rust/src/librustc_data_structures/stable_hasher.rs

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// Copyright 2016 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 std::hash::{Hash, Hasher, BuildHasher};
use std::marker::PhantomData;
use std::mem;
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use sip128::SipHasher128;
/// When hashing something that ends up affecting properties like symbol names. We
/// want these symbol names to be calculated independent of other factors like
/// what architecture you're compiling *from*.
///
/// The hashing just uses the standard `Hash` trait, but the implementations of
/// `Hash` for the `usize` and `isize` types are *not* architecture independent
/// (e.g. they has 4 or 8 bytes). As a result we want to avoid `usize` and
/// `isize` completely when hashing.
///
/// To do that, we encode all integers to be hashed with some
/// arch-independent encoding.
///
/// At the moment, we pass i8/u8 straight through and encode
/// all other integers using leb128.
///
/// This hasher currently always uses the stable Blake2b algorithm
/// and allows for variable output lengths through its type
/// parameter.
pub struct StableHasher<W> {
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state: SipHasher128,
bytes_hashed: u64,
width: PhantomData<W>,
}
impl<W: StableHasherResult> ::std::fmt::Debug for StableHasher<W> {
fn fmt(&self, f: &mut ::std::fmt::Formatter) -> ::std::fmt::Result {
write!(f, "{:?}", self.state)
}
}
pub trait StableHasherResult: Sized {
fn finish(hasher: StableHasher<Self>) -> Self;
}
impl<W: StableHasherResult> StableHasher<W> {
pub fn new() -> Self {
StableHasher {
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state: SipHasher128::new_with_keys(0, 0),
bytes_hashed: 0,
width: PhantomData,
}
}
pub fn finish(self) -> W {
W::finish(self)
}
}
impl StableHasherResult for u128 {
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fn finish(hasher: StableHasher<Self>) -> Self {
let (_0, _1) = hasher.finalize();
(_0 as u128) | ((_1 as u128) << 64)
}
}
impl StableHasherResult for u64 {
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fn finish(hasher: StableHasher<Self>) -> Self {
hasher.finalize().0
}
}
impl<W> StableHasher<W> {
#[inline]
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pub fn finalize(self) -> (u64, u64) {
self.state.finish128()
}
#[inline]
pub fn bytes_hashed(&self) -> u64 {
self.bytes_hashed
}
}
// For the non-u8 integer cases we leb128 encode them first. Because small
// integers dominate, this significantly and cheaply reduces the number of
// bytes hashed, which is good because blake2b is expensive.
impl<W> Hasher for StableHasher<W> {
fn finish(&self) -> u64 {
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panic!("use StableHasher::finalize instead");
}
#[inline]
fn write(&mut self, bytes: &[u8]) {
self.state.write(bytes);
self.bytes_hashed += bytes.len() as u64;
}
#[inline]
fn write_u8(&mut self, i: u8) {
self.state.write_u8(i);
self.bytes_hashed += 1;
}
#[inline]
fn write_u16(&mut self, i: u16) {
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self.state.write_u16(i.to_le());
self.bytes_hashed += 2;
}
#[inline]
fn write_u32(&mut self, i: u32) {
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self.state.write_u32(i.to_le());
self.bytes_hashed += 4;
}
#[inline]
fn write_u64(&mut self, i: u64) {
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self.state.write_u64(i.to_le());
self.bytes_hashed += 8;
}
#[inline]
fn write_u128(&mut self, i: u128) {
self.state.write_u128(i.to_le());
self.bytes_hashed += 16;
}
#[inline]
fn write_usize(&mut self, i: usize) {
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self.state.write_usize(i.to_le());
self.bytes_hashed += ::std::mem::size_of::<usize>() as u64;
}
#[inline]
fn write_i8(&mut self, i: i8) {
self.state.write_i8(i);
self.bytes_hashed += 1;
}
#[inline]
fn write_i16(&mut self, i: i16) {
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self.state.write_i16(i.to_le());
self.bytes_hashed += 2;
}
#[inline]
fn write_i32(&mut self, i: i32) {
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self.state.write_i32(i.to_le());
self.bytes_hashed += 4;
}
#[inline]
fn write_i64(&mut self, i: i64) {
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self.state.write_i64(i.to_le());
self.bytes_hashed += 8;
}
#[inline]
fn write_i128(&mut self, i: i128) {
self.state.write_i128(i.to_le());
self.bytes_hashed += 16;
}
#[inline]
fn write_isize(&mut self, i: isize) {
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self.state.write_isize(i.to_le());
self.bytes_hashed += ::std::mem::size_of::<isize>() as u64;
}
}
/// Something that can provide a stable hashing context.
