use crate::ty::print::{with_forced_trimmed_paths, FmtPrinter, PrettyPrinter};
use crate::ty::{self, BoundRegionKind, Region, Ty, TyCtxt};
use rustc_errors::pluralize;
use rustc_hir as hir;
use rustc_hir::def::{CtorOf, DefKind};
use rustc_hir::def_id::DefId;
use rustc_span::symbol::Symbol;
use rustc_target::spec::abi;
use std::borrow::Cow;
use std::hash::{DefaultHasher, Hash, Hasher};
use std::path::PathBuf;
#[derive(Clone, Copy, Debug, PartialEq, Eq, TypeFoldable, TypeVisitable)]
pub struct ExpectedFound<T> {
pub expected: T,
pub found: T,
}
impl<T> ExpectedFound<T> {
pub fn new(a_is_expected: bool, a: T, b: T) -> Self {
if a_is_expected {
ExpectedFound { expected: a, found: b }
} else {
ExpectedFound { expected: b, found: a }
}
}
}
#[derive(Copy, Clone, Debug, TypeVisitable, PartialEq, Eq)]
#[rustc_pass_by_value]
pub enum TypeError<'tcx> {
Mismatch,
ConstnessMismatch(ExpectedFound<ty::BoundConstness>),
PolarityMismatch(ExpectedFound<ty::ImplPolarity>),
UnsafetyMismatch(ExpectedFound<hir::Unsafety>),
AbiMismatch(ExpectedFound<abi::Abi>),
Mutability,
ArgumentMutability(usize),
TupleSize(ExpectedFound<usize>),
FixedArraySize(ExpectedFound<u64>),
ArgCount,
FieldMisMatch(Symbol, Symbol),
RegionsDoesNotOutlive(Region<'tcx>, Region<'tcx>),
RegionsInsufficientlyPolymorphic(BoundRegionKind, Region<'tcx>),
RegionsPlaceholderMismatch,
Sorts(ExpectedFound<Ty<'tcx>>),
ArgumentSorts(ExpectedFound<Ty<'tcx>>, usize),
IntMismatch(ExpectedFound<ty::IntVarValue>),
FloatMismatch(ExpectedFound<ty::FloatTy>),
Traits(ExpectedFound<DefId>),
VariadicMismatch(ExpectedFound<bool>),
CyclicTy(Ty<'tcx>),
CyclicConst(ty::Const<'tcx>),
ProjectionMismatched(ExpectedFound<DefId>),
ExistentialMismatch(ExpectedFound<&'tcx ty::List<ty::PolyExistentialPredicate<'tcx>>>),
ConstMismatch(ExpectedFound<ty::Const<'tcx>>),
IntrinsicCast,
TargetFeatureCast(DefId),
}
impl TypeError<'_> {
pub fn involves_regions(self) -> bool {
match self {
TypeError::RegionsDoesNotOutlive(_, _)
| TypeError::RegionsInsufficientlyPolymorphic(_, _)
| TypeError::RegionsPlaceholderMismatch => true,
_ => false,
}
}
}
impl<'tcx> TypeError<'tcx> {
pub fn to_string(self, tcx: TyCtxt<'tcx>) -> Cow<'static, str> {
use self::TypeError::*;
fn report_maybe_different(expected: &str, found: &str) -> String {
if expected == found {
format!("expected {expected}, found a different {found}")
} else {
format!("expected {expected}, found {found}")
}
}
match self {
CyclicTy(_) => "cyclic type of infinite size".into(),
CyclicConst(_) => "encountered a self-referencing constant".into(),
Mismatch => "types differ".into(),
ConstnessMismatch(values) => {
format!("expected {} bound, found {} bound", values.expected, values.found).into()
}
PolarityMismatch(values) => {
format!("expected {} polarity, found {} polarity", values.expected, values.found)
.into()
}
UnsafetyMismatch(values) => {
format!("expected {} fn, found {} fn", values.expected, values.found).into()
}
AbiMismatch(values) => {
format!("expected {} fn, found {} fn", values.expected, values.found).into()
}
ArgumentMutability(_) | Mutability => "types differ in mutability".into(),
TupleSize(values) => format!(
"expected a tuple with {} element{}, found one with {} element{}",
values.expected,
pluralize!(values.expected),
values.found,
pluralize!(values.found)
)
.into(),
FixedArraySize(values) => format!(
"expected an array with a fixed size of {} element{}, found one with {} element{}",
values.expected,
pluralize!(values.expected),
values.found,
pluralize!(values.found)
)
.into(),
ArgCount => "incorrect number of function parameters".into(),
FieldMisMatch(adt, field) => format!("field type mismatch: {adt}.{field}").into(),
