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error.rs
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// Copyright 2012-2015 The Rust Project Developers. See the COPYRIGHT
// file at the top-level directory of this distribution and at
// http://rust-lang.org/COPYRIGHT.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
use hir::def_id::DefId;
use infer::type_variable;
use ty::{self, BoundRegion, Region, Ty, TyCtxt};
use std::fmt;
use syntax::abi;
use syntax::ast::{self, Name};
use errors::DiagnosticBuilder;
use syntax_pos::Span;
use hir;
#[derive(Clone, Copy, Debug)]
pub struct ExpectedFound<T> {
pub expected: T,
pub found: T
}
// Data structures used in type unification
#[derive(Clone, Debug)]
pub enum TypeError<'tcx> {
Mismatch,
UnsafetyMismatch(ExpectedFound<hir::Unsafety>),
AbiMismatch(ExpectedFound<abi::Abi>),
Mutability,
BoxMutability,
PtrMutability,
RefMutability,
VecMutability,
TupleSize(ExpectedFound<usize>),
FixedArraySize(ExpectedFound<usize>),
TyParamSize(ExpectedFound<usize>),
ArgCount,
RegionsDoesNotOutlive(&'tcx Region, &'tcx Region),
RegionsNotSame(&'tcx Region, &'tcx Region),
RegionsNoOverlap(&'tcx Region, &'tcx Region),
RegionsInsufficientlyPolymorphic(BoundRegion, &'tcx Region),
RegionsOverlyPolymorphic(BoundRegion, &'tcx Region),
Sorts(ExpectedFound<Ty<'tcx>>),
IntegerAsChar,
IntMismatch(ExpectedFound<ty::IntVarValue>),
FloatMismatch(ExpectedFound<ast::FloatTy>),
Traits(ExpectedFound<DefId>),
BuiltinBoundsMismatch(ExpectedFound<ty::BuiltinBounds>),
VariadicMismatch(ExpectedFound<bool>),
CyclicTy,
ConvergenceMismatch(ExpectedFound<bool>),
ProjectionNameMismatched(ExpectedFound<Name>),
ProjectionBoundsLength(ExpectedFound<usize>),
TyParamDefaultMismatch(ExpectedFound<type_variable::Default<'tcx>>)
}
#[derive(Clone, RustcEncodable, RustcDecodable, PartialEq, Eq, Hash, Debug, Copy)]
pub enum UnconstrainedNumeric {
UnconstrainedFloat,
UnconstrainedInt,
Neither,
}
/// Explains the source of a type err in a short, human readable way. This is meant to be placed
/// in parentheses after some larger message. You should also invoke `note_and_explain_type_err()`
/// afterwards to present additional details, particularly when it comes to lifetime-related
/// errors.
impl<'tcx> fmt::Display for TypeError<'tcx> {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
use self::TypeError::*;
fn report_maybe_different(f: &mut fmt::Formatter,
expected: String, found: String) -> fmt::Result {
// A naive approach to making sure that we're not reporting silly errors such as:
// (expected closure, found closure).
