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use stable_mir::abi::{ArgAbi, CallConvention, FieldsShape, PassMode, VariantsShape};
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use stable_mir::abi::{
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ArgAbi, CallConvention, FieldsShape, IntegerLength, PassMode, Primitive, Scalar, ValueAbi,
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VariantsShape,
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};
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use stable_mir::mir::mono::Instance;
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use stable_mir::target::MachineInfo;
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use stable_mir::{CrateDef, CrateItem, CrateItems, ItemKind};
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use std::assert_matches::assert_matches;
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use std::convert::TryFrom;
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@ -39,11 +43,12 @@ fn test_stable_mir() -> ControlFlow<()> {
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let instance = Instance::try_from(target_fn).unwrap();
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let fn_abi = instance.fn_abi().unwrap();
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assert_eq!(fn_abi.conv, CallConvention::Rust);
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assert_eq!(fn_abi.args.len(), 2);
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assert_eq!(fn_abi.args.len(), 3);
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check_ignore(&fn_abi.args[0]);
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check_primitive(&fn_abi.args[1]);
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check_result(fn_abi.ret);
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check_niche(&fn_abi.args[2]);
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check_result(&fn_abi.ret);
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// Test variadic function.
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let variadic_fn = *get_item(&items, (ItemKind::Fn, "variadic_fn")).unwrap();
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@ -85,7 +90,7 @@ fn check_primitive(abi: &ArgAbi) {
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}
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/// Check the return value: `Result<usize, &str>`.
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fn check_result(abi: ArgAbi) {
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fn check_result(abi: &ArgAbi) {
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assert!(abi.ty.kind().is_enum());
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assert_matches!(abi.mode, PassMode::Indirect { .. });
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let layout = abi.layout.shape();
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@ -94,6 +99,25 @@ fn check_result(abi: ArgAbi) {
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assert_matches!(layout.variants, VariantsShape::Multiple { .. })
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}
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/// Check the niche information about: `NonZeroU8`
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fn check_niche(abi: &ArgAbi) {
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assert!(abi.ty.kind().is_struct());
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assert_matches!(abi.mode, PassMode::Direct { .. });
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let layout = abi.layout.shape();
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assert!(layout.is_sized());
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assert_eq!(layout.size.bytes(), 1);
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let ValueAbi::Scalar(scalar) = layout.abi else { unreachable!() };
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assert!(scalar.has_niche(&MachineInfo::target()), "Opps: {:?}", scalar);
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let Scalar::Initialized { value, valid_range } = scalar else { unreachable!() };
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assert_matches!(value, Primitive::Int { length: IntegerLength::I8, signed: false });
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assert_eq!(valid_range.start, 1);
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assert_eq!(valid_range.end, u8::MAX.into());
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assert!(!valid_range.contains(0));
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assert!(!valid_range.wraps_around());
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}
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fn get_item<'a>(
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items: &'a CrateItems,
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item: (ItemKind, &str),
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@ -126,11 +150,16 @@ fn generate_input(path: &str) -> std::io::Result<()> {
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#![feature(c_variadic)]
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#![allow(unused_variables)]
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pub fn fn_abi(ignore: [u8; 0], primitive: char) -> Result<usize, &'static str> {{
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// We only care about the signature.
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todo!()
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}}
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use std::num::NonZeroU8;
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pub fn fn_abi(
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ignore: [u8; 0],
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primitive: char,
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niche: NonZeroU8,
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) -> Result<usize, &'static str> {{
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// We only care about the signature.
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todo!()
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}}
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pub unsafe extern "C" fn variadic_fn(n: usize, mut args: ...) -> usize {{
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0
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