rust/src/librustc_data_structures/indexed_vec.rs

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use std::fmt::Debug;
use std::iter::{self, FromIterator};
use std::slice;
use std::marker::PhantomData;
use std::ops::{Index, IndexMut, Range, RangeBounds};
use std::fmt;
use std::hash::Hash;
use std::vec;
use std::u32;
use rustc_serialize as serialize;
/// Represents some newtyped `usize` wrapper.
///
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/// Purpose: avoid mixing indexes for different bitvector domains.
pub trait Idx: Copy + 'static + Ord + Debug + Hash {
fn new(idx: usize) -> Self;
fn index(self) -> usize;
fn increment_by(&mut self, amount: usize) {
*self = self.plus(amount);
}
fn plus(self, amount: usize) -> Self {
Self::new(self.index() + amount)
}
}
impl Idx for usize {
#[inline]
fn new(idx: usize) -> Self { idx }
#[inline]
fn index(self) -> usize { self }
}
impl Idx for u32 {
#[inline]
fn new(idx: usize) -> Self { assert!(idx <= u32::MAX as usize); idx as u32 }
#[inline]
fn index(self) -> usize { self as usize }
}
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/// Creates a struct type `S` that can be used as an index with
/// `IndexVec` and so on.
///
/// There are two ways of interacting with these indices:
///
/// - The `From` impls are the preferred way. So you can do
/// `S::from(v)` with a `usize` or `u32`. And you can convert back
/// to an integer with `u32::from(s)`.
///
/// - Alternatively, you can use the methods `S::new(v)` and `s.index()`
/// to create/return a value.
///
/// Internally, the index uses a u32, so the index must not exceed
/// `u32::MAX`. You can also customize things like the `Debug` impl,
/// what traits are derived, and so forth via the macro.
#[macro_export]
#[allow_internal_unstable(step_trait, rustc_attrs)]
macro_rules! newtype_index {
// ---- public rules ----
// Use default constants
($(#[$attrs:meta])* $v:vis struct $name:ident { .. }) => (
$crate::newtype_index!(
// Leave out derives marker so we can use its absence to ensure it comes first
@attrs [$(#[$attrs])*]
@type [$name]
// shave off 256 indices at the end to allow space for packing these indices into enums
@max [0xFFFF_FF00]
@vis [$v]
@debug_format ["{}"]);
);
// Define any constants
($(#[$attrs:meta])* $v:vis struct $name:ident { $($tokens:tt)+ }) => (
$crate::newtype_index!(
// Leave out derives marker so we can use its absence to ensure it comes first
@attrs [$(#[$attrs])*]
@type [$name]
// shave off 256 indices at the end to allow space for packing these indices into enums
@max [0xFFFF_FF00]
@vis [$v]
@debug_format ["{}"]
$($tokens)+);
);
// ---- private rules ----
// Base case, user-defined constants (if any) have already been defined
(@derives [$($derives:ident,)*]
@attrs [$(#[$attrs:meta])*]
@type [$type:ident]
@max [$max:expr]
@vis [$v:vis]
@debug_format [$debug_format:tt]) => (
$(#[$attrs])*
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#[derive(Copy, PartialEq, Eq, Hash, PartialOrd, Ord, $($derives),*)]
#[rustc_layout_scalar_valid_range_end($max)]
$v struct $type {
private: u32
}
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impl Clone for $type {
fn clone(&self) -> Self {
*self
}
}
impl $type {
$v const MAX_AS_U32: u32 = $max;
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$v const MAX: $type = $type::from_u32_const($max);
#[inline]
$v fn from_usize(value: usize) -> Self {
assert!(value <= ($max as usize));
unsafe {
$type::from_u32_unchecked(value as u32)
}
}
#[inline]
$v fn from_u32(value: u32) -> Self {
assert!(value <= $max);
unsafe {
$type::from_u32_unchecked(value)
}
}
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/// Hacky variant of `from_u32` for use in constants.
/// This version checks the "max" constraint by using an
/// invalid array dereference.