RegionsDoesNotOutlive(..) => "lifetime mismatch".into(),
RegionsInsufficientlyPolymorphic(..) => {
"one type is more general than the other".into()
}
RegionsPlaceholderMismatch => "one type is more general than the other".into(),
ArgumentSorts(values, _) | Sorts(values) => {
let expected = values.expected.sort_string(tcx);
let found = values.found.sort_string(tcx);
report_maybe_different(&expected, &found).into()
}
Traits(values) => {
let (mut expected, mut found) = with_forced_trimmed_paths!((
tcx.def_path_str(values.expected),
tcx.def_path_str(values.found),
));
if expected == found {
expected = tcx.def_path_str(values.expected);
found = tcx.def_path_str(values.found);
}
report_maybe_different(&format!("trait `{expected}`"), &format!("trait `{found}`"))
.into()
}
IntMismatch(ref values) => {
let expected = match values.expected {
ty::IntVarValue::IntType(ty) => ty.name_str(),
ty::IntVarValue::UintType(ty) => ty.name_str(),
};
let found = match values.found {
ty::IntVarValue::IntType(ty) => ty.name_str(),
ty::IntVarValue::UintType(ty) => ty.name_str(),
};
format!("expected `{expected}`, found `{found}`").into()
}
FloatMismatch(ref values) => format!(
"expected `{}`, found `{}`",
values.expected.name_str(),
values.found.name_str()
)
.into(),
VariadicMismatch(ref values) => format!(
"expected {} fn, found {} function",
if values.expected { "variadic" } else { "non-variadic" },
if values.found { "variadic" } else { "non-variadic" }
)
.into(),
ProjectionMismatched(ref values) => format!(
"expected `{}`, found `{}`",
tcx.def_path_str(values.expected),
tcx.def_path_str(values.found)
)
.into(),
ExistentialMismatch(ref values) => report_maybe_different(
&format!("trait `{}`", values.expected),
&format!("trait `{}`", values.found),
)
.into(),
ConstMismatch(ref values) => {
format!("expected `{}`, found `{}`", values.expected, values.found).into()
}
IntrinsicCast => "cannot coerce intrinsics to function pointers".into(),
TargetFeatureCast(_) => {
"cannot coerce functions with `#[target_feature]` to safe function pointers".into()
}
}
}
}
impl<'tcx> TypeError<'tcx> {
pub fn must_include_note(self) -> bool {
use self::TypeError::*;
match self {
CyclicTy(_) | CyclicConst(_) | UnsafetyMismatch(_) | ConstnessMismatch(_)
| PolarityMismatch(_) | Mismatch | AbiMismatch(_) | FixedArraySize(_)
| ArgumentSorts(..) | Sorts(_) | IntMismatch(_) | FloatMismatch(_)
| VariadicMismatch(_) | TargetFeatureCast(_) => false,
Mutability
| ArgumentMutability(_)
| TupleSize(_)
| ArgCount
| FieldMisMatch(..)
| RegionsDoesNotOutlive(..)
| RegionsInsufficientlyPolymorphic(..)
| RegionsPlaceholderMismatch
| Traits(_)
| ProjectionMismatched(_)
| ExistentialMismatch(_)
| ConstMismatch(_)
| IntrinsicCast => true,
}
}
}
impl<'tcx> Ty<'tcx> {
pub fn sort_string(self, tcx: TyCtxt<'tcx>) -> Cow<'static, str> {
match *self.kind() {
ty::Foreign(def_id) => format!("extern type `{}`", tcx.def_path_str(def_id)).into(),
ty::FnDef(def_id, ..) => match tcx.def_kind(def_id) {
DefKind::Ctor(CtorOf::Struct, _) => "struct constructor".into(),
DefKind::Ctor(CtorOf::Variant, _) => "enum constructor".into(),
_ => "fn item".into(),
},
ty::FnPtr(_) => "fn pointer".into(),
ty::Dynamic(inner, ..) if let Some(principal) = inner.principal() => {
format!("`dyn {}`", tcx.def_path_str(principal.def_id())).into()
}
ty::Dynamic(..) => "trait object".into(),
ty::Closure(..) => "closure".into(),
ty::Coroutine(def_id, ..) => {
format!("{:#}", tcx.coroutine_kind(def_id).unwrap()).into()
}
ty::CoroutineWitness(..) => "coroutine witness".into(),
ty::Infer(ty::TyVar(_)) => "inferred type".into(),
ty::Infer(ty::IntVar(_)) => "integer".into(),
ty::Infer(ty::FloatVar(_)) => "floating-point number".into(),
