bjoernager/rust
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rust/compiler/rustc_mir_build/src/build/expr/as_constant.rs
Maybe Waffle 26b87bf8ff Simplify calls to tcx.mk_const 
`mk_const(ty::ConstKind::X(...), ty)` can now be simplified to
`mk_cosnt(...,                   ty)`.

I searched with the following regex: \mk_const\([\n\s]*(ty::)?ConstKind\
I've left `ty::ConstKind::{Bound, Error}` as-is, they seem clearer this
way.
2022-11-28 17:27:20 +00:00

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//! See docs in build/expr/mod.rs
use crate::build::{parse_float_into_constval, Builder};
use rustc_ast as ast;
use rustc_middle::mir;
use rustc_middle::mir::interpret::{
Allocation, ConstValue, LitToConstError, LitToConstInput, Scalar,
};
use rustc_middle::mir::*;
use rustc_middle::thir::*;
use rustc_middle::ty::{self, CanonicalUserTypeAnnotation, TyCtxt};
use rustc_span::DUMMY_SP;
use rustc_target::abi::Size;
impl<'a, 'tcx> Builder<'a, 'tcx> {
/// Compile `expr`, yielding a compile-time constant. Assumes that
/// `expr` is a valid compile-time constant!
pub(crate) fn as_constant(&mut self, expr: &Expr<'tcx>) -> Constant<'tcx> {
let this = self;
let tcx = this.tcx;
let Expr { ty, temp_lifetime: _, span, ref kind } = *expr;
match *kind {
ExprKind::Scope { region_scope: _, lint_level: _, value } => {
this.as_constant(&this.thir[value])
}
ExprKind::Literal { lit, neg } => {
let literal =
match lit_to_mir_constant(tcx, LitToConstInput { lit: &lit.node, ty, neg }) {
Ok(c) => c,
Err(LitToConstError::Reported(guar)) => {
ConstantKind::Ty(tcx.const_error_with_guaranteed(ty, guar))
}
Err(LitToConstError::TypeError) => {
bug!("encountered type error in `lit_to_mir_constant")
}
};
Constant { span, user_ty: None, literal }
}
ExprKind::NonHirLiteral { lit, ref user_ty } => {
let user_ty = user_ty.as_ref().map(|user_ty| {
this.canonical_user_type_annotations.push(CanonicalUserTypeAnnotation {
span,
user_ty: user_ty.clone(),
inferred_ty: ty,
})
});
let literal = ConstantKind::Val(ConstValue::Scalar(Scalar::Int(lit)), ty);
Constant { span, user_ty: user_ty, literal }
}
ExprKind::ZstLiteral { ref user_ty } => {
let user_ty = user_ty.as_ref().map(|user_ty| {
this.canonical_user_type_annotations.push(CanonicalUserTypeAnnotation {
span,
user_ty: user_ty.clone(),
inferred_ty: ty,
})
});
let literal = ConstantKind::Val(ConstValue::ZeroSized, ty);
Constant { span, user_ty: user_ty, literal }
}
ExprKind::NamedConst { def_id, substs, ref user_ty } => {
let user_ty = user_ty.as_ref().map(|user_ty| {
this.canonical_user_type_annotations.push(CanonicalUserTypeAnnotation {
span,
user_ty: user_ty.clone(),
inferred_ty: ty,
})
});
let uneval =
mir::UnevaluatedConst::new(ty::WithOptConstParam::unknown(def_id), substs);
let literal = ConstantKind::Unevaluated(uneval, ty);
Constant { user_ty, span, literal }
}
ExprKind::ConstParam { param, def_id: _ } => {
let const_param = tcx.mk_const(param, expr.ty);
let literal = ConstantKind::Ty(const_param);
Constant { user_ty: None, span, literal }
}
ExprKind::ConstBlock { did: def_id, substs } => {
let uneval =
mir::UnevaluatedConst::new(ty::WithOptConstParam::unknown(def_id), substs);
let literal = ConstantKind::Unevaluated(uneval, ty);
Constant { user_ty: None, span, literal }
}
ExprKind::StaticRef { alloc_id, ty, .. } => {
let const_val = ConstValue::Scalar(Scalar::from_pointer(alloc_id.into(), &tcx));
let literal = ConstantKind::Val(const_val, ty);
Constant { span, user_ty: None, literal }
}
_ => span_bug!(span, "expression is not a valid constant {:?}", kind),
}
}
}
#[instrument(skip(tcx, lit_input))]
pub(crate) fn lit_to_mir_constant<'tcx>(
tcx: TyCtxt<'tcx>,
lit_input: LitToConstInput<'tcx>,
) -> Result<ConstantKind<'tcx>, LitToConstError> {
let LitToConstInput { lit, ty, neg } = lit_input;
let trunc = |n| {
let param_ty = ty::ParamEnv::reveal_all().and(ty);
let width = tcx
.layout_of(param_ty)
.map_err(|_| {
LitToConstError::Reported(tcx.sess.delay_span_bug(
DUMMY_SP,
format!("couldn't compute width of literal: {:?}", lit_input.lit),
))
})?
.size;
trace!("trunc {} with size {} and shift {}", n, width.bits(), 128 - width.bits());
let result = width.truncate(n);
trace!("trunc result: {}", result);
Ok(ConstValue::Scalar(Scalar::from_uint(result, width)))
};
let value = match (lit, &ty.kind()) {
(ast::LitKind::Str(s, _), ty::Ref(_, inner_ty, _)) if inner_ty.is_str() => {
let s = s.as_str();
let allocation = Allocation::from_bytes_byte_aligned_immutable(s.as_bytes());
let allocation = tcx.intern_const_alloc(allocation);
ConstValue::Slice { data: allocation, start: 0, end: s.len() }
}
(ast::LitKind::ByteStr(data), ty::Ref(_, inner_ty, _))
if matches!(inner_ty.kind(), ty::Slice(_)) =>
{
let allocation = Allocation::from_bytes_byte_aligned_immutable(data as &[u8]);
let allocation = tcx.intern_const_alloc(allocation);
ConstValue::Slice { data: allocation, start: 0, end: data.len() }
}
(ast::LitKind::ByteStr(data), ty::Ref(_, inner_ty, _)) if inner_ty.is_array() => {
let id = tcx.allocate_bytes(data);
ConstValue::Scalar(Scalar::from_pointer(id.into(), &tcx))
}
(ast::LitKind::Byte(n), ty::Uint(ty::UintTy::U8)) => {
ConstValue::Scalar(Scalar::from_uint(*n, Size::from_bytes(1)))
}
(ast::LitKind::Int(n, _), ty::Uint(_)) | (ast::LitKind::Int(n, _), ty::Int(_)) => {
trunc(if neg { (*n as i128).overflowing_neg().0 as u128 } else { *n })?
}
(ast::LitKind::Float(n, _), ty::Float(fty)) => parse_float_into_constval(*n, *fty, neg)
.ok_or_else(|| {
LitToConstError::Reported(tcx.sess.delay_span_bug(
DUMMY_SP,
format!("couldn't parse float literal: {:?}", lit_input.lit),
))
})?,
(ast::LitKind::Bool(b), ty::Bool) => ConstValue::Scalar(Scalar::from_bool(*b)),
(ast::LitKind::Char(c), ty::Char) => ConstValue::Scalar(Scalar::from_char(*c)),
(ast::LitKind::Err, _) => {
return Err(LitToConstError::Reported(
tcx.sess.delay_span_bug(DUMMY_SP, "encountered LitKind::Err during mir build"),
));
}
_ => return Err(LitToConstError::TypeError),
};
Ok(ConstantKind::Val(value, ty))
}
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