#[inline]
$v const fn from_u32_const(value: u32) -> Self {
// This will fail at const eval time unless `value <=
// max` is true (in which case we get the index 0).
// It will also fail at runtime, of course, but in a
// kind of wacky way.
let _ = ["out of range value used"][
!(value <= $max) as usize
];
unsafe {
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$type { private: value }
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}
}
#[inline]
$v const unsafe fn from_u32_unchecked(value: u32) -> Self {
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unsafe { $type { private: value } }
}
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/// Extracts the value of this index as an integer.
#[inline]
$v fn index(self) -> usize {
self.as_usize()
}
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/// Extracts the value of this index as a `u32`.
#[inline]
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$v fn as_u32(self) -> u32 {
self.private
}
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/// Extracts the value of this index as a `usize`.
#[inline]
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$v fn as_usize(self) -> usize {
self.as_u32() as usize
}
}
impl std::ops::Add<usize> for $type {
type Output = Self;
fn add(self, other: usize) -> Self {
Self::new(self.index() + other)
}
}
impl Idx for $type {
#[inline]
fn new(value: usize) -> Self {
Self::from(value)
}
#[inline]
fn index(self) -> usize {
usize::from(self)
}
}
impl ::std::iter::Step for $type {
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#[inline]
fn steps_between(start: &Self, end: &Self) -> Option<usize> {
<usize as ::std::iter::Step>::steps_between(
&Idx::index(*start),
&Idx::index(*end),
)
}
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#[inline]
fn replace_one(&mut self) -> Self {
::std::mem::replace(self, Self::new(1))
}
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#[inline]
fn replace_zero(&mut self) -> Self {
::std::mem::replace(self, Self::new(0))
}
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#[inline]
fn add_one(&self) -> Self {
Self::new(Idx::index(*self) + 1)
}
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#[inline]
fn sub_one(&self) -> Self {
Self::new(Idx::index(*self) - 1)
}
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#[inline]
fn add_usize(&self, u: usize) -> Option<Self> {
Idx::index(*self).checked_add(u).map(Self::new)
}
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#[inline]
fn sub_usize(&self, u: usize) -> Option<Self> {
Idx::index(*self).checked_sub(u).map(Self::new)
}
}
impl From<$type> for u32 {
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#[inline]
fn from(v: $type) -> u32 {
v.as_u32()
}
}
impl From<$type> for usize {
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#[inline]
fn from(v: $type) -> usize {
v.as_usize()
}
}
impl From<usize> for $type {
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#[inline]
fn from(value: usize) -> Self {
$type::from_usize(value)
}
}
impl From<u32> for $type {
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#[inline]
fn from(value: u32) -> Self {
$type::from_u32(value)
}
}
$crate::newtype_index!(
@handle_debug
@derives [$($derives,)*]
@type [$type]
@debug_format [$debug_format]);
);
// base case for handle_debug where format is custom. No Debug implementation is emitted.
(@handle_debug
@derives [$($_derives:ident,)*]
@type [$type:ident]
@debug_format [custom]) => ();
// base case for handle_debug, no debug overrides found, so use default
(@handle_debug
@derives []
@type [$type:ident]
@debug_format [$debug_format:tt]) => (
impl ::std::fmt::Debug for $type {
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fn fmt(&self, fmt: &mut ::std::fmt::Formatter<'_>) -> ::std::fmt::Result {
write!(fmt, $debug_format, self.as_u32())
}
}
);
// Debug is requested for derive, don't generate any Debug implementation.
(@handle_debug
@derives [Debug, $($derives:ident,)*]
@type [$type:ident]
@debug_format [$debug_format:tt]) => ();
// It's not Debug, so just pop it off the front of the derives stack and check the rest.