ty::Placeholder(..) => "placeholder type".into(),
ty::Bound(..) => "bound type".into(),
ty::Infer(ty::FreshTy(_)) => "fresh type".into(),
ty::Infer(ty::FreshIntTy(_)) => "fresh integral type".into(),
ty::Infer(ty::FreshFloatTy(_)) => "fresh floating-point type".into(),
ty::Alias(ty::Projection | ty::Inherent, _) => "associated type".into(),
ty::Param(p) => format!("type parameter `{p}`").into(),
ty::Alias(ty::Opaque, ..) => {
if tcx.ty_is_opaque_future(self) {
"future".into()
} else {
"opaque type".into()
}
}
ty::Error(_) => "type error".into(),
_ => {
let width = tcx.sess.diagnostic_width();
let length_limit = std::cmp::max(width / 4, 15);
format!("`{}`", tcx.ty_string_with_limit(self, length_limit)).into()
}
}
}
pub fn prefix_string(self, tcx: TyCtxt<'_>) -> Cow<'static, str> {
match *self.kind() {
ty::Infer(_)
| ty::Error(_)
| ty::Bool
| ty::Char
| ty::Int(_)
| ty::Uint(_)
| ty::Float(_)
| ty::Str
| ty::Never => "type".into(),
ty::Tuple(tys) if tys.is_empty() => "unit type".into(),
ty::Adt(def, _) => def.descr().into(),
ty::Foreign(_) => "extern type".into(),
ty::Array(..) => "array".into(),
ty::Slice(_) => "slice".into(),
ty::RawPtr(_) => "raw pointer".into(),
ty::Ref(.., mutbl) => match mutbl {
hir::Mutability::Mut => "mutable reference",
_ => "reference",
}
.into(),
ty::FnDef(def_id, ..) => match tcx.def_kind(def_id) {
DefKind::Ctor(CtorOf::Struct, _) => "struct constructor".into(),
DefKind::Ctor(CtorOf::Variant, _) => "enum constructor".into(),
_ => "fn item".into(),
},
ty::FnPtr(_) => "fn pointer".into(),
ty::Dynamic(..) => "trait object".into(),
ty::Closure(..) | ty::CoroutineClosure(..) => "closure".into(),
ty::Coroutine(def_id, ..) => {
format!("{:#}", tcx.coroutine_kind(def_id).unwrap()).into()
}
ty::CoroutineWitness(..) => "coroutine witness".into(),
ty::Tuple(..) => "tuple".into(),
ty::Placeholder(..) => "higher-ranked type".into(),
ty::Bound(..) => "bound type variable".into(),
ty::Alias(ty::Projection | ty::Inherent, _) => "associated type".into(),
ty::Alias(ty::Weak, _) => "type alias".into(),
ty::Param(_) => "type parameter".into(),
ty::Alias(ty::Opaque, ..) => "opaque type".into(),
}
}
}
impl<'tcx> TyCtxt<'tcx> {
pub fn ty_string_with_limit(self, ty: Ty<'tcx>, length_limit: usize) -> String {
let mut type_limit = 50;
let regular = FmtPrinter::print_string(self, hir::def::Namespace::TypeNS, |cx| {
cx.pretty_print_type(ty)
})
.expect("could not write to `String`");
if regular.len() <= length_limit {
return regular;
}
let mut short;
loop {
short = with_forced_trimmed_paths!({
let mut cx = FmtPrinter::new_with_limit(
self,
hir::def::Namespace::TypeNS,
rustc_session::Limit(type_limit),
);
cx.pretty_print_type(ty).expect("could not write to `String`");
cx.into_buffer()
});
if short.len() <= length_limit || type_limit == 0 {
break;
}
type_limit -= 1;
}
short
}
pub fn short_ty_string(self, ty: Ty<'tcx>, path: &mut Option<PathBuf>) -> String {
let regular = FmtPrinter::print_string(self, hir::def::Namespace::TypeNS, |cx| {
cx.pretty_print_type(ty)
})
.expect("could not write to `String`");
if !self.sess.opts.unstable_opts.write_long_types_to_disk || self.sess.opts.verbose {
return regular;
}
let width = self.sess.diagnostic_width();
let length_limit = width.saturating_sub(30);
if regular.len() <= width {
return regular;
}
let short = self.ty_string_with_limit(ty, length_limit);
if regular == short {
return regular;
}
let mut s = DefaultHasher::new();
ty.hash(&mut s);
let hash = s.finish();
*path = Some(path.take().unwrap_or_else(|| {
self.output_filenames(()).temp_path_ext(&format!("long-type-{hash}.txt"), None)
}));
match std::fs::write(path.as_ref().unwrap(), &format!("{regular}\n")) {
Ok(_) => short,
Err(_) => regular,
}
}
}