Review changes

This commit is contained in:
Nick Cameron 2014-12-16 16:25:33 +13:00
parent e840e49b21
commit e82215d4e2
9 changed files with 139 additions and 89 deletions

View File

@ -2542,6 +2542,64 @@ impl<A: Int> Iterator<A> for RangeStepInclusive<A> {
}
}
/// The `Step` trait identifies objects which can be stepped over in both
/// directions. The `steps_between` function provides a way to
/// compare two Step objects (it could be provided using `step()` and `Ord`,
/// but the implementation would be so inefficient as to be useless).
#[unstable = "Trait is unstable."]
pub trait Step: Ord {
/// Change self to the next object.
fn step(&mut self);
/// Change self to the previous object.
fn step_back(&mut self);
/// The steps_between two step objects.
/// a should always be less than b, so the result should never be negative.
/// Return None if it is not possible to calculate steps_between without
/// overflow.
fn steps_between(a: &Self, b: &Self) -> Option<uint>;
}
macro_rules! step_impl {
($($t:ty)*) => ($(
#[unstable = "Trait is unstable."]
impl Step for $t {
#[inline]
fn step(&mut self) { *self += 1; }
#[inline]
fn step_back(&mut self) { *self -= 1; }
#[inline]
fn steps_between(a: &$t, b: &$t) -> Option<uint> {
debug_assert!(a < b);
Some((*a - *b) as uint)
}
}
)*)
}
macro_rules! step_impl_no_between {
($($t:ty)*) => ($(
#[unstable = "Trait is unstable."]
impl Step for $t {
#[inline]
fn step(&mut self) { *self += 1; }
#[inline]
fn step_back(&mut self) { *self -= 1; }
#[inline]
fn steps_between(_a: &$t, _b: &$t) -> Option<uint> {
None
}
}
)*)
}
step_impl!(uint u8 u16 u32 int i8 i16 i32);
#[cfg(target_word_size = "64")]
step_impl!(u64 i64);
#[cfg(target_word_size = "32")]
step_impl_no_between!(u64 i64);
/// An iterator that repeats an element endlessly
#[deriving(Clone)]
#[stable]