(@handle_debug
@derives [$_derive:ident, $($derives:ident,)*]
@type [$type:ident]
@debug_format [$debug_format:tt]) => (
$crate::newtype_index!(
@handle_debug
@derives [$($derives,)*]
@type [$type]
@debug_format [$debug_format]);
);
// Append comma to end of derives list if it's missing
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(@attrs [$(#[$attrs:meta])*]
@type [$type:ident]
@max [$max:expr]
@vis [$v:vis]
@debug_format [$debug_format:tt]
derive [$($derives:ident),*]
$($tokens:tt)*) => (
$crate::newtype_index!(
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@attrs [$(#[$attrs])*]
@type [$type]
@max [$max]
@vis [$v]
@debug_format [$debug_format]
derive [$($derives,)*]
$($tokens)*);
);
// By not including the @derives marker in this list nor in the default args, we can force it
// to come first if it exists. When encodable is custom, just use the derives list as-is.
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(@attrs [$(#[$attrs:meta])*]
@type [$type:ident]
@max [$max:expr]
@vis [$v:vis]
@debug_format [$debug_format:tt]
derive [$($derives:ident,)+]
ENCODABLE = custom
$($tokens:tt)*) => (
$crate::newtype_index!(
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@attrs [$(#[$attrs])*]
@derives [$($derives,)+]
@type [$type]
@max [$max]
@vis [$v]
@debug_format [$debug_format]
$($tokens)*);
);
// By not including the @derives marker in this list nor in the default args, we can force it
// to come first if it exists. When encodable isn't custom, add serialization traits by default.
(@attrs [$(#[$attrs:meta])*]
@type [$type:ident]
@max [$max:expr]
@vis [$v:vis]
@debug_format [$debug_format:tt]
derive [$($derives:ident,)+]
$($tokens:tt)*) => (
$crate::newtype_index!(
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@derives [$($derives,)+ RustcEncodable,]
@attrs [$(#[$attrs])*]
@type [$type]
@max [$max]
@vis [$v]
@debug_format [$debug_format]
$($tokens)*);
$crate::newtype_index!(@decodable $type);
);
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// The case where no derives are added, but encodable is overridden. Don't
// derive serialization traits
(@attrs [$(#[$attrs:meta])*]
@type [$type:ident]
@max [$max:expr]
@vis [$v:vis]
@debug_format [$debug_format:tt]
ENCODABLE = custom
$($tokens:tt)*) => (
$crate::newtype_index!(
@derives []
@attrs [$(#[$attrs])*]
@type [$type]
@max [$max]
@vis [$v]
@debug_format [$debug_format]
$($tokens)*);
);
// The case where no derives are added, add serialization derives by default
(@attrs [$(#[$attrs:meta])*]
@type [$type:ident]
@max [$max:expr]
@vis [$v:vis]
@debug_format [$debug_format:tt]
$($tokens:tt)*) => (
$crate::newtype_index!(
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@derives [RustcEncodable,]
@attrs [$(#[$attrs])*]
@type [$type]
@max [$max]
@vis [$v]
@debug_format [$debug_format]
$($tokens)*);
$crate::newtype_index!(@decodable $type);
);
(@decodable $type:ident) => (
impl $type {
fn __decodable__impl__hack() {
mod __more_hacks_because__self_doesnt_work_in_functions {
extern crate serialize;
use self::serialize::{Decodable, Decoder};
impl Decodable for super::$type {
fn decode<D: Decoder>(d: &mut D) -> Result<Self, D::Error> {
d.read_u32().map(Self::from)
}
}
}
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}
}
);
// Rewrite final without comma to one that includes comma
(@derives [$($derives:ident,)*]
@attrs [$(#[$attrs:meta])*]
@type [$type:ident]
@max [$max:expr]
@vis [$v:vis]
@debug_format [$debug_format:tt]
$name:ident = $constant:expr) => (
$crate::newtype_index!(
@derives [$($derives,)*]
@attrs [$(#[$attrs])*]
@type [$type]
@max [$max]
@vis [$v]
@debug_format [$debug_format]
$name = $constant,);
);
// Rewrite final const without comma to one that includes comma
