use rustc_data_structures::sync::Lrc;
use std::cmp::Ordering::{self, Equal};
use std::cmp::PartialOrd;
-use std::convert::TryFrom;
use std::convert::TryInto;
use std::hash::{Hash, Hasher};
use syntax::ast::{FloatTy, LitKind};
-use syntax_pos::symbol::{LocalInternedString, Symbol};
+use syntax_pos::symbol::Symbol;
/// A `LitKind`-like enum to fold constant `Expr`s into.
#[derive(Debug, Clone)]
impl PartialEq for Constant {
fn eq(&self, other: &Self) -> bool {
match (self, other) {
- (&Constant::Str(ref ls), &Constant::Str(ref rs)) => ls == rs,
- (&Constant::Binary(ref l), &Constant::Binary(ref r)) => l == r,
- (&Constant::Char(l), &Constant::Char(r)) => l == r,
- (&Constant::Int(l), &Constant::Int(r)) => l == r,
- (&Constant::F64(l), &Constant::F64(r)) => {
+ (&Self::Str(ref ls), &Self::Str(ref rs)) => ls == rs,
+ (&Self::Binary(ref l), &Self::Binary(ref r)) => l == r,
+ (&Self::Char(l), &Self::Char(r)) => l == r,
+ (&Self::Int(l), &Self::Int(r)) => l == r,
+ (&Self::F64(l), &Self::F64(r)) => {
// We want `Fw32 == FwAny` and `FwAny == Fw64`, and by transitivity we must have
// `Fw32 == Fw64`, so don’t compare them.
// `to_bits` is required to catch non-matching 0.0, -0.0, and NaNs.
l.to_bits() == r.to_bits()
},
- (&Constant::F32(l), &Constant::F32(r)) => {
+ (&Self::F32(l), &Self::F32(r)) => {
// We want `Fw32 == FwAny` and `FwAny == Fw64`, and by transitivity we must have
// `Fw32 == Fw64`, so don’t compare them.
// `to_bits` is required to catch non-matching 0.0, -0.0, and NaNs.
f64::from(l).to_bits() == f64::from(r).to_bits()
},
- (&Constant::Bool(l), &Constant::Bool(r)) => l == r,
- (&Constant::Vec(ref l), &Constant::Vec(ref r)) | (&Constant::Tuple(ref l), &Constant::Tuple(ref r)) => {
- l == r
- },
- (&Constant::Repeat(ref lv, ref ls), &Constant::Repeat(ref rv, ref rs)) => ls == rs && lv == rv,
+ (&Self::Bool(l), &Self::Bool(r)) => l == r,
+ (&Self::Vec(ref l), &Self::Vec(ref r)) | (&Self::Tuple(ref l), &Self::Tuple(ref r)) => l == r,
+ (&Self::Repeat(ref lv, ref ls), &Self::Repeat(ref rv, ref rs)) => ls == rs && lv == rv,
// TODO: are there inter-type equalities?