View File

@ -52,10 +52,8 @@
//! something to the screen.
use clone::Clone;
use cmp::Ord;
use iter::{Iterator,DoubleEndedIterator};
use iter::{Step, Iterator,DoubleEndedIterator,ExactSizeIterator};
use kinds::Sized;
use kinds::Copy;
use option::Option::{mod, Some, None};
/// The `Drop` trait is used to run some code when a value goes out of scope. This
@ -839,53 +837,13 @@ pub trait SliceMut<Sized? Idx, Sized? Result> for Sized? {
}
/// REVIEW could be in a better module
/// The `Countable` trait identifies objects which are countable, i.e., are
/// analogous to the natural numbers. A countable object can be incremented and
/// and decremented and ordered. The `difference` function provides a way to
/// compare two Countable objects (it could be provided using increment and Ord,
/// but the implementation would be so inefficient as to be useless).
#[unstable = "Trait is unstable."]
pub trait Countable: Ord {
// FIXME(#19391) needs a snapshot
//type T;
/// Change self to the next object.
fn increment(&mut self);
/// Change self to the previous object.
fn decrement(&mut self);
/// The difference between two countable objects.
/// Temporarily a uint, should be an associated type, but
// FIXME(#19391) needs a snapshot
fn difference(a: &Self, b: &Self) -> uint;
//fn difference(a: &Self, b: &Self) -> <Self as Countable>::T;
}
macro_rules! countable_impl(
($($t:ty)*) => ($(
#[unstable = "Trait is unstable."]
impl Countable for $t {
// FIXME(#19391) needs a snapshot
//type T = uint;
#[inline]
fn increment(&mut self) { *self += 1; }
#[inline]
fn decrement(&mut self) { *self -= 1; }
#[inline]
fn difference(a: &$t, b: &$t) -> uint { (*a - *b) as uint }
}
)*)
)
countable_impl!(uint u8 u16 u32 u64 int i8 i16 i32 i64)
/// An unbounded range.
#[deriving(Copy)]
#[lang="full_range"]
pub struct FullRange;
/// A range which i bounded at both ends.
/// A (half-open) range which is bounded at both ends.
#[deriving(Copy)]
#[lang="range"]
pub struct Range<Idx> {
/// The lower bound of the range (inclusive).
@ -895,13 +853,13 @@ pub struct Range<Idx> {
}
// FIXME(#19391) needs a snapshot
//impl<Idx: Clone + Countable<T=uint>> Iterator<Idx> for Range<Idx> {
impl<Idx: Clone + Countable> Iterator<Idx> for Range<Idx> {
//impl<Idx: Clone + Step<T=uint>> Iterator<Idx> for Range<Idx> {
impl<Idx: Clone + Step> Iterator<Idx> for Range<Idx> {
#[inline]
fn next(&mut self) -> Option<Idx> {
if self.start < self.end {
let result = self.start.clone();
self.start.increment();
self.start.step();
return Some(result);
}
@ -910,16 +868,19 @@ impl<Idx: Clone + Countable> Iterator<Idx> for Range<Idx> {
#[inline]
fn size_hint(&self) -> (uint, Option<uint>) {
let hint = Countable::difference(&self.end, &self.start);
if let Some(hint) = Step::steps_between(&self.end, &self.start) {
(hint, Some(hint))
} else {
(0, None)
}
}
}
impl<Idx: Clone + Countable> DoubleEndedIterator<Idx> for Range<Idx> {
impl<Idx: Clone + Step> DoubleEndedIterator<Idx> for Range<Idx> {
#[inline]
fn next_back(&mut self) -> Option<Idx> {
if self.start < self.end {
self.end.decrement();
self.end.step_back();
return Some(self.end.clone());
}
@ -927,27 +888,26 @@ impl<Idx: Clone + Countable> DoubleEndedIterator<Idx> for Range<Idx> {
}
}
impl<Idx: Clone + Step> ExactSizeIterator<Idx> for Range<Idx> {}
/// A range which is only bounded below.
#[deriving(Copy)]
#[lang="range_from"]
pub struct RangeFrom<Idx> {
/// The lower bound of the range (inclusive).
pub start: Idx,
}
impl<Idx: Clone + Countable> Iterator<Idx> for RangeFrom<Idx> {
impl<Idx: Clone + Step> Iterator<Idx> for RangeFrom<Idx> {
#[inline]
fn next(&mut self) -> Option<Idx> {
// Deliberately overflow so we loop forever.
let result = self.start.clone();
self.start.increment();
self.start.step();
return Some(result);
}
}
impl<Idx: Copy> Copy for Range<Idx> {}
impl<Idx: Copy> Copy for RangeFrom<Idx> {}
impl Copy for FullRange {}
/// The `Deref` trait is used to specify the functionality of dereferencing
/// operations like `*v`.

View File

@ -34,19 +34,25 @@ fn alloc_obj_with_dtor(b: &mut Bencher) {
#[test]
fn test_range() {
let r = Range { start: 2u, end: 10 };
let mut count = 0u;
for (i, ri) in r.enumerate() {
assert!(ri == i + 2);
assert!(ri >= 2u && ri < 10u);
count += 1;
}
assert!(count == 8);
}
#[test]
fn test_range_from() {
let r = RangeFrom { start: 2u };
let mut count = 0u;
for (i, ri) in r.take(10).enumerate() {
assert!(ri == i + 2);
assert!(ri >= 2u && ri < 12u);
count += 1;
}
assert!(count == 10);
}
#[test]

View File

@ -366,6 +366,7 @@ impl<'a, 'tcx> ErrorReporting<'tcx> for InferCtxt<'a, 'tcx> {
infer::MatchExpressionArm(_, _) => "match arms have incompatible types",
infer::IfExpression(_) => "if and else have incompatible types",
infer::IfExpressionWithNoElse(_) => "if may be missing an else clause",
infer::RangeExpression(_) => "start and end of range have incompatible types",
infer::EquatePredicate(_) => "equality predicate not satisfied",
};
@ -1490,6 +1491,9 @@ impl<'a, 'tcx> ErrorReportingHelpers<'tcx> for InferCtxt<'a, 'tcx> {
infer::IfExpressionWithNoElse(_) => {
format!("if may be missing an else clause")
}
infer::RangeExpression(_) => {
format!("start and end of range have compatible types")
}
infer::EquatePredicate(_) => {
format!("equality where clause is satisfied")
}