(@derives [$($derives:ident,)*]
@attrs [$(#[$attrs:meta])*]
@type [$type:ident]
@max [$max:expr]
@vis [$v:vis]
@debug_format [$debug_format:tt]
$(#[doc = $doc:expr])*
const $name:ident = $constant:expr) => (
$crate::newtype_index!(
@derives [$($derives,)*]
@attrs [$(#[$attrs])*]
@type [$type]
@max [$max]
@vis [$v]
@debug_format [$debug_format]
$(#[doc = $doc])* const $name = $constant,);
);
// Replace existing default for max
(@derives [$($derives:ident,)*]
@attrs [$(#[$attrs:meta])*]
@type [$type:ident]
@max [$_max:expr]
@vis [$v:vis]
@debug_format [$debug_format:tt]
MAX = $max:expr,
$($tokens:tt)*) => (
$crate::newtype_index!(
@derives [$($derives,)*]
@attrs [$(#[$attrs])*]
@type [$type]
@max [$max]
@vis [$v]
@debug_format [$debug_format]
$($tokens)*);
);
// Replace existing default for debug_format
(@derives [$($derives:ident,)*]
@attrs [$(#[$attrs:meta])*]
@type [$type:ident]
@max [$max:expr]
@vis [$v:vis]
@debug_format [$_debug_format:tt]
DEBUG_FORMAT = $debug_format:tt,
$($tokens:tt)*) => (
$crate::newtype_index!(
@derives [$($derives,)*]
@attrs [$(#[$attrs])*]
@type [$type]
@max [$max]
@vis [$v]
@debug_format [$debug_format]
$($tokens)*);
);
// Assign a user-defined constant
(@derives [$($derives:ident,)*]
@attrs [$(#[$attrs:meta])*]
@type [$type:ident]
@max [$max:expr]
@vis [$v:vis]
@debug_format [$debug_format:tt]
$(#[doc = $doc:expr])*
const $name:ident = $constant:expr,
$($tokens:tt)*) => (
$(#[doc = $doc])*
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pub const $name: $type = $type::from_u32_const($constant);
$crate::newtype_index!(
@derives [$($derives,)*]
@attrs [$(#[$attrs])*]
@type [$type]
@max [$max]
@vis [$v]
@debug_format [$debug_format]
$($tokens)*);
);
}
#[derive(Clone, PartialEq, Eq, Hash)]
pub struct IndexVec<I: Idx, T> {
pub raw: Vec<T>,
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_marker: PhantomData<fn(&I)>
}
// Whether `IndexVec` is `Send` depends only on the data,
// not the phantom data.
unsafe impl<I: Idx, T> Send for IndexVec<I, T> where T: Send {}
impl<I: Idx, T: serialize::Encodable> serialize::Encodable for IndexVec<I, T> {
fn encode<S: serialize::Encoder>(&self, s: &mut S) -> Result<(), S::Error> {
serialize::Encodable::encode(&self.raw, s)
}
}
impl<I: Idx, T: serialize::Decodable> serialize::Decodable for IndexVec<I, T> {
fn decode<D: serialize::Decoder>(d: &mut D) -> Result<Self, D::Error> {
serialize::Decodable::decode(d).map(|v| {
IndexVec { raw: v, _marker: PhantomData }
})
}
}
impl<I: Idx, T: fmt::Debug> fmt::Debug for IndexVec<I, T> {
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fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result {
fmt::Debug::fmt(&self.raw, fmt)
}
}
pub type Enumerated<I, J> = iter::Map<iter::Enumerate<J>, IntoIdx<I>>;
impl<I: Idx, T> IndexVec<I, T> {
#[inline]
pub fn new() -> Self {
IndexVec { raw: Vec::new(), _marker: PhantomData }
}
#[inline]
pub fn from_raw(raw: Vec<T>) -> Self {
IndexVec { raw, _marker: PhantomData }
}
#[inline]
pub fn with_capacity(capacity: usize) -> Self {
IndexVec { raw: Vec::with_capacity(capacity), _marker: PhantomData }
}
#[inline]
pub fn from_elem<S>(elem: T, universe: &IndexVec<I, S>) -> Self
where T: Clone
{
IndexVec { raw: vec![elem; universe.len()], _marker: PhantomData }
}
#[inline]
pub fn from_elem_n(elem: T, n: usize) -> Self
where T: Clone
{
IndexVec { raw: vec![elem; n], _marker: PhantomData }
}
#[inline]
pub fn push(&mut self, d: T) -> I {
let idx = I::new(self.len());
self.raw.push(d);
idx
}
#[inline]
pub fn pop(&mut self) -> Option<T> {
self.raw.pop()
}
#[inline]
pub fn len(&self) -> usize {
self.raw.len()
}
/// Gives the next index that will be assigned when `push` is
/// called.