pub trait StableHashingContextProvider {
type ContextType;
fn create_stable_hashing_context(&self) -> Self::ContextType;
}
impl<'a, T: StableHashingContextProvider> StableHashingContextProvider for &'a T {
type ContextType = T::ContextType;
fn create_stable_hashing_context(&self) -> Self::ContextType {
(**self).create_stable_hashing_context()
}
}
impl<'a, T: StableHashingContextProvider> StableHashingContextProvider for &'a mut T {
type ContextType = T::ContextType;
fn create_stable_hashing_context(&self) -> Self::ContextType {
(**self).create_stable_hashing_context()
}
}
/// Something that implements `HashStable<CTX>` can be hashed in a way that is
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/// stable across multiple compilation sessions.
pub trait HashStable<CTX> {
fn hash_stable<W: StableHasherResult>(&self,
hcx: &mut CTX,
hasher: &mut StableHasher<W>);
}
/// Implement this for types that can be turned into stable keys like, for
/// example, for DefId that can be converted to a DefPathHash. This is used for
/// bringing maps into a predictable order before hashing them.
pub trait ToStableHashKey<HCX> {
type KeyType: Ord + Clone + Sized + HashStable<HCX>;
fn to_stable_hash_key(&self, hcx: &HCX) -> Self::KeyType;
}
// Implement HashStable by just calling `Hash::hash()`. This works fine for
// self-contained values that don't depend on the hashing context `CTX`.
macro_rules! impl_stable_hash_via_hash {
($t:ty) => (
impl<CTX> HashStable<CTX> for $t {
#[inline]
fn hash_stable<W: StableHasherResult>(&self,
_: &mut CTX,
hasher: &mut StableHasher<W>) {
::std::hash::Hash::hash(self, hasher);
}
}
);
}
impl_stable_hash_via_hash!(i8);
impl_stable_hash_via_hash!(i16);
impl_stable_hash_via_hash!(i32);
impl_stable_hash_via_hash!(i64);
impl_stable_hash_via_hash!(isize);
impl_stable_hash_via_hash!(u8);
impl_stable_hash_via_hash!(u16);
impl_stable_hash_via_hash!(u32);
impl_stable_hash_via_hash!(u64);
impl_stable_hash_via_hash!(usize);
impl_stable_hash_via_hash!(u128);
impl_stable_hash_via_hash!(i128);
impl_stable_hash_via_hash!(char);
impl_stable_hash_via_hash!(());
impl<CTX> HashStable<CTX> for f32 {
fn hash_stable<W: StableHasherResult>(&self,
ctx: &mut CTX,
hasher: &mut StableHasher<W>) {
let val: u32 = unsafe {
::std::mem::transmute(*self)
};
val.hash_stable(ctx, hasher);
}
}
impl<CTX> HashStable<CTX> for f64 {
fn hash_stable<W: StableHasherResult>(&self,
ctx: &mut CTX,
hasher: &mut StableHasher<W>) {
let val: u64 = unsafe {
::std::mem::transmute(*self)
};
val.hash_stable(ctx, hasher);
}
}
impl<T1: HashStable<CTX>, CTX> HashStable<CTX> for (T1,) {
fn hash_stable<W: StableHasherResult>(&self,
ctx: &mut CTX,
hasher: &mut StableHasher<W>) {
let (ref _0,) = *self;
_0.hash_stable(ctx, hasher);
}
}
impl<T1: HashStable<CTX>, T2: HashStable<CTX>, CTX> HashStable<CTX> for (T1, T2) {
fn hash_stable<W: StableHasherResult>(&self,
ctx: &mut CTX,
hasher: &mut StableHasher<W>) {
let (ref _0, ref _1) = *self;
_0.hash_stable(ctx, hasher);
_1.hash_stable(ctx, hasher);
}
}
impl<T1, T2, T3, CTX> HashStable<CTX> for (T1, T2, T3)
where T1: HashStable<CTX>,
T2: HashStable<CTX>,
T3: HashStable<CTX>,
{
fn hash_stable<W: StableHasherResult>(&self,
ctx: &mut CTX,
hasher: &mut StableHasher<W>) {