_ => false,
}
{
std::mem::discriminant(self).hash(state);
match *self {
- Constant::Str(ref s) => {
+ Self::Str(ref s) => {
s.hash(state);
},
- Constant::Binary(ref b) => {
+ Self::Binary(ref b) => {
b.hash(state);
},
- Constant::Char(c) => {
+ Self::Char(c) => {
c.hash(state);
},
- Constant::Int(i) => {
+ Self::Int(i) => {
i.hash(state);
},
- Constant::F32(f) => {
+ Self::F32(f) => {
f64::from(f).to_bits().hash(state);
},
- Constant::F64(f) => {
+ Self::F64(f) => {
f.to_bits().hash(state);
},
- Constant::Bool(b) => {
+ Self::Bool(b) => {
b.hash(state);
},
- Constant::Vec(ref v) | Constant::Tuple(ref v) => {
+ Self::Vec(ref v) | Self::Tuple(ref v) => {
v.hash(state);
},
- Constant::Repeat(ref c, l) => {
+ Self::Repeat(ref c, l) => {
c.hash(state);
l.hash(state);
},
- Constant::RawPtr(u) => {
+ Self::RawPtr(u) => {
u.hash(state);
},
- Constant::Err(ref s) => {
+ Self::Err(ref s) => {
s.hash(state);
},
}
}
impl Constant {
- pub fn partial_cmp(tcx: TyCtxt<'_, '_, '_>, cmp_type: Ty<'_>, left: &Self, right: &Self) -> Option<Ordering> {
+ pub fn partial_cmp(tcx: TyCtxt<'_>, cmp_type: Ty<'_>, left: &Self, right: &Self) -> Option<Ordering> {
match (left, right) {
- (&Constant::Str(ref ls), &Constant::Str(ref rs)) => Some(ls.cmp(rs)),
- (&Constant::Char(ref l), &Constant::Char(ref r)) => Some(l.cmp(r)),
- (&Constant::Int(l), &Constant::Int(r)) => {
+ (&Self::Str(ref ls), &Self::Str(ref rs)) => Some(ls.cmp(rs)),
+ (&Self::Char(ref l), &Self::Char(ref r)) => Some(l.cmp(r)),
+ (&Self::Int(l), &Self::Int(r)) => {
if let ty::Int(int_ty) = cmp_type.sty {
Some(sext(tcx, l, int_ty).cmp(&sext(tcx, r, int_ty)))
} else {
Some(l.cmp(&r))
}
},
- (&Constant::F64(l), &Constant::F64(r)) => l.partial_cmp(&r),
- (&Constant::F32(l), &Constant::F32(r)) => l.partial_cmp(&r),
- (&Constant::Bool(ref l), &Constant::Bool(ref r)) => Some(l.cmp(r)),
- (&Constant::Tuple(ref l), &Constant::Tuple(ref r)) | (&Constant::Vec(ref l), &Constant::Vec(ref r)) => l
+ (&Self::F64(l), &Self::F64(r)) => l.partial_cmp(&r),
+ (&Self::F32(l), &Self::F32(r)) => l.partial_cmp(&r),
+ (&Self::Bool(ref l), &Self::Bool(ref r)) => Some(l.cmp(r)),
+ (&Self::Tuple(ref l), &Self::Tuple(ref r)) | (&Self::Vec(ref l), &Self::Vec(ref r)) => l
.iter()
.zip(r.iter())
.map(|(li, ri)| Self::partial_cmp(tcx, cmp_type, li, ri))
.find(|r| r.map_or(true, |o| o != Ordering::Equal))
.unwrap_or_else(|| Some(l.len().cmp(&r.len()))),
- (&Constant::Repeat(ref lv, ref ls), &Constant::Repeat(ref rv, ref rs)) => {
+ (&Self::Repeat(ref lv, ref ls), &Self::Repeat(ref rv, ref rs)) => {
match Self::partial_cmp(tcx, cmp_type, lv, rv) {
Some(Equal) => Some(ls.cmp(rs)),
x => x,
}
/// Parses a `LitKind` to a `Constant`.