#[inline]
pub fn next_index(&self) -> I {
I::new(self.len())
}
#[inline]
pub fn is_empty(&self) -> bool {
self.raw.is_empty()
}
#[inline]
pub fn into_iter(self) -> vec::IntoIter<T> {
self.raw.into_iter()
}
#[inline]
pub fn into_iter_enumerated(self) -> Enumerated<I, vec::IntoIter<T>>
{
self.raw.into_iter().enumerate().map(IntoIdx { _marker: PhantomData })
}
#[inline]
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pub fn iter(&self) -> slice::Iter<'_, T> {
self.raw.iter()
}
#[inline]
pub fn iter_enumerated(&self) -> Enumerated<I, slice::Iter<'_, T>>
{
self.raw.iter().enumerate().map(IntoIdx { _marker: PhantomData })
}
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#[inline]
pub fn indices(&self) -> iter::Map<Range<usize>, IntoIdx<I>> {
(0..self.len()).map(IntoIdx { _marker: PhantomData })
}
#[inline]
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pub fn iter_mut(&mut self) -> slice::IterMut<'_, T> {
self.raw.iter_mut()
}
#[inline]
pub fn iter_enumerated_mut(&mut self) -> Enumerated<I, slice::IterMut<'_, T>>
{
self.raw.iter_mut().enumerate().map(IntoIdx { _marker: PhantomData })
}
#[inline]
pub fn drain<'a, R: RangeBounds<usize>>(
&'a mut self, range: R) -> impl Iterator<Item=T> + 'a {
self.raw.drain(range)
}
#[inline]
pub fn drain_enumerated<'a, R: RangeBounds<usize>>(
&'a mut self, range: R) -> impl Iterator<Item=(I, T)> + 'a {
self.raw.drain(range).enumerate().map(IntoIdx { _marker: PhantomData })
}
#[inline]
pub fn last(&self) -> Option<I> {
self.len().checked_sub(1).map(I::new)
}
#[inline]
pub fn shrink_to_fit(&mut self) {
self.raw.shrink_to_fit()
}
#[inline]
pub fn swap(&mut self, a: I, b: I) {
self.raw.swap(a.index(), b.index())
}
#[inline]
pub fn truncate(&mut self, a: usize) {
self.raw.truncate(a)
}
#[inline]
pub fn get(&self, index: I) -> Option<&T> {
self.raw.get(index.index())
}
#[inline]
pub fn get_mut(&mut self, index: I) -> Option<&mut T> {
self.raw.get_mut(index.index())
}
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/// Returns mutable references to two distinct elements, a and b. Panics if a == b.
#[inline]
pub fn pick2_mut(&mut self, a: I, b: I) -> (&mut T, &mut T) {
let (ai, bi) = (a.index(), b.index());
assert!(ai != bi);
if ai < bi {
let (c1, c2) = self.raw.split_at_mut(bi);
(&mut c1[ai], &mut c2[0])
} else {
let (c2, c1) = self.pick2_mut(b, a);
(c1, c2)
}
}
pub fn convert_index_type<Ix: Idx>(self) -> IndexVec<Ix, T> {
IndexVec {
raw: self.raw,
_marker: PhantomData,
}
}
}
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impl<I: Idx, T: Clone> IndexVec<I, T> {
/// Grows the index vector so that it contains an entry for
/// `elem`; if that is already true, then has no
/// effect. Otherwise, inserts new values as needed by invoking
/// `fill_value`.