if expected == found {
write!(f, "expected {}, found a different {}", expected, found)
} else {
write!(f, "expected {}, found {}", expected, found)
}
}
match *self {
CyclicTy => write!(f, "cyclic type of infinite size"),
Mismatch => write!(f, "types differ"),
UnsafetyMismatch(values) => {
write!(f, "expected {} fn, found {} fn",
values.expected,
values.found)
}
AbiMismatch(values) => {
write!(f, "expected {} fn, found {} fn",
values.expected,
values.found)
}
Mutability => write!(f, "types differ in mutability"),
BoxMutability => {
write!(f, "boxed types differ in mutability")
}
VecMutability => write!(f, "vectors differ in mutability"),
PtrMutability => write!(f, "pointers differ in mutability"),
RefMutability => write!(f, "references differ in mutability"),
TyParamSize(values) => {
write!(f, "expected a type with {} type params, \
found one with {} type params",
values.expected,
values.found)
}
FixedArraySize(values) => {
write!(f, "expected an array with a fixed size of {} elements, \
found one with {} elements",
values.expected,
values.found)
}
TupleSize(values) => {
write!(f, "expected a tuple with {} elements, \
found one with {} elements",
values.expected,
values.found)
}
ArgCount => {
write!(f, "incorrect number of function parameters")
}
RegionsDoesNotOutlive(..) => {
write!(f, "lifetime mismatch")
}
RegionsNotSame(..) => {
write!(f, "lifetimes are not the same")
}
RegionsNoOverlap(..) => {
write!(f, "lifetimes do not intersect")
}
RegionsInsufficientlyPolymorphic(br, _) => {
write!(f, "expected bound lifetime parameter {}, \
found concrete lifetime", br)
}
RegionsOverlyPolymorphic(br, _) => {
write!(f, "expected concrete lifetime, \
found bound lifetime parameter {}", br)
}
Sorts(values) => ty::tls::with(|tcx| {
report_maybe_different(f, values.expected.sort_string(tcx),
values.found.sort_string(tcx))
}),
Traits(values) => ty::tls::with(|tcx| {
report_maybe_different(f,
format!("trait `{}`",
tcx.item_path_str(values.expected)),
format!("trait `{}`",
tcx.item_path_str(values.found)))
}),
BuiltinBoundsMismatch(values) => {
if values.expected.is_empty() {
write!(f, "expected no bounds, found `{}`",
values.found)
} else if values.found.is_empty() {
write!(f, "expected bounds `{}`, found no bounds",
values.expected)
} else {
write!(f, "expected bounds `{}`, found bounds `{}`",
values.expected,
values.found)
}
}
IntegerAsChar => {
write!(f, "expected an integral type, found `char`")
}
IntMismatch(ref values) => {
write!(f, "expected `{:?}`, found `{:?}`",
values.expected,
values.found)
}
FloatMismatch(ref values) => {
write!(f, "expected `{:?}`, found `{:?}`",
values.expected,
values.found)
}
VariadicMismatch(ref values) => {
write!(f, "expected {} fn, found {} function",
if values.expected { "variadic" } else { "non-variadic" },
if values.found { "variadic" } else { "non-variadic" })
}
ConvergenceMismatch(ref values) => {
write!(f, "expected {} fn, found {} function",
if values.expected { "converging" } else { "diverging" },
if values.found { "converging" } else { "diverging" })
}
ProjectionNameMismatched(ref values) => {
write!(f, "expected {}, found {}",
values.expected,
values.found)
}
ProjectionBoundsLength(ref values) => {
write!(f, "expected {} associated type bindings, found {}",
values.expected,
values.found)
},
TyParamDefaultMismatch(ref values) => {
write!(f, "conflicting type parameter defaults `{}` and `{}`",
values.expected.ty,
values.found.ty)
}
}
}
}
impl<'a, 'gcx, 'lcx, 'tcx> ty::TyS<'tcx> {
pub fn sort_string(&self, tcx: TyCtxt<'a, 'gcx, 'lcx>) -> String {
match self.sty {
ty::TyBool | ty::TyChar | ty::TyInt(_) |
ty::TyUint(_) | ty::TyFloat(_) | ty::TyStr | ty::TyNever => self.to_string(),
ty::TyTuple(ref tys) if tys.is_empty() => self.to_string(),
ty::TyAdt(def, _) => format!("{} `{}`", def.descr(), tcx.item_path_str(def.did)),
ty::TyBox(_) => "box".to_string(),
ty::TyArray(_, n) => format!("array of {} elements", n),