-pub fn lit_to_constant<'tcx>(lit: &LitKind, ty: Ty<'tcx>) -> Constant {
+pub fn lit_to_constant(lit: &LitKind, ty: Ty<'_>) -> Constant {
use syntax::ast::*;
match *lit {
}
}
-pub struct ConstEvalLateContext<'a, 'tcx: 'a> {
+pub struct ConstEvalLateContext<'a, 'tcx> {
lcx: &'a LateContext<'a, 'tcx>,
tables: &'a ty::TypeckTables<'tcx>,
param_env: ty::ParamEnv<'tcx>,
ExprKind::Tup(ref tup) => self.multi(tup).map(Constant::Tuple),
ExprKind::Repeat(ref value, _) => {
let n = match self.tables.expr_ty(e).sty {
- ty::Array(_, n) => n.assert_usize(self.lcx.tcx).expect("array length"),
+ ty::Array(_, n) => n.eval_usize(self.lcx.tcx, self.lcx.param_env),
_ => span_bug!(e.span, "typeck error"),
};
self.expr(value).map(|v| Constant::Repeat(Box::new(v), n))
if let ExprKind::Path(qpath) = &callee.node;
let res = self.tables.qpath_res(qpath, callee.hir_id);
if let Some(def_id) = res.opt_def_id();
- let def_path = self.lcx.get_def_path(def_id)
+ let get_def_path = self.lcx.get_def_path(def_id, );
+ let def_path = get_def_path
.iter()
- .map(LocalInternedString::get)
+ .copied()
+ .map(Symbol::as_str)
.collect::<Vec<_>>();
- if let &["core", "num", impl_ty, "max_value"] = &def_path[..];
+ if def_path[0] == "core";
+ if def_path[1] == "num";
+ if def_path[3] == "max_value";
+ if def_path.len() == 4;
then {
- let value = match impl_ty {
+ let value = match &*def_path[2] {
"<impl i8>" => i8::max_value() as u128,
"<impl i16>" => i16::max_value() as u128,
"<impl i32>" => i32::max_value() as u128,
};
let result = self.lcx.tcx.const_eval(self.param_env.and(gid)).ok()?;
- let result = miri_to_const(self.lcx.tcx, &result);
+ let result = miri_to_const(&result);
if result.is_some() {
self.needed_resolution = true;
}
}
}
-pub fn miri_to_const<'a, 'tcx>(tcx: TyCtxt<'a, 'tcx, 'tcx>, result: &ty::Const<'tcx>) -> Option<Constant> {
+pub fn miri_to_const(result: &ty::Const<'_>) -> Option<Constant> {
use rustc::mir::interpret::{ConstValue, Scalar};
match result.val {
- ConstValue::Scalar(Scalar::Bits { bits: b, .. }) => match result.ty.sty {
- ty::Bool => Some(Constant::Bool(b == 1)),
- ty::Uint(_) | ty::Int(_) => Some(Constant::Int(b)),
+ ConstValue::Scalar(Scalar::Raw { data: d, .. }) => match result.ty.sty {
+ ty::Bool => Some(Constant::Bool(d == 1)),
+ ty::Uint(_) | ty::Int(_) => Some(Constant::Int(d)),
ty::Float(FloatTy::F32) => Some(Constant::F32(f32::from_bits(
- b.try_into().expect("invalid f32 bit representation"),
+ d.try_into().expect("invalid f32 bit representation"),
))),
ty::Float(FloatTy::F64) => Some(Constant::F64(f64::from_bits(
- b.try_into().expect("invalid f64 bit representation"),
+ d.try_into().expect("invalid f64 bit representation"),
))),
ty::RawPtr(type_and_mut) => {
if let ty::Uint(_) = type_and_mut.ty.sty {
- return Some(Constant::RawPtr(b));
+ return Some(Constant::RawPtr(d));
}
None
},
// FIXME: implement other conversions.
_ => None,
},
- ConstValue::Slice(Scalar::Ptr(ptr), n) => match result.ty.sty {
+ ConstValue::Slice { data, start, end } => match result.ty.sty {
ty::Ref(_, tam, _) => match tam.sty {
- ty::Str => {
- let alloc = tcx.alloc_map.lock().unwrap_memory(ptr.alloc_id);
- let offset = ptr.offset.bytes().try_into().expect("too-large pointer offset");
- let n = usize::try_from(n).unwrap();
- String::from_utf8(alloc.bytes[offset..(offset + n)].to_owned())
- .ok()
- .map(Constant::Str)
- },
+ ty::Str => String::from_utf8(
+ data.inspect_with_undef_and_ptr_outside_interpreter(start..end)
+ .to_owned(),
+ )
+ .ok()
+ .map(Constant::Str),
_ => None,
},
_ => None,