#[inline]
pub fn ensure_contains_elem(&mut self, elem: I, fill_value: impl FnMut() -> T) {
let min_new_len = elem.index() + 1;
if self.len() < min_new_len {
self.raw.resize_with(min_new_len, fill_value);
}
}
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#[inline]
pub fn resize(&mut self, new_len: usize, value: T) {
self.raw.resize(new_len, value)
}
#[inline]
pub fn resize_to_elem(&mut self, elem: I, fill_value: impl FnMut() -> T) {
let min_new_len = elem.index() + 1;
self.raw.resize_with(min_new_len, fill_value);
}
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}
impl<I: Idx, T: Ord> IndexVec<I, T> {
#[inline]
pub fn binary_search(&self, value: &T) -> Result<I, I> {
match self.raw.binary_search(value) {
Ok(i) => Ok(Idx::new(i)),
Err(i) => Err(Idx::new(i)),
}
}
}
impl<I: Idx, T> Index<I> for IndexVec<I, T> {
type Output = T;
#[inline]
fn index(&self, index: I) -> &T {
&self.raw[index.index()]
}
}
impl<I: Idx, T> IndexMut<I> for IndexVec<I, T> {
#[inline]
fn index_mut(&mut self, index: I) -> &mut T {
&mut self.raw[index.index()]
}
}
impl<I: Idx, T> Default for IndexVec<I, T> {
#[inline]
fn default() -> Self {
Self::new()
}
}
impl<I: Idx, T> Extend<T> for IndexVec<I, T> {
#[inline]
fn extend<J: IntoIterator<Item = T>>(&mut self, iter: J) {
self.raw.extend(iter);
}
}
impl<I: Idx, T> FromIterator<T> for IndexVec<I, T> {
#[inline]
fn from_iter<J>(iter: J) -> Self where J: IntoIterator<Item=T> {
IndexVec { raw: FromIterator::from_iter(iter), _marker: PhantomData }
}
}
impl<I: Idx, T> IntoIterator for IndexVec<I, T> {
type Item = T;
type IntoIter = vec::IntoIter<T>;
#[inline]
fn into_iter(self) -> vec::IntoIter<T> {
self.raw.into_iter()
}
}
impl<'a, I: Idx, T> IntoIterator for &'a IndexVec<I, T> {
type Item = &'a T;
type IntoIter = slice::Iter<'a, T>;
#[inline]
fn into_iter(self) -> slice::Iter<'a, T> {
self.raw.iter()
}
}
impl<'a, I: Idx, T> IntoIterator for &'a mut IndexVec<I, T> {
type Item = &'a mut T;
type IntoIter = slice::IterMut<'a, T>;
#[inline]
fn into_iter(self) -> slice::IterMut<'a, T> {
self.raw.iter_mut()
}
}
pub struct IntoIdx<I: Idx> { _marker: PhantomData<fn(&I)> }
impl<I: Idx, T> FnOnce<((usize, T),)> for IntoIdx<I> {
type Output = (I, T);
extern "rust-call" fn call_once(self, ((n, t),): ((usize, T),)) -> Self::Output {
(I::new(n), t)
}
}
impl<I: Idx, T> FnMut<((usize, T),)> for IntoIdx<I> {
extern "rust-call" fn call_mut(&mut self, ((n, t),): ((usize, T),)) -> Self::Output {
(I::new(n), t)
}
}
2016-06-07 18:20:50 +00:00
impl<I: Idx> FnOnce<(usize,)> for IntoIdx<I> {
type Output = I;
extern "rust-call" fn call_once(self, (n,): (usize,)) -> Self::Output {
I::new(n)
}
}
impl<I: Idx> FnMut<(usize,)> for IntoIdx<I> {
extern "rust-call" fn call_mut(&mut self, (n,): (usize,)) -> Self::Output {
I::new(n)
}
}