let (ref _0, ref _1, ref _2) = *self;
_0.hash_stable(ctx, hasher);
_1.hash_stable(ctx, hasher);
_2.hash_stable(ctx, hasher);
}
}
impl<T: HashStable<CTX>, CTX> HashStable<CTX> for [T] {
default fn hash_stable<W: StableHasherResult>(&self,
ctx: &mut CTX,
hasher: &mut StableHasher<W>) {
self.len().hash_stable(ctx, hasher);
for item in self {
item.hash_stable(ctx, hasher);
}
}
}
impl<T: HashStable<CTX>, CTX> HashStable<CTX> for Vec<T> {
#[inline]
fn hash_stable<W: StableHasherResult>(&self,
ctx: &mut CTX,
hasher: &mut StableHasher<W>) {
(&self[..]).hash_stable(ctx, hasher);
}
}
impl<T: ?Sized + HashStable<CTX>, CTX> HashStable<CTX> for Box<T> {
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#[inline]
fn hash_stable<W: StableHasherResult>(&self,
ctx: &mut CTX,
hasher: &mut StableHasher<W>) {
(**self).hash_stable(ctx, hasher);
}
}
impl<T: ?Sized + HashStable<CTX>, CTX> HashStable<CTX> for ::std::rc::Rc<T> {
#[inline]
fn hash_stable<W: StableHasherResult>(&self,
ctx: &mut CTX,
hasher: &mut StableHasher<W>) {
(**self).hash_stable(ctx, hasher);
}
}
impl<T: ?Sized + HashStable<CTX>, CTX> HashStable<CTX> for ::std::sync::Arc<T> {
#[inline]
fn hash_stable<W: StableHasherResult>(&self,
ctx: &mut CTX,
hasher: &mut StableHasher<W>) {
(**self).hash_stable(ctx, hasher);
}
}
impl<CTX> HashStable<CTX> for str {
#[inline]
fn hash_stable<W: StableHasherResult>(&self,
_: &mut CTX,
hasher: &mut StableHasher<W>) {
self.len().hash(hasher);
self.as_bytes().hash(hasher);
}
}
impl<CTX> HashStable<CTX> for String {
#[inline]
fn hash_stable<W: StableHasherResult>(&self,
hcx: &mut CTX,
hasher: &mut StableHasher<W>) {
(&self[..]).hash_stable(hcx, hasher);
}
}
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impl<HCX> ToStableHashKey<HCX> for String {
type KeyType = String;
#[inline]
fn to_stable_hash_key(&self, _: &HCX) -> Self::KeyType {
self.clone()
}
}
impl<CTX> HashStable<CTX> for bool {
#[inline]
fn hash_stable<W: StableHasherResult>(&self,
ctx: &mut CTX,
hasher: &mut StableHasher<W>) {
(if *self { 1u8 } else { 0u8 }).hash_stable(ctx, hasher);
}
}
impl<T, CTX> HashStable<CTX> for Option<T>
where T: HashStable<CTX>
{
#[inline]
fn hash_stable<W: StableHasherResult>(&self,
ctx: &mut CTX,
hasher: &mut StableHasher<W>) {
if let Some(ref value) = *self {
1u8.hash_stable(ctx, hasher);
value.hash_stable(ctx, hasher);
} else {
0u8.hash_stable(ctx, hasher);
}
}
}
impl<T1, T2, CTX> HashStable<CTX> for Result<T1, T2>
where T1: HashStable<CTX>,
T2: HashStable<CTX>,
{
#[inline]
fn hash_stable<W: StableHasherResult>(&self,
ctx: &mut CTX,
hasher: &mut StableHasher<W>) {
mem::discriminant(self).hash_stable(ctx, hasher);
match *self {
Ok(ref x) => x.hash_stable(ctx, hasher),
Err(ref x) => x.hash_stable(ctx, hasher),
}
}
}
impl<'a, T, CTX> HashStable<CTX> for &'a T
where T: HashStable<CTX> + ?Sized
{
#[inline]
fn hash_stable<W: StableHasherResult>(&self,
ctx: &mut CTX,
hasher: &mut StableHasher<W>) {
(**self).hash_stable(ctx, hasher);
}
}
impl<T, CTX> HashStable<CTX> for ::std::mem::Discriminant<T> {
#[inline]
fn hash_stable<W: StableHasherResult>(&self,
_: &mut CTX,
hasher: &mut StableHasher<W>) {
::std::hash::Hash::hash(self, hasher);
}
}
impl<I: ::indexed_vec::Idx, T, CTX> HashStable<CTX> for ::indexed_vec::IndexVec<I, T>