ty::TySlice(_) => "slice".to_string(),
ty::TyRawPtr(_) => "*-ptr".to_string(),
ty::TyRef(region, tymut) => {
let tymut_string = tymut.to_string();
if tymut_string == "_" || //unknown type name,
tymut_string.len() > 10 || //name longer than saying "reference",
region.to_string() != "" //... or a complex type
{
match tymut {
ty::TypeAndMut{mutbl, ..} => {
format!("{}reference", match mutbl {
hir::Mutability::MutMutable => "mutable ",
_ => ""
})
}
}
} else {
format!("&{}", tymut_string)
}
}
ty::TyFnDef(..) => format!("fn item"),
ty::TyFnPtr(_) => "fn pointer".to_string(),
ty::TyTrait(ref inner) => {
format!("trait {}", tcx.item_path_str(inner.principal.def_id()))
}
ty::TyClosure(..) => "closure".to_string(),
ty::TyTuple(_) => "tuple".to_string(),
ty::TyInfer(ty::TyVar(_)) => "inferred type".to_string(),
ty::TyInfer(ty::IntVar(_)) => "integral variable".to_string(),
ty::TyInfer(ty::FloatVar(_)) => "floating-point variable".to_string(),
ty::TyInfer(ty::FreshTy(_)) => "skolemized type".to_string(),
ty::TyInfer(ty::FreshIntTy(_)) => "skolemized integral type".to_string(),
ty::TyInfer(ty::FreshFloatTy(_)) => "skolemized floating-point type".to_string(),
ty::TyProjection(_) => "associated type".to_string(),
ty::TyParam(ref p) => {
if p.is_self() {
"Self".to_string()
} else {
"type parameter".to_string()
}
}
ty::TyAnon(..) => "anonymized type".to_string(),
ty::TyError => "type error".to_string(),
}
}
}
impl<'a, 'gcx, 'tcx> TyCtxt<'a, 'gcx, 'tcx> {
pub fn note_and_explain_type_err(self,
db: &mut DiagnosticBuilder,
err: &TypeError<'tcx>,
sp: Span) {
use self::TypeError::*;
match err.clone() {
RegionsDoesNotOutlive(subregion, superregion) => {
self.note_and_explain_region(db, "", subregion, "...");
self.note_and_explain_region(db, "...does not necessarily outlive ",
superregion, "");
}
RegionsNotSame(region1, region2) => {
self.note_and_explain_region(db, "", region1, "...");
self.note_and_explain_region(db, "...is not the same lifetime as ",
region2, "");
}
RegionsNoOverlap(region1, region2) => {
self.note_and_explain_region(db, "", region1, "...");
self.note_and_explain_region(db, "...does not overlap ",
region2, "");
}
RegionsInsufficientlyPolymorphic(_, conc_region) => {
self.note_and_explain_region(db, "concrete lifetime that was found is ",
conc_region, "");
}
RegionsOverlyPolymorphic(_, &ty::ReVar(_)) => {
// don't bother to print out the message below for
// inference variables, it's not very illuminating.
}
RegionsOverlyPolymorphic(_, conc_region) => {
self.note_and_explain_region(db, "expected concrete lifetime is ",
conc_region, "");
}
Sorts(values) => {
let expected_str = values.expected.sort_string(self);
let found_str = values.found.sort_string(self);
if expected_str == found_str && expected_str == "closure" {
db.span_note(sp,
"no two closures, even if identical, have the same type");
db.span_help(sp,
"consider boxing your closure and/or using it as a trait object");
}
},
TyParamDefaultMismatch(values) => {
let expected = values.expected;
let found = values.found;
db.span_note(sp, &format!("conflicting type parameter defaults `{}` and `{}`",
expected.ty,
found.ty));
match
self.map.as_local_node_id(expected.def_id)
.and_then(|node_id| self.map.opt_span(node_id))
{
Some(span) => {
db.span_note(span, "a default was defined here...");
}
None => {
db.note(&format!("a default is defined on `{}`",
self.item_path_str(expected.def_id)));
}
}
db.span_note(
expected.origin_span,
"...that was applied to an unconstrained type variable here");
match
self.map.as_local_node_id(found.def_id)
.and_then(|node_id| self.map.opt_span(node_id))
{
Some(span) => {
db.span_note(span, "a second default was defined here...");
}
None => {
db.note(&format!("a second default is defined on `{}`",
self.item_path_str(found.def_id)));
}
}
db.span_note(found.origin_span,
"...that also applies to the same type variable here");
}
_ => {}
}
}
}