View File

@ -127,6 +127,9 @@ pub enum TypeOrigin {
// Computing common supertype of an if expression with no else counter-part
IfExpressionWithNoElse(Span),
// Computing common supertype in a range expression
RangeExpression(Span),
// `where a == b`
EquatePredicate(Span),
}
@ -1084,6 +1087,7 @@ impl TypeOrigin {
MatchExpressionArm(match_span, _) => match_span,
IfExpression(span) => span,
IfExpressionWithNoElse(span) => span,
RangeExpression(span) => span,
EquatePredicate(span) => span,
}
}
@ -1117,6 +1121,9 @@ impl<'tcx> Repr<'tcx> for TypeOrigin {
IfExpressionWithNoElse(a) => {
format!("IfExpressionWithNoElse({})", a.repr(tcx))
}
RangeExpression(a) => {
format!("RangeExpression({})", a.repr(tcx))
}
EquatePredicate(a) => {
format!("EquatePredicate({})", a.repr(tcx))
}

View File

@ -4279,44 +4279,59 @@ fn check_expr_with_unifier<'a, 'tcx, F>(fcx: &FnCtxt<'a, 'tcx>,
}
}
ast::ExprRange(ref start, ref end) => {
let mut some_err = false;
check_expr(fcx, &**start);
let t_start = fcx.expr_ty(&**start);
if ty::type_is_error(t_start) {
fcx.write_ty(start.id, t_start);
some_err = true;
}
if let &Some(ref e) = end {
check_expr_has_type(fcx, &**e, t_start);
let idx_type = if let &Some(ref e) = end {
check_expr(fcx, &**e);
let t_end = fcx.expr_ty(&**e);
if ty::type_is_error(t_end) {
fcx.write_ty(e.id, t_end);
some_err = true;
}
ty::mk_err()
} else if t_start == ty::mk_err() {
ty::mk_err()
} else {
infer::common_supertype(fcx.infcx(),
infer::RangeExpression(expr.span),
true,
t_start,
t_end)
}
} else {
t_start
};
// Note that we don't check the type of the start/end satisfy any
// Note that we don't check the type of start/end satisfy any
// bounds because right the range structs do not have any. If we add
// some bounds, then we'll need to check `t_start` against them here.
if !some_err {
let range_type = if idx_type == ty::mk_err() {
ty::mk_err()
} else {
// Find the did from the appropriate lang item.
let did = if end.is_some() {
// Range
fcx.tcx().lang_items.range_struct()
tcx.lang_items.range_struct()
} else {
// RangeFrom
fcx.tcx().lang_items.range_from_struct()
tcx.lang_items.range_from_struct()
};
if let Some(did) = did {
let substs = Substs::new_type(vec![t_start], vec![]);
fcx.write_ty(id, ty::mk_struct(tcx, did, substs));
let polytype = ty::lookup_item_type(tcx, did);
let substs = Substs::new_type(vec![idx_type], vec![]);
let bounds = polytype.generics.to_bounds(tcx, &substs);
fcx.add_obligations_for_parameters(
traits::ObligationCause::new(expr.span,
fcx.body_id,
traits::ItemObligation(did)),
&bounds);
ty::mk_struct(tcx, did, substs)
} else {
fcx.write_ty(id, ty::mk_err());
}
ty::mk_err()
}
};
fcx.write_ty(id, range_type);
}
}

View File

@ -13,7 +13,7 @@
pub fn main() {
// Mixed types.
let _ = 0u..10i;
//~^ ERROR mismatched types: expected `uint`, found `int`
//~^ ERROR start and end of range have incompatible types
// Float => does not implement iterator.
for i in 0f32..42f32 {}

View File

@ -11,13 +11,6 @@
// Test range syntax - borrow errors.
pub fn main() {
let x = &42i;
{
let y = 42i;
let r = x..&y;
//~^ ERROR `y` does not live long enough
}
let r = {
(&42i)..&42
//~^ ERROR borrowed value does not live long enough

View File

@ -38,4 +38,11 @@ pub fn main() {
let _ = 0u..4+4-3;
let _ = 0..foo();
// Test we can use two different types with a common supertype.
let x = &42i;
{
let y = 42i;
let _ = x..&y;
}
}