where T: HashStable<CTX>,
{
fn hash_stable<W: StableHasherResult>(&self,
ctx: &mut CTX,
hasher: &mut StableHasher<W>) {
self.len().hash_stable(ctx, hasher);
for v in &self.raw {
v.hash_stable(ctx, hasher);
}
}
}
impl<I: ::indexed_vec::Idx, CTX> HashStable<CTX> for ::indexed_set::IdxSetBuf<I>
{
fn hash_stable<W: StableHasherResult>(&self,
ctx: &mut CTX,
hasher: &mut StableHasher<W>) {
self.words().hash_stable(ctx, hasher);
}
}
impl_stable_hash_via_hash!(::std::path::Path);
impl_stable_hash_via_hash!(::std::path::PathBuf);
impl<K, V, R, HCX> HashStable<HCX> for ::std::collections::HashMap<K, V, R>
where K: ToStableHashKey<HCX> + Eq + Hash,
V: HashStable<HCX>,
R: BuildHasher,
{
#[inline]
fn hash_stable<W: StableHasherResult>(&self,
hcx: &mut HCX,
hasher: &mut StableHasher<W>) {
hash_stable_hashmap(hcx, hasher, self, ToStableHashKey::to_stable_hash_key);
}
}
impl<K, R, HCX> HashStable<HCX> for ::std::collections::HashSet<K, R>
where K: ToStableHashKey<HCX> + Eq + Hash,
R: BuildHasher,
{
fn hash_stable<W: StableHasherResult>(&self,
hcx: &mut HCX,
hasher: &mut StableHasher<W>) {
let mut keys: Vec<_> = self.iter()
.map(|k| k.to_stable_hash_key(hcx))
.collect();
keys.sort_unstable();
keys.hash_stable(hcx, hasher);
}
}
impl<K, V, HCX> HashStable<HCX> for ::std::collections::BTreeMap<K, V>
where K: ToStableHashKey<HCX>,
V: HashStable<HCX>,
{
fn hash_stable<W: StableHasherResult>(&self,
hcx: &mut HCX,
hasher: &mut StableHasher<W>) {
let mut entries: Vec<_> = self.iter()
.map(|(k, v)| (k.to_stable_hash_key(hcx), v))
.collect();
entries.sort_unstable_by(|&(ref sk1, _), &(ref sk2, _)| sk1.cmp(sk2));
entries.hash_stable(hcx, hasher);
}
}
impl<K, HCX> HashStable<HCX> for ::std::collections::BTreeSet<K>
where K: ToStableHashKey<HCX>,
{
fn hash_stable<W: StableHasherResult>(&self,
hcx: &mut HCX,
hasher: &mut StableHasher<W>) {
let mut keys: Vec<_> = self.iter()
.map(|k| k.to_stable_hash_key(hcx))
.collect();
keys.sort_unstable();
keys.hash_stable(hcx, hasher);
}
}
pub fn hash_stable_hashmap<HCX, K, V, R, SK, F, W>(
hcx: &mut HCX,
hasher: &mut StableHasher<W>,
map: &::std::collections::HashMap<K, V, R>,
to_stable_hash_key: F)
where K: Eq + Hash,
V: HashStable<HCX>,
R: BuildHasher,
SK: HashStable<HCX> + Ord + Clone,
F: Fn(&K, &HCX) -> SK,
W: StableHasherResult,
{
let mut entries: Vec<_> = map.iter()
.map(|(k, v)| (to_stable_hash_key(k, hcx), v))
.collect();
entries.sort_unstable_by(|&(ref sk1, _), &(ref sk2, _)| sk1.cmp(sk2));
entries.hash_stable(hcx, hasher);
}
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/// A vector container that makes sure that its items are hashed in a stable
/// order.
pub struct StableVec<T>(Vec<T>);
impl<T> StableVec<T> {
pub fn new(v: Vec<T>) -> Self {
StableVec(v)
}
}
impl<T> ::std::ops::Deref for StableVec<T> {
type Target = Vec<T>;
fn deref(&self) -> &Vec<T> {
&self.0
}
}
impl<T, HCX> HashStable<HCX> for StableVec<T>
where T: HashStable<HCX> + ToStableHashKey<HCX>
{
fn hash_stable<W: StableHasherResult>(&self,
hcx: &mut HCX,
hasher: &mut StableHasher<W>) {
let StableVec(ref v) = *self;
let mut sorted: Vec<_> = v.iter()
.map(|x| x.to_stable_hash_key(hcx))
.collect();
sorted.sort_unstable();
sorted.hash_stable(hcx, hasher);
}
}